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Brazilian Journal of Psychiatry

Print version ISSN 1516-4446On-line version ISSN 1809-452X

Braz. J. Psychiatry vol.41 no.6 São Paulo Nov./Dec. 2019  Epub Dec 09, 2019

https://doi.org/10.1590/1516-4446-2019-0629 

EDITORIAL

A cerebrospinal fluid biosignature for the diagnosis of Alzheimer’s disease

Tatiana Barichello1  2 
http://orcid.org/0000-0001-7776-8454

Vijayasree V. Giridharan1 

Felipe Dal-Pizzol2 

1Translational Psychiatry Program, Department of Psychiatry and Behavioral Sciences, McGovern Medical School, The University of Texas Health Science Center at Houston, Houston, TX, USA

2Laboratório de Fisiopatologia Experimental, Programa de Pós-Graduação em Ciências da Saúde, Universidade do Extremo Sul Catarinense (UNESC), Criciúma, SC, Brazil


Alzheimer’s disease (AD) and other dementia (OD) are major and increasing global health challenges. The World Health Organization (WHO) estimates that around 50 million people worldwide have dementia, of which AD is the most common form, potentially contributing to 60 to 70% of these cases. The alarming global burden of dementia is projected to reach 82 million by 2030 and 152 million people by 2050.1

AD biomarkers play an essential role in detecting the disease in its early stages, thus allowing initiation of treatment. Being in direct contact with the brain and spinal cord, cerebrospinal fluid (CSF) has been known to act as a valuable source of biomarkers that are representative of various biochemical and metabolic profiles of the brain. The established CSF biomarkers for diagnosis of AD are the 42-amino acid form of amyloid-beta (Aβ42) and the total and phosphorylated fractions of tau protein (T-tau and P-tau, respectively). CSF Aβ42 levels are low in patients with AD when compared with healthy controls, due to increased amyloid deposition in the brain of these patients. Tau protein is a microtubule-associated protein expressed in neurons, and is considered as an important biomarker of several disorders in which axonal damage is implicated. In AD, T-tau and P-tau concentrations in the CSF are elevated due to cortical neuronal loss and cortical tangle formation, respectively. The most recent well-established biomarker for AD diagnosis is the neurofilament light chain (NFL) protein. NFL is a marker of neuroaxonal damage, and its levels are elevated in the CSF of patients with AD and other neurological conditions as compared with healthy controls. These high NFL levels in the CSF are due to prominent axonal destruction triggered by neurodegeneration. A recent systematic review and meta-analysis by Olsson et al. recommends using CSF Aβ42, T-tau, P-tau, and NFL levels as a panel of diagnostic biomarkers for AD in clinical practice and research2 (Figure 1).

Figure 1 Cerebrospinal fluid (CSF) biosignature for the diagnosis of Alzheimer’s disease.In Alzheimer’s disease, levels of the 42-amino acid form of amyloid-beta (Aβ42) are low, while those of total tau protein (T-tau), phosphorylated tau protein (P-tau), and neurofilament light chain (NFL) protein in CSF are high. 

In this issue of the Brazilian Journal of Psychiatry, Radanovic et al. evaluated Aβ1-42, P-tau, and T-tau in the CSF of healthy controls (n=54), patients with mild cognitive impairment (MCI) (n=82), patients with AD (n=46), and patients with OD (n=26), and tested for correlation with Mini-Mental State Examination (MMSE) scores. CSF from patients with AD contained higher levels of P-tau and T-tau and lower levels of Aβ1-42, as well as a lower Aβ1-42/P-tau ratio, as compared to healthy controls and those with MCI, but not to the OD group. By evaluating the coefficient of correlation between CSF biomarkers and MMSE, the authors found that the Aβ1-42 levels in the CSF and MMSE scores correlated weakly in the MCI (0.247), moderately in the OD (0.440), and weakly and inversely (-0.145) in the AD group. T-tau CSF levels had a weak, inverse correlation with MMSE scores in the control (-0.284) and MCI (-0.241) groups; this correlation was moderate to high in the OD (-0.665) group. P-tau CSF levels presented a weak negative correlation with the AD group (-0.343) and moderate negative correlation with the OD group (-0.540).3 The authors did not find a strong correlation between CSF biomarkers and MMSE scores; however, an important contribution of this study was to reaffirm the importance of the CSF biomarkers Aβ1-42, P-tau, and T-tau to distinguish patients with AD from controls and OD in the Brazilian population.

The limitations of adopting MMSE scores in AD clinical trials was demonstrated by Chapman et al., who examined the diagnostic accuracy of MMSE and Logical Memory (LM) cutoffs used in AD trials and diagnostic studies, tested using subjects from the NACC database diagnosed with normal cognition (n=10,741), MCI (n=5,883), or AD dementia (n=6,814). The results from this large-cohort study revealed that MMSE and LM scores might not be appropriate tools for the selection of subjects to enroll in multicenter studies designed to develop therapeutics and diagnostic methods for AD.4

Another study, by Olsson et al., demonstrated the association between cognition and CSF-NFL levels. Their wide-ranging sample included healthy controls (n=75) and patients with MCI (n=114), AD (n=397), frontotemporal dementia (FTD) (n=96), amyotrophic lateral sclerosis (n=68), Parkinson’s disease (PD) (n=41), PD with MCI (n=19), PD dementia (n=29), dementia with Lewy bodies (n=33), corticobasal syndrome (n=21), and progressive supranuclear palsy (n=20). The patients were followed longitudinally for cognitive testing over a period of 1 to 18 years. The CSF biomarkers evaluated included Aβ1-42, P-tau, T-tau, and NFL. Compared to other markers, CSF levels of NFL gradually increased among the control, MCI, and AD groups. These results delineate the increased positive association of NFL with cognitive impairment. As expected, the AD group presented low levels of Aβ42 and high levels of P-tau, T-tau, and NFL compared to the control group. As this study included patients with neurodegenerative disorders, the outcome also emphasizes that CSF NFL levels appear to reflect the intensity of neurodegeneration, and that NFL has the potential to assist in differentiation of AD from FTD.5

To date, the biosignature of AD has comprised CSF levels of T-tau, P-tau, and Aβ42, as well as plasma T-tau. However, a growing body of evidence suggests NFL is a strong CSF biomarker that should be included in this biosignature.

Acknowledgments

The authors thank the University of Texas Health Science Center at Houston (UTHealth), Universidade do Extremo Sul Catarinense (UNESC), Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq), and Fundação de Amparo à Pesquisa e Inovação de Santa Catarina (FAPESC). TB has received grants from Alzheimer’s Association® (AARGDNTF-19-619645).

References

1. World Health Organization (WHO). New guide for carers of people with dementia [Internet]. 2019 [cited 2019 Aug 26]. http://who.int/mental_health/neurology/dementiaLinks ]

2. Olsson B, Lautner R, Andreasson U, Öhrfelt A, Portelius E, Bjerke M, et al. CSF and blood biomarkers for the diagnosis of Alzheimer's disease: a systematic review and meta-analysis. Lancet Neurol. 2016;15:673-84. [ Links ]

3. Radanovic M, Oshiro CA, Freitas TQ, Talib LL, Forlenza OV. Correlation between CSF biomarkers of Alzheimer's disease and global cognition in a psychogeriatric clinic cohort. Braz J Psychiatry. 2019;41:479-84. [ Links ]

4. Chapman KR, Bing-Canar H, Alosco ML, Steinberg EG, Martin B, Chaisson C, et al. Mini mental state examination and logical memory scores for entry into Alzheimer's disease trials. Alzheimers Res Ther. 2016;8:9. [ Links ]

5. Olsson B, Portelius E, Cullen NC, Sandelius Å, Zetterberg H, Andreasson U, et al. Association of cerebrospinal fluid neurofilament light protein levels with cognition in patients with dementia, motor neuron disease, and movement disorders. JAMA Neurol. 2019;76:318-25. [ Links ]

Disclosure The authors report no conflicts of interest.

How to cite this article: Barichello T, Giridharan VV, Dal-Pizzol F. A cerebrospinal fluid biosignature for the diagnosis of Alzheimer’s disease. Braz J Psychiatry. 2019;41:467-468. http://dx.doi.org/10.1590/1516-4446-2019-0629

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