Argyrophilic grain disease: An underestimated tauopathy

Rodriguez, Roberta Diehl; Grinberg, Lea Tenenholz

doi:10.1590/S1980-57642015DN91000002

Abstracts

Argyrophilic grain disease (AGD) is an under-recognized, distinct, highly frequent sporadic tauopathy, with a prevalence reaching 31.3% in centenarians. The most common AGD manifestation is slowly progressive amnestic mild cognitive impairment, accompanied by a high prevalence of neuropsychiatric symptoms. AGD diagnosis can only be achieved postmortem based on the finding of its three main pathologic features: argyrophilic grains, oligodendrocytic coiled bodies and neuronal pretangles. AGD is frequently seen together with Alzheimer's disease-type pathology or in association with other neurodegenerative diseases. Recent studies suggest that AGD may be a defense mechanism against the spread of other neuropathological entities, particularly Alzheimer's disease. This review aims to provide an in-depth overview of the current understanding on AGD.

argyrophilic grain disease; dementia; tauopathies; neurodegenerative diseases; pathology; postmortem

A doença com grãos argirofílicos (DGA) é uma taupatia esporádica distinta, bastante frequente, porém pouco reconhecida com uma prevalência atingindo 31,3% em centenários. A manifestação clínica mais comum da DGA é de um comprometimento cognitivo de lenta evolução associado a uma alta prevalência de sintomas psiquiátricos. O diagnóstico de DGA é possível somente com a análise do encéfalo post-mortem com os achados das três principais alterações patológicas: grãos argirofílicos, corpúsculos em embrião e pré- emaranhados neuronais. A DGA é, frequentemente, associada com alterações patológicas do tipo Alzheimer. Estudos recentes sugerem a AGD como um mecanismo de defesa contra a propagação de outras alterações neuropatológicas, em especial a doença de Alzheimer. Essa revisão almeja proporcionar uma visão geral do conhecimento atual sobre a DGA.

doença com grãos argirofílicos; demência; taupatias; doenças neurodegenerativas; patologia; post-mortem

INTRODUCTION

Argyrophilic grain disease (AGD) is highly frequent, but still under-recognized neurodegenerative condition.¹1 Grinberg LT, Heinsen H. Argyrophilic grain disease: An update about a frequent cause of dementia. Dement Neuropsychol 2009;3:2-7. AGD has proven the second-most-common neurodegenerative disease after Alzheimer's disease (AD) in several studies.²2 Thal DR, Schultz C, Botez G, et al. The impact of argyrophilic grain disease on the development of dementia and its relationship to concurrent Alzheimer's disease-related pathology. Neuropathol Appl Neurobiol 2005;31:270-279.

3 Pham CT, de Silva R, Haik S, et al. Tau-positive grains are constant in centenarians' hippocampus. Neurobiol Aging. 2011;32:1296-1303.

4 Braak H, Braak E. Argyrophilic grain disease: frequency of occurrence in different age categories and neuropathological diagnostic criteria. J Neural transm 1998;105:801-819.

5 Jellinger KA. Dementia with grains (argyrophilic grain disease). Brain pathol 1998;8:377-386. ^- ⁶6 Saito Y, Ruberu NN, Sawabe M, et al. Staging of argyrophilic grains: an age-associated tauopathy. J Neuropathol Exp Neurol 2004;63:911-918. The incidence of AGD increases significantly with age and its prevalence has been estimated to range from 9.3% in 65 year-olds to 31.3% in centenarians.⁴4 Braak H, Braak E. Argyrophilic grain disease: frequency of occurrence in different age categories and neuropathological diagnostic criteria. J Neural transm 1998;105:801-819. ^, ⁷7 Ding ZT, Wang Y, Jiang YP, et al. Argyrophilic grain disease: frequency and neuropathology in centenarians. Acta Neuropathologica 2006;111: 320-328.

8 Tolnay M, Clavaguera F. Argyrophilic grain disease: a late-onset dementia with distinctive features among tauopathies. Neuropathology 2004;24:269-283. ^- ⁹9 Tolnay M, Schwietert M, Monsch AU, Staehelin HB, Langui D, Probst A. Argyrophilic grain disease: distribution of grains in patients with and without dementia. Acta Neuropathol 1997;94:353-358. Although AGD is more prevalent in older individuals, it is not exclusively seen in the elderly. Ishihara et al. reported a 54-year-old man with a neuropathological diagnosis of AGD presenting frontotemporal dementia at age 49 years of age. Saito et al. detected AGD in a 56-year-old man from a series of 1,405 autopsies.⁶6 Saito Y, Ruberu NN, Sawabe M, et al. Staging of argyrophilic grains: an age-associated tauopathy. J Neuropathol Exp Neurol 2004;63:911-918. ^, ¹⁰10 Ishihara K, Araki S, Ihori N, et al. Argyrophilic grain disease presenting with frontotemporal dementia: a neuropsychological and pathological study of an autopsied case with presenile onset. Neuropathology 2005;25:165-170. In the series of the Brain Bank of the Brazilian Aging Brain Study Group, 6.7% of individuals aged between 50 and 60 had AGD.¹¹11 Grinberg LT, Ferretti RE, Farfel JM, et al. Brain bank of the Brazilian aging brain study group - a milestone reached and more than 1,600 collected brains. Cell Tissue Bank. 2007;8:151-162.

AGD was first reported in 1987, by Braak and co-workers as a progressive, late-onset neurodegenerative disease characterized by small spindle- or comma-shaped, silver stain positive lesions in neuronal processes, referred to as argyrophilic grains (AG).¹²12 Braak H, Braak E. Argyrophilic grains: characteristic pathology of cerebral cortex in cases of adult onset dementia without Alzheimer changes. Neurosci Lett 1987;76:124-127.Subsequently, studies revealed hyperphosphorylated-tau protein as a major AG component. AGD is frequently seen overlapping with AD pathology, making it even more difficult to investigate the role of AGD in cognition.²2 Thal DR, Schultz C, Botez G, et al. The impact of argyrophilic grain disease on the development of dementia and its relationship to concurrent Alzheimer's disease-related pathology. Neuropathol Appl Neurobiol 2005;31:270-279. ^, ¹³13 Josephs KA, Whitwell JL, Parisi JE, et al. Argyrophilic grains: a distinct disease or an additive pathology? Neurobiol Aging 2008;29:566-573.

14 Jicha GA, Petersen RC, Knopman DS, et al. Argyrophilic grain disease in demented subjects presenting initially with amnestic mild cognitive impairment. J Neuropathol Exp Neurol 2006;65:602-609. ^- ¹⁵15 Kovacs GG, Milenkovic I, Wohrer A, et al. Non-Alzheimer neurodegenerative pathologies and their combinations are more frequent than commonly believed in the elderly brain: a community-based autopsy series. Acta Neuropathol 2013;126:365-384. Consequently, many have recognized AGD as a distinctive pathological entity only recently.¹⁶16 Ilieva EV, Kichev A, Naudi A, Ferrer I, Pamplona R, Portero-Otin M. Mitochondrial dysfunction and oxidative and endoplasmic reticulum stress in argyrophilic grain disease. J Neuropathol Exp Neurol. 2011;70:253-263.

17 Ferrer I, Barrachina M, Tolnay M, et al. Phosphorylated protein kinases associated with neuronal and glial tau deposits in argyrophilic grain disease. Brain Pathol 2003;13:62-78.

18 Miserez AR, Clavaguera F, Monsch AU, Probst A, Tolnay M. Argyrophilic grain disease: molecular genetic difference to other four-repeat tauopathies. Acta Neuropathol 2003;106:363-366.

19 Botez G, Probst A, Ipsen S, Tolnay M. Astrocytes expressing hyperphosphorylated tau protein without glial fibrillary tangles in argyrophilic grain disease. Acta Neuropathol 1999;98:251-256.

20 Kovacs GG, Pittman A, Revesz T, et al. MAPT S305I mutation: implications for argyrophilic grain disease. Acta Neuropathol 2008;116:103-118.

21 Tolnay M, Sergeant N, Ghestem A, et al. Argyrophilic grain disease and Alzheimer's disease are distinguished by their different distribution of tau protein isoforms. Acta Neuropathol 2002;104:425-434.

22 Grinberg LT, Wang X, Wang C, et al. Argyrophilic grain disease differs from other tauopathies by lacking tau acetylation. Acta Neuropathol 2013;125:581-593. ^- ²³23 Thal DR, Capetillo-Zarate E, Galuske RA. Tracing of temporo-entorhinal connections in the human brain: cognitively impaired argyrophilic grain disease cases show dendritic alterations but no axonal disconnection of temporo-entorhinal association neurons. Acta Neuropathol 2008;115:175-183. The first descriptions characterized AGD as a novel neuropathological entity in patients with progressive late-onset dementia who lacked sufficient numbers of Alzheimer-type lesions to warrant the morphological diagnosis of Alzheimer disease,¹²12 Braak H, Braak E. Argyrophilic grains: characteristic pathology of cerebral cortex in cases of adult onset dementia without Alzheimer changes. Neurosci Lett 1987;76:124-127. ^, ²⁴24 Braak H, Braak E. Neuropathological stageing of Alzheimer-related changes. Acta Neuropathol 1991;82:239-259. ^, ²⁵25 Braak H, Braak E. Cortical and subcortical argyrophilic grains characterize a disease associated with adult onset dementia. Neuropathol Appl Neurobiol 1989;15:13-26. associated with dementia or otherwise.⁴4 Braak H, Braak E. Argyrophilic grain disease: frequency of occurrence in different age categories and neuropathological diagnostic criteria. J Neural transm 1998;105:801-819. ^, ⁵5 Jellinger KA. Dementia with grains (argyrophilic grain disease). Brain pathol 1998;8:377-386. ^, ²⁶26 Ikeda K, Akiyama H, Kondo H, Haga C. A study of dementia with argyrophilic grains. Possible cytoskeletal abnormality in dendrospinal portion of neurons and oligodendroglia. Acta Neuropathol 1995;89:409-414.

27 Itagaki S, McGeer PL, Akiyama H, et al. A case of adult-onset dementia with argyrophilic grains. Ann Neurol 1989;26:685-689.

28 Martinez-Lage P, Munoz DG. Prevalence and disease associations of argyrophilic grains of Braak. J Neuropathol Exp Neurol 1997;56:157-164.

29 Masliah E, Hansen LA, Quijada S, et al. Late onset dementia with argyrophilic grains and subcortical tangles or atypical progressive supranuclear palsy? Ann Neurol 1991;29:389-396.

30 Tolnay M, Mistl C, Ipsen S, Probst A. Argyrophilic grains of Braak: occurrence in dendrites of neurons containing hyperphosphorylated tau protein. Neuropathol Appl Neurobiol 1998;24:53-59.

31 Tolnay M, Calhoun M, Pham HC, Egensperger R, Probst A. Low amyloid (Abeta) plaque load and relative predominance of diffuse plaques distinguish argyrophilic grain disease from Alzheimer's disease. Neuropathol Appl Neurobiol 1999;25:295-305.

32 Yamada T, McGeer PL, McGeer EG. Some immunohistochemical features of argyrophilic grain dementia with normal cortical choline acetyltransferase levels but extensive subcortical pathology and markedly reduced dopamine. J Geriatr Psychiatry Neurol 1992;5:3-13. ^- ³³33 Tolnay M, Spillantini MG, Goedert M, Ulrich J, Langui D, Probst A. Argyrophilic grain disease: widespread hyperphosphorylation of tau protein in limbic neurons. Acta Neuropathol 1997;93:477-484.

At any rate, AGD is virtually unknown to the clinical community because most cases do not present any known distinctive clinical symptoms.⁴4 Braak H, Braak E. Argyrophilic grain disease: frequency of occurrence in different age categories and neuropathological diagnostic criteria. J Neural transm 1998;105:801-819. ^, ⁵5 Jellinger KA. Dementia with grains (argyrophilic grain disease). Brain pathol 1998;8:377-386. ^, ⁹9 Tolnay M, Schwietert M, Monsch AU, Staehelin HB, Langui D, Probst A. Argyrophilic grain disease: distribution of grains in patients with and without dementia. Acta Neuropathol 1997;94:353-358. ^, ²⁶26 Ikeda K, Akiyama H, Kondo H, Haga C. A study of dementia with argyrophilic grains. Possible cytoskeletal abnormality in dendrospinal portion of neurons and oligodendroglia. Acta Neuropathol 1995;89:409-414.

27 Itagaki S, McGeer PL, Akiyama H, et al. A case of adult-onset dementia with argyrophilic grains. Ann Neurol 1989;26:685-689.

28 Martinez-Lage P, Munoz DG. Prevalence and disease associations of argyrophilic grains of Braak. J Neuropathol Exp Neurol 1997;56:157-164. ^- ²⁹29 Masliah E, Hansen LA, Quijada S, et al. Late onset dementia with argyrophilic grains and subcortical tangles or atypical progressive supranuclear palsy? Ann Neurol 1991;29:389-396. ^, ³¹31 Tolnay M, Calhoun M, Pham HC, Egensperger R, Probst A. Low amyloid (Abeta) plaque load and relative predominance of diffuse plaques distinguish argyrophilic grain disease from Alzheimer's disease. Neuropathol Appl Neurobiol 1999;25:295-305.

32 Yamada T, McGeer PL, McGeer EG. Some immunohistochemical features of argyrophilic grain dementia with normal cortical choline acetyltransferase levels but extensive subcortical pathology and markedly reduced dopamine. J Geriatr Psychiatry Neurol 1992;5:3-13.

33 Tolnay M, Spillantini MG, Goedert M, Ulrich J, Langui D, Probst A. Argyrophilic grain disease: widespread hyperphosphorylation of tau protein in limbic neurons. Acta Neuropathol 1997;93:477-484. ^- ³⁴34 Tolnay M, Probst A. Ballooned neurons expressing alphaB-crystallin as a constant feature of the amygdala in argyrophilic grain disease. Neurosci Lett 1998;246:165-168.

Clinical presentation. Clinicopathological studies failed to show a distinctive clinical or imaging phenotype associated with AGD, and currently, diagnosis is only possible through postmortem brain analysis.¹⁷17 Ferrer I, Barrachina M, Tolnay M, et al. Phosphorylated protein kinases associated with neuronal and glial tau deposits in argyrophilic grain disease. Brain Pathol 2003;13:62-78.

A very slowly progressive mild cognitive impairment (MCI) is the most common AGD manifestation.⁴4 Braak H, Braak E. Argyrophilic grain disease: frequency of occurrence in different age categories and neuropathological diagnostic criteria. J Neural transm 1998;105:801-819. ^, ¹³13 Josephs KA, Whitwell JL, Parisi JE, et al. Argyrophilic grains: a distinct disease or an additive pathology? Neurobiol Aging 2008;29:566-573. ^, ³⁶36 Saito Y, Murayama S. Neuropathology of mild cognitive impairment. Neuropathology 2007;27:578-584. Saito et al. in a study investigating pathological changes underlying MCI, investigated 545 serial autopsy cases from a general geriatric hospital. They found neurodegenerative pathology in 57% of MCI cases (19% AD and 18% AGD). The authors then extended the study to also include dementia cases and found AD in 45% and AGD in 18% of the cases. Their findings suggested that a higher relative frequency of beta-amyloid-independent tauopathies, such as AGD, in the MCI group is probably related to the more benign course of such diseases.³⁶36 Saito Y, Murayama S. Neuropathology of mild cognitive impairment. Neuropathology 2007;27:578-584.

Some studies have associated AGD with neuropsychiatric symptoms. AGD subjects present more personality changes and emotional imbalance preceding memory failure than age-matched controls.¹⁰10 Ishihara K, Araki S, Ihori N, et al. Argyrophilic grain disease presenting with frontotemporal dementia: a neuropsychological and pathological study of an autopsied case with presenile onset. Neuropathology 2005;25:165-170. ^, ¹³13 Josephs KA, Whitwell JL, Parisi JE, et al. Argyrophilic grains: a distinct disease or an additive pathology? Neurobiol Aging 2008;29:566-573. ^, ³⁷37 Asaoka T, Tsuchiya K, Fujishiro H, et al. Argyrophilic grain disease with delusions and hallucinations: a pathological study. Psychogeriatrics 2010;10:69-76.

38 Togo T, Isojima D, Akatsu H, et al. Clinical features of argyrophilic grain disease: a retrospective survey of cases with neuropsychiatric symptoms. Am J Geriatr Psychiatry 2005;13:1083-1091. ^- ³⁹39 Ikeda K, Akiyama H, Arai T, Matsushita M, Tsuchiya K, Miyazaki H. Clinical aspects of argyrophilic grain disease. Clin Neuropathol 2000;19: 278-284. There is evidences that at early and mild stages of the disease, emotional and personality changes are the dominant clinical features of AGD, reflecting the prominent involvement of the limbic system.⁶6 Saito Y, Ruberu NN, Sawabe M, et al. Staging of argyrophilic grains: an age-associated tauopathy. J Neuropathol Exp Neurol 2004;63:911-918. ^, ⁴⁰40 Tsuchiya K, Mitani K, Arai T, et al. Argyrophilic grain disease mimicking temporal Pick's disease: a clinical, radiological, and pathological study of an autopsy case with a clinical course of 15 years. Acta Neuropathol 2001;102:195-199. ^, ⁴¹41 Saito Y, Nakahara K, Yamanouchi H, Murayama S. Severe involvement of ambient gyrus in dementia with grains. J Neuropathol Exp Neurol 2002;61:789-796. Saito et al. reported that AGs are initially found in the temporo-amygdaloid junction, and that the distribution of AGs followed a stereotypic regional pattern of spread reflecting an antero-posterior gradient in putative AGD progression. A study comparing Parkinson's disease patients with and without AGD, and studies showing a high prevalence of AGD in individuals with late-onset schizophrenia and delusional disorders, corroborate the association of AGD with psychiatric symptoms.⁴²42 Grau-Rivera O, Gelpi E, Rey MJ, et al. Prominent psychiatric symptoms in patients with Parkinson's disease and concomitant argyrophilic grain disease. J Neurol 2013;260:3002-3009. ^, ⁴³43 Tatsumi S, Mimuro M, Iwasaki Y, et al. Argyrophilic grains are reliable disease-specific features of corticobasal degeneration. J Neuropathol Exp Neurol 2014;73:30-38. Asaoka et al. reported an AGD case exhibiting delusions and hallucinations at clinical presentation.³⁷37 Asaoka T, Tsuchiya K, Fujishiro H, et al. Argyrophilic grain disease with delusions and hallucinations: a pathological study. Psychogeriatrics 2010;10:69-76.

A few reports implicate AGD as the underlying condition in patients featuring clinical frontotemporal dementia. In such cases, AGD pathology is widespread in the brain, as opposed to the majority of AGD cases where involvement is restricted to limbic structures. Tsuchiya et al. reported an 89-year-old female featuring temporal frontotemporal dementia (previously known as Pick's disease), amnesia, wandering, personality changes characterized by unusual rude, stubborn and egocentric behavior.⁴⁰40 Tsuchiya K, Mitani K, Arai T, et al. Argyrophilic grain disease mimicking temporal Pick's disease: a clinical, radiological, and pathological study of an autopsy case with a clinical course of 15 years. Acta Neuropathol 2001;102:195-199. Maurage et al. reported two cases fulfilling revised criteria for possible behavioral-variant frontotemporal dementia (bvFTD): a 76-year-old female with cognitive impairment, obsession, apathy, carbohydrate craving; and a 79-year-old female with cognitive slowing, apathy, memory impairment, logorrhea and carbohydrate craving.⁴⁴44 Maurage CA, Sergeant N, Schraen-Maschke S, et al. Diffuse form of argyrophilic grain disease: a new variant of four-repeat tauopathy different from limbic argyrophilic grain disease. Acta Neuropathol 2003;106:575-583. ^, ⁴⁵45 Rascovsky K, Hodges JR, Knopman D, et al. Sensitivity of revised diagnostic criteria for the behavioural variant of frontotemporal dementia. Brain 2011;134:2456-2477. Finally, Ishihara et al. described a 54-year-old male presenting personality changes and abnormal stereotypical behavior, disinhibition and environment-dependent behavior characterizing bvFTD. All these cases presented overlapping mild Alzheimer-type pathology.¹⁰10 Ishihara K, Araki S, Ihori N, et al. Argyrophilic grain disease presenting with frontotemporal dementia: a neuropsychological and pathological study of an autopsied case with presenile onset. Neuropathology 2005;25:165-170.

AGD can also be present in patients without cognitive impairment. Knopman et al. showed AGD in 31% of a series of cognitively normal subjects.⁴⁶46 Knopman DS, Parisi JE, Salviati A, et al. Neuropathology of cognitively normal elderly. J Neuropathol Exp Neurol 2003;62:1087-1095. The anatomical substrate for cognitive impairment in AGD is unclear and studies have implicated the entorhinal cortex, hippocampus, temporal association cortex and amygdala.⁴⁷47 Ferrer I, Santpere G, van Leeuwen FW. Argyrophilic grain disease. Brain 2008;131:1416-1432. Tolnay et al. examined the limbic area in 19 demented patients with AGD and 16 non-demented patients with AGD. They demonstrated that the caudal part of hippocampal sector CA1 was found to be significantly more affected in demented AGD than in non-demented AGD. On the contrary, AG burden in rostral CA1 was similar in both demented and non-demented cases, suggesting that early subclinical lesions may begin in the anterior part of the hippocampal formation.⁹9 Tolnay M, Schwietert M, Monsch AU, Staehelin HB, Langui D, Probst A. Argyrophilic grain disease: distribution of grains in patients with and without dementia. Acta Neuropathol 1997;94:353-358. Recently, the severe degeneration of the ambient gyrus was associated with the development of dementia in AGD cases.⁴¹41 Saito Y, Nakahara K, Yamanouchi H, Murayama S. Severe involvement of ambient gyrus in dementia with grains. J Neuropathol Exp Neurol 2002;61:789-796.

Biochemical features. Tau is the major neuronal microtubule-associated protein (MAP) encoded by the microtubule-associated protein gene (MAPT). The tau gene is located at chromosome 17q21. In human adults, tau features six different isoforms due to alternative mRNA splicing of the exons 2, 3 and 10. The isoforms differ by the presence or absence of 29- or 58- aminoacid inserts in the N- terminal portion of the molecule or by the inclusion or otherwise of the 31 aminoacid repeat in the C- terminal part that is encoded by exon 10 of the MAPT. The inclusion of exon 10 generates an isoform with four microtubule-binding domains (4R), while the absence of this inclusion produces an isoform with three microtubule binding domains (3R). In the adult healthy brain, there is an equal proportion of 3R and 4R forms.⁴⁸48 Goedert M. Introduction to the tauopathies in Neurodegeneration: the molecular pathology of dementia and movement disorders. 2 ed: Editora Wiley-Blackwell; 2011.^,⁴⁹49 Spillantini MG, Goedert M. Tau pathology and neurodegeneration. Lancet Neurol 2013;12:609-622. AGD features predominant deposition of 4R-tau, as do progressive supranuclear palsy (PSP) and corticobasal degeneration (CBD), whereas AD is characterized by the simultaneous presence of both 3R and 4R tau proteins.⁴⁴44 Maurage CA, Sergeant N, Schraen-Maschke S, et al. Diffuse form of argyrophilic grain disease: a new variant of four-repeat tauopathy different from limbic argyrophilic grain disease. Acta Neuropathol 2003;106:575-583. ^, ⁵⁰50 Togo T, Sahara N, Yen SH, et al. Argyrophilic grain disease is a sporadic 4-repeat tauopathy. J Neuropathol Exp Neurol 2002;61:547-556.

Tau protein promotes assembly of and stabilizes microtubules, one of the major structural components of the axonal transport and neurotransmission machinery. Abnormal phosphorylation of tau decreases its binding capacity to tubulin, leading to microtubule disorganization with protein self-polymerization and aggregation. Tau phosphorylation is regulated by tau kinases, phosphatases and changes in its conformational state.⁴⁸48 Goedert M. Introduction to the tauopathies in Neurodegeneration: the molecular pathology of dementia and movement disorders. 2 ed: Editora Wiley-Blackwell; 2011. ^, ⁵¹51 Higuchi M T, Lee VMY Tau Protein And Tauopathy in Neuropsychopharmacology. 5 ed: Editora Lippincott, Williams e Wilkins; 2002. The mechanism by which tau protein becomes nonfunctional remains unknown, but abnormal posttranslational modifications other than phosphorylation may play an important role in this process.³⁵35 Adachi T, Saito Y, Hatsuta H, et al. Neuropathological asymmetry in argyrophilic grain disease. J Neuropathol Exp Neurol 2010;69:737-744. ^, ⁵²52 Clavaguera F, Grueninger F, Tolnay M. Intercellular transfer of tau aggregates and spreading of tau pathology: Implications for therapeutic strategies. Neuropharmacology 2014;76:9-15.Recent studies have shown that increased tau acetylation could impair tau interactions with microtubules and contribute to tau aggregation. Evidence suggests that tau acetylation affects its degradation by polyubiquitination inhibition.²²22 Grinberg LT, Wang X, Wang C, et al. Argyrophilic grain disease differs from other tauopathies by lacking tau acetylation. Acta Neuropathol 2013;125:581-593. ^, ³⁵35 Adachi T, Saito Y, Hatsuta H, et al. Neuropathological asymmetry in argyrophilic grain disease. J Neuropathol Exp Neurol 2010;69:737-744. ^, ⁵³53 Cohen TJ, Guo JL, Hurtado DE, et al. The acetylation of tau inhibits its function and promotes pathological tau aggregation. Nat Commun 2011;2:252. Grinberg et al. demonstrated that tau acetylation is not present in AGD unlike in other common and rare tauopathies such as AD, Pick's Disease, PSP, chronic traumatic encephalopathy and familial tauopathies. The lack of tau acetylation in AGD and the fact that hyperphosphorylation alone does not necessarily promote tau aggregation and cellular dysfunction suggest that AGD may be a protective mechanism against spread of other tauopathies rather than a harmful entity.²²22 Grinberg LT, Wang X, Wang C, et al. Argyrophilic grain disease differs from other tauopathies by lacking tau acetylation. Acta Neuropathol 2013;125:581-593.

Llieva et al. showed that the expression of apoptosis inducing factor, a multifunctional mitochondrial protein involved in oxidative stress and mitochondrial structure, is increased in both AGD and AD, but altered expression of components of the respiratory chain markers modulating mitochondrial biogenesis was selectively affected in AGD.¹⁶16 Ilieva EV, Kichev A, Naudi A, Ferrer I, Pamplona R, Portero-Otin M. Mitochondrial dysfunction and oxidative and endoplasmic reticulum stress in argyrophilic grain disease. J Neuropathol Exp Neurol. 2011;70:253-263.

Neuropathological features. Macroscopically, AGD brains may be unchanged or only mildly atrophic, not differing from age-matched controls.⁴4 Braak H, Braak E. Argyrophilic grain disease: frequency of occurrence in different age categories and neuropathological diagnostic criteria. J Neural transm 1998;105:801-819.^,⁵5 Jellinger KA. Dementia with grains (argyrophilic grain disease). Brain pathol 1998;8:377-386. Tolnay et al. only found mild temporal lobe atrophy in a few of their 41 AGD cases.⁹9 Tolnay M, Schwietert M, Monsch AU, Staehelin HB, Langui D, Probst A. Argyrophilic grain disease: distribution of grains in patients with and without dementia. Acta Neuropathol 1997;94:353-358.

Microscopically, AGD is characterized by three main pathologic features: [1] AGs, the pathologic hallmark lesion; [2] oligodendrocytic inclusions called coiled bodies, and [3] neuronal intracytoplasmic tau-positive granular inclusions called pretangles. Associated pathologic lesions include balloon neurons and bush-like astrocytes.⁸8 Tolnay M, Clavaguera F. Argyrophilic grain disease: a late-onset dementia with distinctive features among tauopathies. Neuropathology 2004;24:269-283. ^, ¹⁹19 Botez G, Probst A, Ipsen S, Tolnay M. Astrocytes expressing hyperphosphorylated tau protein without glial fibrillary tangles in argyrophilic grain disease. Acta Neuropathol 1999;98:251-256. ^, ⁴⁷47 Ferrer I, Santpere G, van Leeuwen FW. Argyrophilic grain disease. Brain 2008;131:1416-1432. ^, ⁵⁰50 Togo T, Sahara N, Yen SH, et al. Argyrophilic grain disease is a sporadic 4-repeat tauopathy. J Neuropathol Exp Neurol 2002;61:547-556. ^, ⁵⁴54 Togo T, Dickson DW. Ballooned neurons in progressive supranuclear palsy are usually due to concurrent argyrophilic grain disease. Acta Neuropathol 2002;104:53-56. Although coiled bodies and pretangles are not exclusive to AGD, they are positive for acetylated tau in all other tauopathies, yet not in AGD.²²22 Grinberg LT, Wang X, Wang C, et al. Argyrophilic grain disease differs from other tauopathies by lacking tau acetylation. Acta Neuropathol 2013;125:581-593.

Argyrophilic grains: small spindle- or comma- shap ed structures found within neuronal processes mainly in the dendrites and dendritic spines (Figure 1).¹²12 Braak H, Braak E. Argyrophilic grains: characteristic pathology of cerebral cortex in cases of adult onset dementia without Alzheimer changes. Neurosci Lett 1987;76:124-127.^,²⁶26 Ikeda K, Akiyama H, Kondo H, Haga C. A study of dementia with argyrophilic grains. Possible cytoskeletal abnormality in dendrospinal portion of neurons and oligodendroglia. Acta Neuropathol 1995;89:409-414.^,³⁰30 Tolnay M, Mistl C, Ipsen S, Probst A. Argyrophilic grains of Braak: occurrence in dendrites of neurons containing hyperphosphorylated tau protein. Neuropathol Appl Neurobiol 1998;24:53-59.^,⁴⁷47 Ferrer I, Santpere G, van Leeuwen FW. Argyrophilic grain disease. Brain 2008;131:1416-1432. AGs predominates in layers II and III of cerebral cortex.¹²12 Braak H, Braak E. Argyrophilic grains: characteristic pathology of cerebral cortex in cases of adult onset dementia without Alzheimer changes. Neurosci Lett 1987;76:124-127. They exhibit a typical distribution pattern, more abundant within the limbic system, mainly in the CA1 sector of the hippocampus, subiculum, entorhinal and transentorhinal cortex, and adjacent temporal isocortex.⁵5 Jellinger KA. Dementia with grains (argyrophilic grain disease). Brain pathol 1998;8:377-386. ^, ⁴¹41 Saito Y, Nakahara K, Yamanouchi H, Murayama S. Severe involvement of ambient gyrus in dementia with grains. J Neuropathol Exp Neurol 2002;61:789-796. The amygdala and hypothalamic lateral nucleus are the most severely affected subcortical structures.⁵5 Jellinger KA. Dementia with grains (argyrophilic grain disease). Brain pathol 1998;8:377-386. ^, ²⁵25 Braak H, Braak E. Cortical and subcortical argyrophilic grains characterize a disease associated with adult onset dementia. Neuropathol Appl Neurobiol 1989;15:13-26. The size of AGs apparently increases with advancing stage, although areas with severe neuronal loss became devoid of AGs.⁴¹41 Saito Y, Nakahara K, Yamanouchi H, Murayama S. Severe involvement of ambient gyrus in dementia with grains. J Neuropathol Exp Neurol 2002;61:789-796.

Figure 1.
Tau pathological features in an AGD case immunostained with PHF-1 antibody. [A] Grains in the CA1 subfield of the hippocampus; [B] Pretangles with perinuclear halo in the CA2 subfield of the hippocampus; [C] Coiled-body in the CA1 subfield of the hippocampus; [D] Balloon neuron in amygdala (arrow); [E] Bush-like astrocyte in amygdala; [F] Prominent involvement of CA2 subfield of the hippocampus with sparing of the CA1 subfield. Scale bars represent 50 µm in A, D, E; 20 µm in B,C and 200 µm in F.

AGs are not immunoreactive for antibody 12E8, against phosphorylated-tau at Ser 262/356, suggesting that different phosphorylation at this site is a late event occurring only in compact neurofibrillary lesions.⁵⁵55 Seubert P, Mawal-Dewan M, Barbour R, et al. Detection of phosphorylated Ser262 in fetal tau, adult tau, and paired helical filament tau. J Biol Chem 1995;270:18917-18922.

Coiled bodies: oligodendrocytic inclusions are largely restricted to the white matter underlying the limbic cortex (Figure 1). These lesions are present in other 4R tauopathies such as PSP and CBD, but have a different anatomic distribution.⁵⁰50 Togo T, Sahara N, Yen SH, et al. Argyrophilic grain disease is a sporadic 4-repeat tauopathy. J Neuropathol Exp Neurol 2002;61:547-556.

Pretangles: these neuronal cytoplasmic tau-positive inclusions are Gallyas and ubiquitin-negative (Figure 1). Although they are distributed similarly to AGs,⁸8 Tolnay M, Clavaguera F. Argyrophilic grain disease: a late-onset dementia with distinctive features among tauopathies. Neuropathology 2004;24:269-283.^,¹⁸18 Miserez AR, Clavaguera F, Monsch AU, Probst A, Tolnay M. Argyrophilic grain disease: molecular genetic difference to other four-repeat tauopathies. Acta Neuropathol 2003;106:363-366. their presence is ubiquitous in the CA2 sector of the hippocampus, a region extremely resistant to AD-type changes.⁹9 Tolnay M, Schwietert M, Monsch AU, Staehelin HB, Langui D, Probst A. Argyrophilic grain disease: distribution of grains in patients with and without dementia. Acta Neuropathol 1997;94:353-358. ^, ³⁰30 Tolnay M, Mistl C, Ipsen S, Probst A. Argyrophilic grains of Braak: occurrence in dendrites of neurons containing hyperphosphorylated tau protein. Neuropathol Appl Neurobiol 1998;24:53-59.

Balloon neurons: are characterized by swelling of the perikarya and loss of Nissl substance of pyramidal neurons. They are found in the brains of different neurodegenerative disorders, but not in normal brains (Figure 1). In AGD, balloon neurons are more frequent in the amygdala and do not correlate with the density of AGs or the severity of associated lesions.³⁴34 Tolnay M, Probst A. Ballooned neurons expressing alphaB-crystallin as a constant feature of the amygdala in argyrophilic grain disease. Neurosci Lett 1998;246:165-168.^,⁵⁴54 Togo T, Dickson DW. Ballooned neurons in progressive supranuclear palsy are usually due to concurrent argyrophilic grain disease. Acta Neuropathol 2002;104:53-56.^,⁵⁶56 Ramirez RR CI, Fumadó J. Demencias Degenerativas infrequentes in Enfermedad de Alzheimer y otras demencias. 4 ed 2011.

Bush-like astrocytes: seen in the amygdala and anterior entorhinal cortex of AGD cases (Figure 1). Despite being positive for hyperphosphorylated-tau, they do not display fibrils as evidenced by the absence of Gallyas positive staining.¹⁹19 Botez G, Probst A, Ipsen S, Tolnay M. Astrocytes expressing hyperphosphorylated tau protein without glial fibrillary tangles in argyrophilic grain disease. Acta Neuropathol 1999;98:251-256. In addition, they are not a prominent feature of AGD.⁴⁷47 Ferrer I, Santpere G, van Leeuwen FW. Argyrophilic grain disease. Brain 2008;131:1416-1432. ^, ⁵⁰50 Togo T, Sahara N, Yen SH, et al. Argyrophilic grain disease is a sporadic 4-repeat tauopathy. J Neuropathol Exp Neurol 2002;61:547-556. ^, ⁵⁷57 Probst A, Tolnay M. [Argyrophilic grain disease (AgD), a frequent and largely underestimated cause of dementia in old patients]. Rev Neurol (Paris) 2002;158:155-165. Botez et al. suggest that, together with other features, the presence of bush-like astrocytes may help to differentiate AGD from AD.¹⁹19 Botez G, Probst A, Ipsen S, Tolnay M. Astrocytes expressing hyperphosphorylated tau protein without glial fibrillary tangles in argyrophilic grain disease. Acta Neuropathol 1999;98:251-256.

Two different staging systems are available for staging AGD. Saito et al. suggest a 3-point system taking into consideration AGs, balloon neurons, bush-like astrocytes and coiled-bodies.⁶6 Saito Y, Ruberu NN, Sawabe M, et al. Staging of argyrophilic grains: an age-associated tauopathy. J Neuropathol Exp Neurol 2004;63:911-918. The earliest changes are evident in the ambiens gyrus, followed by the anterior and posterior medial temporal lobe, and finally the septal area, anterior cingulate gyrus and insular cortex in later stages. Ferrer et al. propose a 4-point scale system considering AG distribution only. Involvement of anterior entorhinal cortex, basolateral nuclei of amygdala and hypothalamic lateral tuberal nucleus represent early stages while neocortex and brainstem become involved in the last stage.⁴⁷47 Ferrer I, Santpere G, van Leeuwen FW. Argyrophilic grain disease. Brain 2008;131:1416-1432.

Thal et al. studied the pattern of alterations in temporo-entorhinal association neurons in seven brains (two with mild AD-related pathology without cognitive impairment, one severe AD-related pathology without cognitive impairment, one demented AD, and three AGD cases with dementia) using the postmortem Dil tracing technique. They showed a disconnection of association fibers between the entorhinal and the adjacent temporal neocortices in the AD case and in one non-demented case with severe AD- related pathology. By contrast, all the AGD cases with cognitive impairment lacked obvious disconnection between the entorhinal and the temporal neocortices. However, the AGD cases displayed dendritic tree abnormalities when compared to the non-demented AD-related pathology and to the non-demented case with severe AD- related pathology. These findings suggest differences in the pattern of neurodegeneration between AGD and AD. Dementia in AD may be related to major anatomical disconnection, whereas dementia in AGD may be related to dendritic degeneration with preserved axonal connections.²³23 Thal DR, Capetillo-Zarate E, Galuske RA. Tracing of temporo-entorhinal connections in the human brain: cognitively impaired argyrophilic grain disease cases show dendritic alterations but no axonal disconnection of temporo-entorhinal association neurons. Acta Neuropathol 2008;115:175-183. ^, ⁵⁸58 Hof PR, Bouras C, Constantinidis J, Morrison JH. Selective disconnection of specific visual association pathways in cases of Alzheimer's disease presenting with Balint's syndrome. J Neuropathol Exp Neurol 1990;49:168-184.

Other pathological changes: One study suggests prominent superficial laminar spongiosis in cortical areas rich in AGs, a finding not confirmed in our observations.⁸8 Tolnay M, Clavaguera F. Argyrophilic grain disease: a late-onset dementia with distinctive features among tauopathies. Neuropathology 2004;24:269-283.

Because of the high overlap between AD-type pathology and AGD, some advocate that the latter is part of the AD spectrum. However, fundamental differences can be noted between these two entities. [1] the AG spread pattern does not fit under the neurofibrillary staging system.⁵⁹59 Braak H, Braak E. Neuropathological stageing of Alzheimer-related changes. Acta Neuropathol 1991;82:239-259. Davis et al. found an age-associated increase of AGD in a study involving 20 AGD cases and controls. They found no association between AGs and AD-type neurofibrillary tangles or neuropil threads in the CA1 sector of the hippocampus. Finally, the number of neurofibrillary tangles and neuropil threads in AGD did not differ across the cognitive decline spectrum;⁶⁰60 Davis D, Ross GW, Petrovitch H, et al. Quantification of argyrophilic grains in hippocampal CA-1 of aged Japonese- American men. J Neuropathol Exp Neurol 1997;56:587. [2] Unlike in AD, the hippocampal sector CA2 and dentate gyrus are very vulnerable to AGD (Figure 1). Likewise, the hypothalamus shows a different vulnerability pattern to AGD with early and prominent involvement of lateral tuberal nuclei and relative resistance of tuberomammillary nuclei. In AD, the tuberomammillary nuclei are severely affected by neurofibrillary tangles.⁶¹61 Schultz C, Koppers D, Sassin I, Braak E, Braak H. Cytoskeletal alterations in the human tuberal hypothalamus related to argyrophilic grain disease. Acta Neuropathol 1998;9:596-602. ^, ⁶²62 Ishizawa T, Ko LW, Cookson N, Davias P, Espinoza M, Dickson DW. Selective neurofibrillary degeneration of the hippocampal CA2 sector is associated with four-repeat tauopathies. J Neuropathol Exp Neurol 2002;61:1040-1047. The profile of Aβ deposition in AGD resembles that of cognitively normal elderly rather than of AD.³¹31 Tolnay M, Calhoun M, Pham HC, Egensperger R, Probst A. Low amyloid (Abeta) plaque load and relative predominance of diffuse plaques distinguish argyrophilic grain disease from Alzheimer's disease. Neuropathol Appl Neurobiol 1999;25:295-305.

Associated neurodegenerative diseases. AGs may resemble neuropil threads cut transversally, hampering diagnosis of AGD in patients harboring moderate-to-severe AD pathology.²⁴24 Braak H, Braak E. Neuropathological stageing of Alzheimer-related changes. Acta Neuropathol 1991;82:239-259.^,²⁸28 Martinez-Lage P, Munoz DG. Prevalence and disease associations of argyrophilic grains of Braak. J Neuropathol Exp Neurol 1997;56:157-164. Braak and Braak, in a series of 2661 unselected autopsies of subjects aged 27 to 96 years, observed 125 cases of AGD as compared to 146 cases of AD stage V to VI. Most of the cases with AGD and severe progressive dementia showed only mild concomitant AD pathology corresponding to Braak stages I to III and only 12.5 % showed Braak stage V.⁴4 Braak H, Braak E. Argyrophilic grain disease: frequency of occurrence in different age categories and neuropathological diagnostic criteria. J Neural transm 1998;105:801-819. The lower prevalence of AGD in AD cases with severe neurofibrillary pathology may reflect difficulties in distinguishing the lesions.

Several studies have shown the association of AGD with other neurodegenerative diseases, including AD, Pick's Disease, tangle-only dementia, Creutzeldt-Jacob disease, Parkinson's Disease, Dementia with Lewy body, amyotrophic lateral sclerosis, PSP, and CBD.⁴4 Braak H, Braak E. Argyrophilic grain disease: frequency of occurrence in different age categories and neuropathological diagnostic criteria. J Neural transm 1998;105:801-819. ^, ⁵5 Jellinger KA. Dementia with grains (argyrophilic grain disease). Brain pathol 1998;8:377-386. ^, ²⁶26 Ikeda K, Akiyama H, Kondo H, Haga C. A study of dementia with argyrophilic grains. Possible cytoskeletal abnormality in dendrospinal portion of neurons and oligodendroglia. Acta Neuropathol 1995;89:409-414. ^, ²⁸28 Martinez-Lage P, Munoz DG. Prevalence and disease associations of argyrophilic grains of Braak. J Neuropathol Exp Neurol 1997;56:157-164. ^, ⁴³43 Tatsumi S, Mimuro M, Iwasaki Y, et al. Argyrophilic grains are reliable disease-specific features of corticobasal degeneration. J Neuropathol Exp Neurol 2014;73:30-38. ^, ⁴⁷47 Ferrer I, Santpere G, van Leeuwen FW. Argyrophilic grain disease. Brain 2008;131:1416-1432. ^, ⁶³63 Yokota O, Tsuchiya K, Noguchi Y, et al. Coexistence of amyotrophic lateral sclerosis and argyrophilic grain disease: a non-demented autopsy case showing circumscribed temporal atrophy and involvement of the amygdala. Neuropathology 2007;27:539-550. AGD prevalence in these cases is apparently higher than expected for age-matched individuals. For instance, AGD is frequently observed in CBD (57.7% versus 30-40% age-matched subjects) and PSP cases.⁶6 Saito Y, Ruberu NN, Sawabe M, et al. Staging of argyrophilic grains: an age-associated tauopathy. J Neuropathol Exp Neurol 2004;63:911-918. ^, ⁷7 Ding ZT, Wang Y, Jiang YP, et al. Argyrophilic grain disease: frequency and neuropathology in centenarians. Acta Neuropathologica 2006;111: 320-328. ^, ²⁸28 Martinez-Lage P, Munoz DG. Prevalence and disease associations of argyrophilic grains of Braak. J Neuropathol Exp Neurol 1997;56:157-164. ^, ⁴⁶46 Knopman DS, Parisi JE, Salviati A, et al. Neuropathology of cognitively normal elderly. J Neuropathol Exp Neurol 2003;62:1087-1095. ^, ⁶⁴64 Togo T, Cookson N, Dickson DW. Argyrophilic grain disease: neuropathology, frequency in a dementia brain bank and lack of relationship with apolipoprotein E. Brain Pathol 2002;12:45-52. These findings suggest that AGD shares common genetic or pathogenic features with PSP and CBD. Along the same lines, Tatsumi et al. described a frequency of 100% AGs in CBD cases.⁴³43 Tatsumi S, Mimuro M, Iwasaki Y, et al. Argyrophilic grains are reliable disease-specific features of corticobasal degeneration. J Neuropathol Exp Neurol 2014;73:30-38. Despite the high frequency of AG in PSP and CBD cases, a high prevalence of PSP and CBD pathology has not been observed in primary AGD cases, even in large cohorts.⁴4 Braak H, Braak E. Argyrophilic grain disease: frequency of occurrence in different age categories and neuropathological diagnostic criteria. J Neural transm 1998;105:801-819. ^, ⁵⁷57 Probst A, Tolnay M. [Argyrophilic grain disease (AgD), a frequent and largely underestimated cause of dementia in old patients]. Rev Neurol (Paris) 2002;158:155-165.

Recent studies have shown a high prevalence (40-60%) of hyperphosphorylated transactive response DNA-binding protein with 43kD (TPD-43) in AGD cases, mainly in the limbic system.⁶⁵65 Fujishiro H, Uchikado H, Arai T, et al. Accumulation of phosphorylated TDP-43 in brains of patients with argyrophilic grain disease. Acta Neuropathol 2009;117:151-158. ^, ⁶⁶66 Arnold SJ, Dugger BN, Beach TG. TDP-43 deposition in prospectively followed, cognitively normal elderly individuals: correlation with argyrophilic grains but not other concomitant pathologies. Acta Neuropathol 2013;126:51-57.The clinical significance of TDP-43 pathology in the brains of patients with various neurodegenerative disorders remains uncertain.⁶⁷67 Amador-Ortiz C, Lin WL, Ahmed Z, et al. TDP-43 immunoreactivity in hippocampal sclerosis and Alzheimer's disease. Ann Neurol 2007;61: 435-445.

68 Arai T, Mackenzie IR, Hasegawa M, et al. Phosphorylated TDP-43 in Alzheimer's disease and dementia with Lewy bodies. Acta Neuropathol 2009;117:125-136.

69 Nakashima-Yasuda H, Uryu K, Robinson J, et al. Co-morbidity of TDP-43 proteinopathy in Lewy body related diseases. Acta neuropathologica. 2007;114:221-229.

70 Uryu K, Nakashima-Yasuda H, Forman MS, et al. Concomitant TAR-DNA-binding protein 43 pathology is present in Alzheimer disease and corticobasal degeneration but not in other tauopathies. J Neuropathol Exp Neurol 2008;67:555-564. ^- ⁷¹71 Schwab C, Arai T, Hasegawa M, Yu S, McGeer PL. Colocalization of transactivation-responsive DNA-binding protein 43 and huntingtin in inclusions of Huntington disease. J Neuropathol Exp Neurol 2008;67: 1159-1165.

Genetics. AGD is a predominantly sporadic disease. Recent studies described two MAPT mutations causing pathological features consistent with AGD.²⁰20 Kovacs GG, Pittman A, Revesz T, et al. MAPT S305I mutation: implications for argyrophilic grain disease. Acta Neuropathol 2008;116:103-118.^,⁷²72 Ronnback A, Nennesmo I, Tuominen H, Grueninger F, Viitanen M, Graff C. Neuropathological characterization of two siblings carrying the MAPT S305S mutation demonstrates features resembling argyrophilic grain disease. Acta Neuropathol 2014;127:297-298. A study published in 2008 demonstrated MAPT S305I mutation in a case with neuropathological diagnosis of AGD, while the most recent report described S305S mutation in a Scandinavian family where two siblings had neuropathological features resembling AGD. These reports describe common clinical features of early memory problems and behavioral changes. However, the S305S mutation was also associated with frontotemporal dementia with parkinsonism and PSP in previous studies.⁷³73 Skoglund L, Viitanen M, Kalimo H, et al. The tau S305S mutation causes frontotemporal dementia with parkinsonism. Eur J Neurol 2008; 15:156-161. Villela et al., in a study investigating DNA copy number variations (CNV) in 28 AGD cases, identified rare constitutive CNVs in these individuals. This finding suggested a CNV at 17p13.2 as a strong candidate for causing AGD.⁷⁴74 Villela D, Kimura L, Schlesinger D, et al. Germline DNA copy number variation in individuals with Argyrophilic grain disease reveals CTNS as a plausible candidate gene. Genet Mol Biol 2013;36:498-501. Studies have demonstrated the role of CNV in the etiology of several neuropsychiatric disorders.⁷⁵75 Cook EH Jr., Scherer SW. Copy-number variations associated with neuropsychiatric conditions. Nature 2008;455:919-923. Unlike other 4R tauopathies such as PSP and CBD, there are controversies over the relationship of the tau H1 haplotype with positive and negative results.¹⁸18 Miserez AR, Clavaguera F, Monsch AU, Probst A, Tolnay M. Argyrophilic grain disease: molecular genetic difference to other four-repeat tauopathies. Acta Neuropathol 2003;106:363-366. ^, ⁵⁰50 Togo T, Sahara N, Yen SH, et al. Argyrophilic grain disease is a sporadic 4-repeat tauopathy. J Neuropathol Exp Neurol 2002;61:547-556.

The apolipoprotein E (APOE) ε2 allele was associated with increased risk of AGD in one study, but further studies failed to confirm this relationship.⁶⁴64 Togo T, Cookson N, Dickson DW. Argyrophilic grain disease: neuropathology, frequency in a dementia brain bank and lack of relationship with apolipoprotein E. Brain Pathol 2002;12:45-52. ^, ⁷⁶76 Ghebremedhin E, Schultz C, Botez G, et al. Argyrophilic grain disease is associated with apolipoprotein E epsilon 2 allele. Acta Neuropathol 1998;96:222-224.

AGD spread in experimental models. The progressive aggregation of a particular protein in a stereotypical pattern is a common characteristic of all neurodegenerative disorders. Recent studies showed that a group of proteins, including abnormal tau protein, can trigger self-propagation in a prion-like fashion. These proteins share with prions the molecular properties of nucleation, templating, growth, multiplication and spread.⁷⁷77 Jucker M, Walker LC. Self-propagation of pathogenic protein aggregates in neurodegenerative diseases. Nature 2013;501:45-51.

Clavaguera et al. showed that intracerebral injection of brain extracts containing aggregated tau, including AGD, induces tauopathy in tau-transgenic host mice, and the induced tau lesions propagate systematically from the injection site to axonally connected areas suggesting neuronal uptake, transport and release of tau seeds. However, these mice did not show signs of neurodegeneration, suggesting that the molecular species responsible for propagation and neurotoxicity could be different.⁷⁸78 Clavaguera F, Akatsu H, Fraser G, et al. Brain homogenates from human tauopathies induce tau inclusions in mouse brain. Proc Natl Acad Sci U S A 2013;110(23):9535-40.

Ahmed et al. hypothesized that the spread of tau protein aggregates depends on synaptic connectivity rather than spatial proximity.⁷⁹79 Ahmed Z, Cooper J, Murray TK, et al. A novel in vivo model of tau propagation with rapid and progressive neurofibrillary tangle pathology: the pattern of spread is determined by connectivity, not proximity. Acta Neuropathol 2014;127:667-683. Additionally, in vitro studies showed that the intracellular entry of tau filaments occurs through endocytosis.⁸⁰80 Frost B, Jacks RL, Diamond MI. Propagation of tau misfolding from the outside to the inside of a cell. J Biol Chem 2009;284:12845-12852. ^, ⁸¹81 Guo JL, Lee VM. Seeding of normal Tau by pathological Tau conformers drives pathogenesis of Alzheimer-like tangles. J Biol Chem 2011; 286:15317-15331.

In a recent study, Dujardin et al. demonstrated a differential tau spread between wild-type and mutant mice suggesting distinct mechanism for genetic and sporadic forms of tauopathies.⁸²82 Dujardin S, Lecolle K, Caillierez R, et al. Neuron-to-neuron wild-type Tau protein transfer through a trans-synaptic mechanism: relevance to sporadic tauopathies. Acta Neuropathol Commun 2014;2:14. Sanders et. al also demonstrated spread of abnormal tau in cell cultures exposed to homogenates of human brains with AGD.⁸³83 Sanders DW, Kaufman SK, DeVos SL, et al. Distinct Tau Prion Strains Propagate in Cells and Mice and Define Different Tauopathies. Neuron 2014;82:1271-1288.

Conclusion. Clinicopathological studies have recognized AGD as a distinctive and highly frequent neurodegenerative disease. Aging is a well-established risk factor for AGD. To date, AGD diagnosis has been exclusively postmortem. The most typical clinical phenotype associated to AGD is slowly progressive mild cognitive impairment with a high frequency of neuropsychiatric symptoms that sometimes might precede the cognitive component. Early and prominent involvement of the limbic system could explain the presence of neuropsychiatric symptoms.

The reasons why AGD does not develop with prominent clinical features have yet to be clarified. Recent evidence of lack of tau acetylation in AGD suggest a protective role of this entity against spread of other neurodegenerative conditions, particularly Alzheimer's disease and is a hypothesis currently being investigated.

Acknowledgements. The authors acknowledge brain donors and their relatives for generous brain donation to the Brazilian Brain Bank. We also thank all the Brazilian Brain Bank group. LTG is funded by NIH R01AG031317, P50 AG023501-06 and P01AG019724; RDR is supported by FAPESP PhD fellowship (2012/07526-5) and CAPES (99999.012331/2013-09).

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³¹
Tolnay M, Calhoun M, Pham HC, Egensperger R, Probst A. Low amyloid (Abeta) plaque load and relative predominance of diffuse plaques distinguish argyrophilic grain disease from Alzheimer's disease. Neuropathol Appl Neurobiol 1999;25:295-305.
³²
Yamada T, McGeer PL, McGeer EG. Some immunohistochemical features of argyrophilic grain dementia with normal cortical choline acetyltransferase levels but extensive subcortical pathology and markedly reduced dopamine. J Geriatr Psychiatry Neurol 1992;5:3-13.
³³
Tolnay M, Spillantini MG, Goedert M, Ulrich J, Langui D, Probst A. Argyrophilic grain disease: widespread hyperphosphorylation of tau protein in limbic neurons. Acta Neuropathol 1997;93:477-484.
³⁴
Tolnay M, Probst A. Ballooned neurons expressing alphaB-crystallin as a constant feature of the amygdala in argyrophilic grain disease. Neurosci Lett 1998;246:165-168.
³⁵
Adachi T, Saito Y, Hatsuta H, et al. Neuropathological asymmetry in argyrophilic grain disease. J Neuropathol Exp Neurol 2010;69:737-744.
³⁶
Saito Y, Murayama S. Neuropathology of mild cognitive impairment. Neuropathology 2007;27:578-584.
³⁷
Asaoka T, Tsuchiya K, Fujishiro H, et al. Argyrophilic grain disease with delusions and hallucinations: a pathological study. Psychogeriatrics 2010;10:69-76.
³⁸
Togo T, Isojima D, Akatsu H, et al. Clinical features of argyrophilic grain disease: a retrospective survey of cases with neuropsychiatric symptoms. Am J Geriatr Psychiatry 2005;13:1083-1091.
³⁹
Ikeda K, Akiyama H, Arai T, Matsushita M, Tsuchiya K, Miyazaki H. Clinical aspects of argyrophilic grain disease. Clin Neuropathol 2000;19: 278-284.
⁴⁰
Tsuchiya K, Mitani K, Arai T, et al. Argyrophilic grain disease mimicking temporal Pick's disease: a clinical, radiological, and pathological study of an autopsy case with a clinical course of 15 years. Acta Neuropathol 2001;102:195-199.
⁴¹
Saito Y, Nakahara K, Yamanouchi H, Murayama S. Severe involvement of ambient gyrus in dementia with grains. J Neuropathol Exp Neurol 2002;61:789-796.
⁴²
Grau-Rivera O, Gelpi E, Rey MJ, et al. Prominent psychiatric symptoms in patients with Parkinson's disease and concomitant argyrophilic grain disease. J Neurol 2013;260:3002-3009.
⁴³
Tatsumi S, Mimuro M, Iwasaki Y, et al. Argyrophilic grains are reliable disease-specific features of corticobasal degeneration. J Neuropathol Exp Neurol 2014;73:30-38.
⁴⁴
Maurage CA, Sergeant N, Schraen-Maschke S, et al. Diffuse form of argyrophilic grain disease: a new variant of four-repeat tauopathy different from limbic argyrophilic grain disease. Acta Neuropathol 2003;106:575-583.
⁴⁵
Rascovsky K, Hodges JR, Knopman D, et al. Sensitivity of revised diagnostic criteria for the behavioural variant of frontotemporal dementia. Brain 2011;134:2456-2477.
⁴⁶
Knopman DS, Parisi JE, Salviati A, et al. Neuropathology of cognitively normal elderly. J Neuropathol Exp Neurol 2003;62:1087-1095.
⁴⁷
Ferrer I, Santpere G, van Leeuwen FW. Argyrophilic grain disease. Brain 2008;131:1416-1432.
⁴⁸
Goedert M. Introduction to the tauopathies in Neurodegeneration: the molecular pathology of dementia and movement disorders. 2 ed: Editora Wiley-Blackwell; 2011.
⁴⁹
Spillantini MG, Goedert M. Tau pathology and neurodegeneration. Lancet Neurol 2013;12:609-622.
⁵⁰
Togo T, Sahara N, Yen SH, et al. Argyrophilic grain disease is a sporadic 4-repeat tauopathy. J Neuropathol Exp Neurol 2002;61:547-556.
⁵¹
Higuchi M T, Lee VMY Tau Protein And Tauopathy in Neuropsychopharmacology. 5 ed: Editora Lippincott, Williams e Wilkins; 2002.
⁵²
Clavaguera F, Grueninger F, Tolnay M. Intercellular transfer of tau aggregates and spreading of tau pathology: Implications for therapeutic strategies. Neuropharmacology 2014;76:9-15.
⁵³
Cohen TJ, Guo JL, Hurtado DE, et al. The acetylation of tau inhibits its function and promotes pathological tau aggregation. Nat Commun 2011;2:252.
⁵⁴
Togo T, Dickson DW. Ballooned neurons in progressive supranuclear palsy are usually due to concurrent argyrophilic grain disease. Acta Neuropathol 2002;104:53-56.
⁵⁵
Seubert P, Mawal-Dewan M, Barbour R, et al. Detection of phosphorylated Ser262 in fetal tau, adult tau, and paired helical filament tau. J Biol Chem 1995;270:18917-18922.
⁵⁶
Ramirez RR CI, Fumadó J. Demencias Degenerativas infrequentes in Enfermedad de Alzheimer y otras demencias. 4 ed 2011.
⁵⁷
Probst A, Tolnay M. [Argyrophilic grain disease (AgD), a frequent and largely underestimated cause of dementia in old patients]. Rev Neurol (Paris) 2002;158:155-165.
⁵⁸
Hof PR, Bouras C, Constantinidis J, Morrison JH. Selective disconnection of specific visual association pathways in cases of Alzheimer's disease presenting with Balint's syndrome. J Neuropathol Exp Neurol 1990;49:168-184.
⁵⁹
Braak H, Braak E. Neuropathological stageing of Alzheimer-related changes. Acta Neuropathol 1991;82:239-259.
⁶⁰
Davis D, Ross GW, Petrovitch H, et al. Quantification of argyrophilic grains in hippocampal CA-1 of aged Japonese- American men. J Neuropathol Exp Neurol 1997;56:587.
⁶¹
Schultz C, Koppers D, Sassin I, Braak E, Braak H. Cytoskeletal alterations in the human tuberal hypothalamus related to argyrophilic grain disease. Acta Neuropathol 1998;9:596-602.
⁶²
Ishizawa T, Ko LW, Cookson N, Davias P, Espinoza M, Dickson DW. Selective neurofibrillary degeneration of the hippocampal CA2 sector is associated with four-repeat tauopathies. J Neuropathol Exp Neurol 2002;61:1040-1047.
⁶³
Yokota O, Tsuchiya K, Noguchi Y, et al. Coexistence of amyotrophic lateral sclerosis and argyrophilic grain disease: a non-demented autopsy case showing circumscribed temporal atrophy and involvement of the amygdala. Neuropathology 2007;27:539-550.
⁶⁴
Togo T, Cookson N, Dickson DW. Argyrophilic grain disease: neuropathology, frequency in a dementia brain bank and lack of relationship with apolipoprotein E. Brain Pathol 2002;12:45-52.
⁶⁵
Fujishiro H, Uchikado H, Arai T, et al. Accumulation of phosphorylated TDP-43 in brains of patients with argyrophilic grain disease. Acta Neuropathol 2009;117:151-158.
⁶⁶
Arnold SJ, Dugger BN, Beach TG. TDP-43 deposition in prospectively followed, cognitively normal elderly individuals: correlation with argyrophilic grains but not other concomitant pathologies. Acta Neuropathol 2013;126:51-57.
⁶⁷
Amador-Ortiz C, Lin WL, Ahmed Z, et al. TDP-43 immunoreactivity in hippocampal sclerosis and Alzheimer's disease. Ann Neurol 2007;61: 435-445.
⁶⁸
Arai T, Mackenzie IR, Hasegawa M, et al. Phosphorylated TDP-43 in Alzheimer's disease and dementia with Lewy bodies. Acta Neuropathol 2009;117:125-136.
⁶⁹
Nakashima-Yasuda H, Uryu K, Robinson J, et al. Co-morbidity of TDP-43 proteinopathy in Lewy body related diseases. Acta neuropathologica. 2007;114:221-229.
⁷⁰
Uryu K, Nakashima-Yasuda H, Forman MS, et al. Concomitant TAR-DNA-binding protein 43 pathology is present in Alzheimer disease and corticobasal degeneration but not in other tauopathies. J Neuropathol Exp Neurol 2008;67:555-564.
⁷¹
Schwab C, Arai T, Hasegawa M, Yu S, McGeer PL. Colocalization of transactivation-responsive DNA-binding protein 43 and huntingtin in inclusions of Huntington disease. J Neuropathol Exp Neurol 2008;67: 1159-1165.
⁷²
Ronnback A, Nennesmo I, Tuominen H, Grueninger F, Viitanen M, Graff C. Neuropathological characterization of two siblings carrying the MAPT S305S mutation demonstrates features resembling argyrophilic grain disease. Acta Neuropathol 2014;127:297-298.
⁷³
Skoglund L, Viitanen M, Kalimo H, et al. The tau S305S mutation causes frontotemporal dementia with parkinsonism. Eur J Neurol 2008; 15:156-161.
⁷⁴
Villela D, Kimura L, Schlesinger D, et al. Germline DNA copy number variation in individuals with Argyrophilic grain disease reveals CTNS as a plausible candidate gene. Genet Mol Biol 2013;36:498-501.
⁷⁵
Cook EH Jr., Scherer SW. Copy-number variations associated with neuropsychiatric conditions. Nature 2008;455:919-923.
⁷⁶
Ghebremedhin E, Schultz C, Botez G, et al. Argyrophilic grain disease is associated with apolipoprotein E epsilon 2 allele. Acta Neuropathol 1998;96:222-224.
⁷⁷
Jucker M, Walker LC. Self-propagation of pathogenic protein aggregates in neurodegenerative diseases. Nature 2013;501:45-51.
⁷⁸
Clavaguera F, Akatsu H, Fraser G, et al. Brain homogenates from human tauopathies induce tau inclusions in mouse brain. Proc Natl Acad Sci U S A 2013;110(23):9535-40.
⁷⁹
Ahmed Z, Cooper J, Murray TK, et al. A novel in vivo model of tau propagation with rapid and progressive neurofibrillary tangle pathology: the pattern of spread is determined by connectivity, not proximity. Acta Neuropathol 2014;127:667-683.
⁸⁰
Frost B, Jacks RL, Diamond MI. Propagation of tau misfolding from the outside to the inside of a cell. J Biol Chem 2009;284:12845-12852.
⁸¹
Guo JL, Lee VM. Seeding of normal Tau by pathological Tau conformers drives pathogenesis of Alzheimer-like tangles. J Biol Chem 2011; 286:15317-15331.
⁸²
Dujardin S, Lecolle K, Caillierez R, et al. Neuron-to-neuron wild-type Tau protein transfer through a trans-synaptic mechanism: relevance to sporadic tauopathies. Acta Neuropathol Commun 2014;2:14.
⁸³
Sanders DW, Kaufman SK, DeVos SL, et al. Distinct Tau Prion Strains Propagate in Cells and Mice and Define Different Tauopathies. Neuron 2014;82:1271-1288.

Publication Dates

Publication in this collection
Jan-Mar 2015

History

Received
10 June 2014
Accepted
26 Aug 2014

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

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Botez G, Probst A, Ipsen S, Tolnay M. Astrocytes expressing hyperphosphorylated tau protein without glial fibrillary tangles in argyrophilic grain disease. Acta Neuropathol 1999;98:251-256.

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Kovacs GG, Pittman A, Revesz T, et al. MAPT S305I mutation: implications for argyrophilic grain disease. Acta Neuropathol 2008;116:103-118.

[21] ²¹
Tolnay M, Sergeant N, Ghestem A, et al. Argyrophilic grain disease and Alzheimer's disease are distinguished by their different distribution of tau protein isoforms. Acta Neuropathol 2002;104:425-434.

[22] ²²
Grinberg LT, Wang X, Wang C, et al. Argyrophilic grain disease differs from other tauopathies by lacking tau acetylation. Acta Neuropathol 2013;125:581-593.

[23] ²³
Thal DR, Capetillo-Zarate E, Galuske RA. Tracing of temporo-entorhinal connections in the human brain: cognitively impaired argyrophilic grain disease cases show dendritic alterations but no axonal disconnection of temporo-entorhinal association neurons. Acta Neuropathol 2008;115:175-183.

[24] ²⁴
Braak H, Braak E. Neuropathological stageing of Alzheimer-related changes. Acta Neuropathol 1991;82:239-259.

[25] ²⁵
Braak H, Braak E. Cortical and subcortical argyrophilic grains characterize a disease associated with adult onset dementia. Neuropathol Appl Neurobiol 1989;15:13-26.

[26] ²⁶
Ikeda K, Akiyama H, Kondo H, Haga C. A study of dementia with argyrophilic grains. Possible cytoskeletal abnormality in dendrospinal portion of neurons and oligodendroglia. Acta Neuropathol 1995;89:409-414.

[27] ²⁷
Itagaki S, McGeer PL, Akiyama H, et al. A case of adult-onset dementia with argyrophilic grains. Ann Neurol 1989;26:685-689.

[28] ²⁸
Martinez-Lage P, Munoz DG. Prevalence and disease associations of argyrophilic grains of Braak. J Neuropathol Exp Neurol 1997;56:157-164.

[29] ²⁹
Masliah E, Hansen LA, Quijada S, et al. Late onset dementia with argyrophilic grains and subcortical tangles or atypical progressive supranuclear palsy? Ann Neurol 1991;29:389-396.

[30] ³⁰
Tolnay M, Mistl C, Ipsen S, Probst A. Argyrophilic grains of Braak: occurrence in dendrites of neurons containing hyperphosphorylated tau protein. Neuropathol Appl Neurobiol 1998;24:53-59.

[31] ³¹
Tolnay M, Calhoun M, Pham HC, Egensperger R, Probst A. Low amyloid (Abeta) plaque load and relative predominance of diffuse plaques distinguish argyrophilic grain disease from Alzheimer's disease. Neuropathol Appl Neurobiol 1999;25:295-305.

[32] ³²
Yamada T, McGeer PL, McGeer EG. Some immunohistochemical features of argyrophilic grain dementia with normal cortical choline acetyltransferase levels but extensive subcortical pathology and markedly reduced dopamine. J Geriatr Psychiatry Neurol 1992;5:3-13.

[33] ³³
Tolnay M, Spillantini MG, Goedert M, Ulrich J, Langui D, Probst A. Argyrophilic grain disease: widespread hyperphosphorylation of tau protein in limbic neurons. Acta Neuropathol 1997;93:477-484.

[34] ³⁴
Tolnay M, Probst A. Ballooned neurons expressing alphaB-crystallin as a constant feature of the amygdala in argyrophilic grain disease. Neurosci Lett 1998;246:165-168.

[35] ³⁵
Adachi T, Saito Y, Hatsuta H, et al. Neuropathological asymmetry in argyrophilic grain disease. J Neuropathol Exp Neurol 2010;69:737-744.

[36] ³⁶
Saito Y, Murayama S. Neuropathology of mild cognitive impairment. Neuropathology 2007;27:578-584.

[37] ³⁷
Asaoka T, Tsuchiya K, Fujishiro H, et al. Argyrophilic grain disease with delusions and hallucinations: a pathological study. Psychogeriatrics 2010;10:69-76.

[38] ³⁸
Togo T, Isojima D, Akatsu H, et al. Clinical features of argyrophilic grain disease: a retrospective survey of cases with neuropsychiatric symptoms. Am J Geriatr Psychiatry 2005;13:1083-1091.

[39] ³⁹
Ikeda K, Akiyama H, Arai T, Matsushita M, Tsuchiya K, Miyazaki H. Clinical aspects of argyrophilic grain disease. Clin Neuropathol 2000;19: 278-284.

[40] ⁴⁰
Tsuchiya K, Mitani K, Arai T, et al. Argyrophilic grain disease mimicking temporal Pick's disease: a clinical, radiological, and pathological study of an autopsy case with a clinical course of 15 years. Acta Neuropathol 2001;102:195-199.

[41] ⁴¹
Saito Y, Nakahara K, Yamanouchi H, Murayama S. Severe involvement of ambient gyrus in dementia with grains. J Neuropathol Exp Neurol 2002;61:789-796.

[42] ⁴²
Grau-Rivera O, Gelpi E, Rey MJ, et al. Prominent psychiatric symptoms in patients with Parkinson's disease and concomitant argyrophilic grain disease. J Neurol 2013;260:3002-3009.

[43] ⁴³
Tatsumi S, Mimuro M, Iwasaki Y, et al. Argyrophilic grains are reliable disease-specific features of corticobasal degeneration. J Neuropathol Exp Neurol 2014;73:30-38.

[44] ⁴⁴
Maurage CA, Sergeant N, Schraen-Maschke S, et al. Diffuse form of argyrophilic grain disease: a new variant of four-repeat tauopathy different from limbic argyrophilic grain disease. Acta Neuropathol 2003;106:575-583.

[45] ⁴⁵
Rascovsky K, Hodges JR, Knopman D, et al. Sensitivity of revised diagnostic criteria for the behavioural variant of frontotemporal dementia. Brain 2011;134:2456-2477.

[46] ⁴⁶
Knopman DS, Parisi JE, Salviati A, et al. Neuropathology of cognitively normal elderly. J Neuropathol Exp Neurol 2003;62:1087-1095.

[47] ⁴⁷
Ferrer I, Santpere G, van Leeuwen FW. Argyrophilic grain disease. Brain 2008;131:1416-1432.

[48] ⁴⁸
Goedert M. Introduction to the tauopathies in Neurodegeneration: the molecular pathology of dementia and movement disorders. 2 ed: Editora Wiley-Blackwell; 2011.

[49] ⁴⁹
Spillantini MG, Goedert M. Tau pathology and neurodegeneration. Lancet Neurol 2013;12:609-622.

[50] ⁵⁰
Togo T, Sahara N, Yen SH, et al. Argyrophilic grain disease is a sporadic 4-repeat tauopathy. J Neuropathol Exp Neurol 2002;61:547-556.

[51] ⁵¹
Higuchi M T, Lee VMY Tau Protein And Tauopathy in Neuropsychopharmacology. 5 ed: Editora Lippincott, Williams e Wilkins; 2002.

[52] ⁵²
Clavaguera F, Grueninger F, Tolnay M. Intercellular transfer of tau aggregates and spreading of tau pathology: Implications for therapeutic strategies. Neuropharmacology 2014;76:9-15.

[53] ⁵³
Cohen TJ, Guo JL, Hurtado DE, et al. The acetylation of tau inhibits its function and promotes pathological tau aggregation. Nat Commun 2011;2:252.

[54] ⁵⁴
Togo T, Dickson DW. Ballooned neurons in progressive supranuclear palsy are usually due to concurrent argyrophilic grain disease. Acta Neuropathol 2002;104:53-56.

[55] ⁵⁵
Seubert P, Mawal-Dewan M, Barbour R, et al. Detection of phosphorylated Ser262 in fetal tau, adult tau, and paired helical filament tau. J Biol Chem 1995;270:18917-18922.

[56] ⁵⁶
Ramirez RR CI, Fumadó J. Demencias Degenerativas infrequentes in Enfermedad de Alzheimer y otras demencias. 4 ed 2011.

[57] ⁵⁷
Probst A, Tolnay M. [Argyrophilic grain disease (AgD), a frequent and largely underestimated cause of dementia in old patients]. Rev Neurol (Paris) 2002;158:155-165.

[58] ⁵⁸
Hof PR, Bouras C, Constantinidis J, Morrison JH. Selective disconnection of specific visual association pathways in cases of Alzheimer's disease presenting with Balint's syndrome. J Neuropathol Exp Neurol 1990;49:168-184.

[59] ⁵⁹
Braak H, Braak E. Neuropathological stageing of Alzheimer-related changes. Acta Neuropathol 1991;82:239-259.

[60] ⁶⁰
Davis D, Ross GW, Petrovitch H, et al. Quantification of argyrophilic grains in hippocampal CA-1 of aged Japonese- American men. J Neuropathol Exp Neurol 1997;56:587.

[61] ⁶¹
Schultz C, Koppers D, Sassin I, Braak E, Braak H. Cytoskeletal alterations in the human tuberal hypothalamus related to argyrophilic grain disease. Acta Neuropathol 1998;9:596-602.

[62] ⁶²
Ishizawa T, Ko LW, Cookson N, Davias P, Espinoza M, Dickson DW. Selective neurofibrillary degeneration of the hippocampal CA2 sector is associated with four-repeat tauopathies. J Neuropathol Exp Neurol 2002;61:1040-1047.

[63] ⁶³
Yokota O, Tsuchiya K, Noguchi Y, et al. Coexistence of amyotrophic lateral sclerosis and argyrophilic grain disease: a non-demented autopsy case showing circumscribed temporal atrophy and involvement of the amygdala. Neuropathology 2007;27:539-550.

[64] ⁶⁴
Togo T, Cookson N, Dickson DW. Argyrophilic grain disease: neuropathology, frequency in a dementia brain bank and lack of relationship with apolipoprotein E. Brain Pathol 2002;12:45-52.

[65] ⁶⁵
Fujishiro H, Uchikado H, Arai T, et al. Accumulation of phosphorylated TDP-43 in brains of patients with argyrophilic grain disease. Acta Neuropathol 2009;117:151-158.

[66] ⁶⁶
Arnold SJ, Dugger BN, Beach TG. TDP-43 deposition in prospectively followed, cognitively normal elderly individuals: correlation with argyrophilic grains but not other concomitant pathologies. Acta Neuropathol 2013;126:51-57.

[67] ⁶⁷
Amador-Ortiz C, Lin WL, Ahmed Z, et al. TDP-43 immunoreactivity in hippocampal sclerosis and Alzheimer's disease. Ann Neurol 2007;61: 435-445.

[68] ⁶⁸
Arai T, Mackenzie IR, Hasegawa M, et al. Phosphorylated TDP-43 in Alzheimer's disease and dementia with Lewy bodies. Acta Neuropathol 2009;117:125-136.

[69] ⁶⁹
Nakashima-Yasuda H, Uryu K, Robinson J, et al. Co-morbidity of TDP-43 proteinopathy in Lewy body related diseases. Acta neuropathologica. 2007;114:221-229.

[70] ⁷⁰
Uryu K, Nakashima-Yasuda H, Forman MS, et al. Concomitant TAR-DNA-binding protein 43 pathology is present in Alzheimer disease and corticobasal degeneration but not in other tauopathies. J Neuropathol Exp Neurol 2008;67:555-564.

[71] ⁷¹
Schwab C, Arai T, Hasegawa M, Yu S, McGeer PL. Colocalization of transactivation-responsive DNA-binding protein 43 and huntingtin in inclusions of Huntington disease. J Neuropathol Exp Neurol 2008;67: 1159-1165.

[72] ⁷²
Ronnback A, Nennesmo I, Tuominen H, Grueninger F, Viitanen M, Graff C. Neuropathological characterization of two siblings carrying the MAPT S305S mutation demonstrates features resembling argyrophilic grain disease. Acta Neuropathol 2014;127:297-298.

[73] ⁷³
Skoglund L, Viitanen M, Kalimo H, et al. The tau S305S mutation causes frontotemporal dementia with parkinsonism. Eur J Neurol 2008; 15:156-161.

[74] ⁷⁴
Villela D, Kimura L, Schlesinger D, et al. Germline DNA copy number variation in individuals with Argyrophilic grain disease reveals CTNS as a plausible candidate gene. Genet Mol Biol 2013;36:498-501.

[75] ⁷⁵
Cook EH Jr., Scherer SW. Copy-number variations associated with neuropsychiatric conditions. Nature 2008;455:919-923.

[76] ⁷⁶
Ghebremedhin E, Schultz C, Botez G, et al. Argyrophilic grain disease is associated with apolipoprotein E epsilon 2 allele. Acta Neuropathol 1998;96:222-224.

[77] ⁷⁷
Jucker M, Walker LC. Self-propagation of pathogenic protein aggregates in neurodegenerative diseases. Nature 2013;501:45-51.

[78] ⁷⁸
Clavaguera F, Akatsu H, Fraser G, et al. Brain homogenates from human tauopathies induce tau inclusions in mouse brain. Proc Natl Acad Sci U S A 2013;110(23):9535-40.

[79] ⁷⁹
Ahmed Z, Cooper J, Murray TK, et al. A novel in vivo model of tau propagation with rapid and progressive neurofibrillary tangle pathology: the pattern of spread is determined by connectivity, not proximity. Acta Neuropathol 2014;127:667-683.

[80] ⁸⁰
Frost B, Jacks RL, Diamond MI. Propagation of tau misfolding from the outside to the inside of a cell. J Biol Chem 2009;284:12845-12852.

[81] ⁸¹
Guo JL, Lee VM. Seeding of normal Tau by pathological Tau conformers drives pathogenesis of Alzheimer-like tangles. J Biol Chem 2011; 286:15317-15331.

[82] ⁸²
Dujardin S, Lecolle K, Caillierez R, et al. Neuron-to-neuron wild-type Tau protein transfer through a trans-synaptic mechanism: relevance to sporadic tauopathies. Acta Neuropathol Commun 2014;2:14.

[83] ⁸³
Sanders DW, Kaufman SK, DeVos SL, et al. Distinct Tau Prion Strains Propagate in Cells and Mice and Define Different Tauopathies. Neuron 2014;82:1271-1288.

Brasil