Bullous pemphigoid and milia: prevalence and clinical laboratory findings in a Brazilian sample

Vernal, Sebastián; Oliveira, Ederson Valei de; Bueno Filho, Roberto; Julio, Tamiris A.; Donadi, Eduardo A.; Turatti, Aline; Ishii, Norito; Hashimoto, Takashi; Roselino, Ana Maria

doi:10.1016/j.abd.2021.10.003

Abstract

Background:

Bullous pemphigoid (BP) associated with milia lesions has been increasingly reported, but its prevalence has not been reported in a Brazilian BP population yet.

Objectives:

To describe the occurrence and clinical-laboratorial findings of BP-milia association in a southeastern Brazilian sample.

Methods:

A descriptive study based on the medical charts of 102 BP patients was accomplished. Clinical and laboratory data of BP-milia patients were compiled. Total serum IgE measurements, immunoblot assays based on basement membrane zone antigens, and HLA-DQ alleles typing were performed.

Results:

Milia was evident in 8 (7.8%) BP patients, five males, aged between 46 and 88 years. Increased total IgE levels were determined in 7 (87.5%) of the eight patients. In five of eight patients, immunoblotting showed IgG reactivity against the BP180-NC16a domain but not against collagen VII or laminin-332; it also revealed reactivity against the BP180 C-terminal domain or LAD-1, or both in four of them. The HLA-DQB1*03:01 and HLA-DQA1*05:05 alleles were identified in three of five BP-milia patients. Moreover, three of five cases presented the HLA-DQB1*06 allelic group.

Study limitations:

HLA determination was performed in five patients.

Conclusions:

Milia formation in BP patients seems to be less uncommon than previously admitted. Laboratory data revealed increased IgE; autoantibodies against the BP180 C-terminal domain or LAD-1, or both; and the HLA-DQB1*06 allelic group, described for the BP-milia association. Careful determination of antibodies against basement membrane zone molecules and HLA characterization in different populations may provide further insights into this association. © 2022 Sociedade Brasileira de Dermatologia. Published by Elsevier España, S.L.U. This is an open access article under the CC BY license (https://creativecommons.org/licenses/by/4.0/).

KEYWORDS
Hemidesmosomal plaque protein; HLA antigens; Pemphigoid, bullous; 230 kDa protein

Introduction

Bullous pemphigoid (BP) is the most prevalent autoimmune bullous disease worldwide. It is clinically characterized by pruritus, tense bullae, and urticarial patches on the skin; blistering and erosions in the mucous membranes are less frequent. Subepidermal blisters with predominant eosinophilic inflammatory infiltrate in the upper dermis are evident on histopathological biopsy. Autoantibodies against hemidesmosome proteins BP180 (also termed BPAG2 or type collagen XVII) or BP230 (also termed BPAG1 or dystonin), or both, are shown in serum samples.¹1 Sun C, Feng S. Recent developments in the pathogenesis of pruritus in bullous pemphigoid. Int J Dermatol. 2021;60:1441–8.

BP is known to be associated with HLA alleles and environmental factors.²2 Zhang J, Wang G. Genetic predisposition to bullous pemphigoid. J Dermatol Sci. 2020;100:86–91.,³3 Moro F, Fania L, Sinagra JLM, Salemme A, Zenzo GD. Bullous Pemphigoid: Trigger and Predisposing Factors. Biomolecules. 2020;10:1432.,⁴4 Julio TA, Vernal S, Massaro JD, Silva MC, Donadi EA, Moriguti JC, et al. Biological predictors shared by dementia and bullous pemphigoid patients point out a cross-antigenicity between BP180/BP230 brain and skin isoforms. Immunol Res. 2018;66:567–76. Of interest, its clinical presentation has been associated with milia on scar of blistering lesions or in non- lesioned skin in certain BP patients.⁵5 Patsatsi A, Uy CDC, Murrell DF. Multiple milia formation in blistering diseases. Int J Womens Dermatol. 2020;6:199–202. Milia are mainly associated with Epidermolysis Bullosa Acquisita (EBA) and porphyria cutanea tarda.⁶6 Kridin K, Kneiber D, Kowalski EH, Valdebran M, Amber KT. Epidermolysis bullosa acquisita: A comprehensive review. Autoimmun Rev. 2019;18:786–95.,⁷7 Jin MF, Wieland CN. Porphyria Cutanea Tarda. Mayo Clin Proc. 2021;96:1248–9. Prost et al. (1987) described the presence of milia in cases of EBA and cicatricial pemphigoid, but milia were absent in the analyzed BP patients.⁸8 Prost C, Labeille B, Chaussade V, Guillaume JC, Martin N, Dubertret L. Immunoelectron microscopy in subepidermal autoimmune bullous diseases: a prospective study of IgG and C3 bound in vivo in 32 patients. J Invest Dermatol. 1987;89:567 –73. Reports on BP-milia association have been increasing in the last decades in a diverse populations, but its prevalence and clinical-laboratory data have not been reported in a Brazilian BP population yet.⁹9 Delaporte E, Piette F, Janin A, Cozzani E, Joly P, Thomine E, et al. Pemphigoide simulant une épidermolyse bulleuse acquise [Pemphigoid mimicking epidermolysis bullosa acquisita]. Ann Dermatol Venereol. 1995;122:19–22.,¹⁰10 Hisa T, Goto Y, Taniguchi S, Nakanishi T, Kakudo K, Takigawa M. Post-bullous milia. Australas J Dermatol. 1996;37:153–4.,¹¹11 Tsuruta D, Brzezinski P, Koga H, Ohata C, Furumura M, Hashimoto T. Bullous pemphigoid with prominent milium formation. Acta Dermatovenerol Croat. 2013;21:35–8.,¹²12 Uchida S, Oiso N, Koga H, Ishii N, Okahashi K, Matsuda H, et al. Refractory bullous pemphigoid leaving numerous milia during recovery. J Dermatol. 2014;41:1003–5.,¹³13 Ding S, Deng Q, Xiang Y, Chen J, Huang J, Lu J. Bullous pemphigoid associated with milia, increased serum IgE, autoantibodies against desmogleins, and refractory treatment in a young patient. An Bras Dermatol. 2017;92:34–6.,¹⁴14 Kumudhini S, Rao R, Pai K, Shetty S, Pai S. Extensive milia formation in a young woman with bullous pemphigoid. Indian J Dermatol Venereol Leprol. 2018;84:248.,¹⁵15 Amin S, Fiore CT, Paek SY. Milia within resolving bullous pemphigoid lesions. Proc (Bayl UnivMed Cent). 2019;32:90–2.

Of 102 compiled BP cases, we report eight patients who presented associated milia. Clinical, laboratory and blotting assays, and HLA-DQ alleles determination were assessed in these eight BP-milia patients.

Methods

This descriptive study was approved by the local Ethics Committee (#12248/2010).

The medical records of 102 patients diagnosed with BP within a period of 35-years were reviewed. They all had been living in Southeastern Brazil. BP diagnosis was based on clinical findings, confirmed by subepidermal blistering upon histopathological examination and by IgG linear fluorescence at the Basement Membrane Zone (BMZ) upon direct and indirect immunofluorescence (DIF and IIF, respectively). Salt-Split-Skin on IIF (SSS-IIF) was performed with anti-IgA, anti-IgG and C‛. IgG anti-BP180 and anti-BP230autoantibodies were determined by ELISA assays (cut-off value = 9 U/mL; MBL, Japan).

For the eight BP-milia patients included herein, the clinical data were assessed, and the following assays were accomplished on stocked DNA and serum samples. For total IgE determination, 50 μL of serum was prepared according to the manufacturer’s recommendations (ImmunoCAPTM Total IgE, Thermo-Fisher, USA). Titration was carried out on a Phadia100 laboratory system (Thermo-Fisher, USA). The Immunoblot (IB) assays with BMZ antigens BP180-NC16a and BP180 C-terminal domains, BP230, LAD-1, type VII collagen, and laminin-332 molecules were performed. HLA-DQ alleles were determined by PCR combined with Sequence-Specific Oligonucleotide Probes (PCR-SSOP). The LAB Type kit (One Lambda Inc., Kittredge, CA, USA) was used according to the manufacturer’s instructions and Luminex technology.

Results

Of the 102 compiled BP cases, eight exhibited milium lesions (Figs. 1 and 2), corresponding to BP-milia prevalence of 7.8%. Table 1 summarizes the demographic and clinical data of these eight patients. Five were male, the median age was 75.5-years, and the median disease duration was five months. Clinical description showed active BP lesions in all eight patients. Just one patient presented mucosal involvement. None of them had changed their usual medications before the BP onset. Of interest, four patients presented Neurological Diseases (ND). Seven patients responded well to the usual treatment, but one died due to pulmonary thromboembolism following spinal disc herniation surgery.

Figure 1
Patient numbered 2 in the and . (A), Crusted lesions above erythematous plaques in the anterior thorax and abdomen. (B), Milium lesions (white arrows) over cicatricial blistering lesions can be seen in a high magnification image.

Figure 2
Patient numbered 4 in the and . (A), Hemorrhagic bullous and tense vesicle on erythematous plaques in the foot. (B), Milium lesions (white arrow) over cicatricial blistering lesions can be seen.

Thumbnail

Table 1
Demographical and clinical data of patients with BP-milia association.

Table 2 details the laboratory findings. Six of seven patients had a subepidermal blister, and eosinophilic inflammatory infiltrate in the upper dermis predominated in four upon histopathological examination. In five of six patients, DIF confirmed IgG or C3, or both, but no IgA linear fluorescence at the BMZ (Fig. 3A). In eight patients, SSS-IIF showed IgG or C3, or both, but no IgA linear fluorescence on the cleavage epidermal side (Fig. 3B). Of interest, increased total serum IgE levels ranging from 252 to >5000 kU/mL were documented in seven of eight patients. Of eight patients, ELISA showed increased anti-BP180, anti-BP230, and both anti-BP180 and anti-BP230 antibody levels in two, one, and three patients, respectively; two patients tested negative for anti-BP180 and anti-BP230 antibodies.

Thumbnail

Table 2
Laboratory data of patients with BP-milia association.

Figure 3
(A), Direct immunofluorescence of skin biopsy showing IgG linear fluorescence in the basement membrane zone (white arrow) (Patient 2) (immunofluorescence, 400×). (B), Indirect immunofluorescence using 1M-NaCl-Salt-split-skin shows IgG fluorescence on the cleavage epidermal side (Patient 5) (immunofluorescence, 400×).

Of eight patients, IB assays highlighted IgG reactivity against BP230 in one patient (data not shown), against the BP180-NC16a domain in five patients (Fig. 4A), and against the BP180 C-terminal domain or LAD-1, or both, in four patients (Fig. 4B and C). No patient presented reactivity against type VII collagen or laminin-332. We were able to define the HLA-DQ alleles in five of eight patients (see Table 2, last column).

Figure 4
Immunoblot using BP180-NC16a (A), BP180 C-terminal (B), and HaCaT cells (C) with serum samples. For positive results see the RP (reference protein) from: BP (Bullous Pemphigoid) patient’s serum (A), MMP, Mucous Membrane Pemphigoid patient’s serum (B), and LAD, Linear IgA Dermatosis patient’s serum (C).

Discussion

To our best knowledge, BP-milia association is still considered an uncommon clinical finding.⁵5 Patsatsi A, Uy CDC, Murrell DF. Multiple milia formation in blistering diseases. Int J Womens Dermatol. 2020;6:199–202.,⁹9 Delaporte E, Piette F, Janin A, Cozzani E, Joly P, Thomine E, et al. Pemphigoide simulant une épidermolyse bulleuse acquise [Pemphigoid mimicking epidermolysis bullosa acquisita]. Ann Dermatol Venereol. 1995;122:19–22.,¹⁰10 Hisa T, Goto Y, Taniguchi S, Nakanishi T, Kakudo K, Takigawa M. Post-bullous milia. Australas J Dermatol. 1996;37:153–4.,¹¹11 Tsuruta D, Brzezinski P, Koga H, Ohata C, Furumura M, Hashimoto T. Bullous pemphigoid with prominent milium formation. Acta Dermatovenerol Croat. 2013;21:35–8.,¹²12 Uchida S, Oiso N, Koga H, Ishii N, Okahashi K, Matsuda H, et al. Refractory bullous pemphigoid leaving numerous milia during recovery. J Dermatol. 2014;41:1003–5.,¹³13 Ding S, Deng Q, Xiang Y, Chen J, Huang J, Lu J. Bullous pemphigoid associated with milia, increased serum IgE, autoantibodies against desmogleins, and refractory treatment in a young patient. An Bras Dermatol. 2017;92:34–6.,¹⁴14 Kumudhini S, Rao R, Pai K, Shetty S, Pai S. Extensive milia formation in a young woman with bullous pemphigoid. Indian J Dermatol Venereol Leprol. 2018;84:248.,¹⁵15 Amin S, Fiore CT, Paek SY. Milia within resolving bullous pemphigoid lesions. Proc (Bayl UnivMed Cent). 2019;32:90–2. There is no report of BP-milia association in a Brazilian population. Here, a prevalence of 7.8% of BP-milia association amongst 102 BP patients is presented, indicating that careful differential diagnosis with EBA is mandatory given that milia formation is frequently reported in EBA.⁶6 Kridin K, Kneiber D, Kowalski EH, Valdebran M, Amber KT. Epidermolysis bullosa acquisita: A comprehensive review. Autoimmun Rev. 2019;18:786–95.

Due to the increased interest in BP-milia association, we would like to highlight some clinical and laboratory features presented by the eight BP-milia patients. (i) ND association was described in four patients-three with stroke (patients numbered 3, 5 and 6) and one with Parkinson’s disease, and dementia (patient 8). ND in association with BP opens an interesting link for BP pathogenesis,⁴4 Julio TA, Vernal S, Massaro JD, Silva MC, Donadi EA, Moriguti JC, et al. Biological predictors shared by dementia and bullous pemphigoid patients point out a cross-antigenicity between BP180/BP230 brain and skin isoforms. Immunol Res. 2018;66:567–76.,¹⁶16 Lai YC, Yew YW, Lambert WC. Bullous pemphigoid and its association with neurological diseases: a systematic review and meta-analysis. J Eur Acad Dermatol Venereol. 2016;30:2007–15. but no ND-BP-milia association has been found in the literature. (ii) Increased total IgE levels were demonstrated in seven patients. Increased total IgE has been related to BP severity,¹⁷17 Saniklidou AH, Tighe PJ, Fairclough LC, Todd I. IgE autoantibodies and their association with the disease activity and phenotype in bullous pemphigoid: a systematic review. Arch Dermatol Res. 2018;310:11–28.,¹⁸18 Cozzani E, Gasparini G, Di Zenzo G, Parodi A. Immunoglobulin E and bullous pemphigoid. Eur J Dermatol. 2018;28:440–8.,¹⁹19 Delli FS, Sotiriou E, Lazaridou E, Apalla Z, Lallas A, Vakirlis E, et al. Total IgE, eosinophils, and interleukins 16, 17A, and 23 correlations in severe bullous pemphigoid and treatment implications. Dermatol Ther. 2020;33:e13958.,²⁰20 Lamberts A, Kotnik N, Diercks GFH, Meijer JM, Di Zenzo G, Pas HH, et al. IgE autoantibodies in serum and skin of non-bullous and bullous pemphigoid patients. J Eur Acad Dermatol Venereol. 2021;35:973–80. and has been reported in a case of BP-milia association.¹³13 Ding S, Deng Q, Xiang Y, Chen J, Huang J, Lu J. Bullous pemphigoid associated with milia, increased serum IgE, autoantibodies against desmogleins, and refractory treatment in a young patient. An Bras Dermatol. 2017;92:34–6. The fact that increased total IgE has been identified in 87.5% of the BP-milia patients included herein deserves future confirmation. (iii) Interestingly, four patients showed antibodies against the BP180 C-terminal domain and LAD-1 in IB. The interaction of hemidesmosome proteins and extracellular matrix components beneath hemidesmosomes may also result in milium formation,⁵5 Patsatsi A, Uy CDC, Murrell DF. Multiple milia formation in blistering diseases. Int J Womens Dermatol. 2020;6:199–202. but these features are not exclusive of BP-milia association.

Finally, HLA genes are probably the most significant genetic predisposition factor in BP pathogenesis.²2 Zhang J, Wang G. Genetic predisposition to bullous pemphigoid. J Dermatol Sci. 2020;100:86–91. In the largest case-series of BP-milia associations to date, milia were present in 23 (31.1%) of 74 British BP patients, and the HLA-DQ6 allelic group was associated with the BP-milia condition.²¹21 Banfield CC, Wojnarowska F, Allen J, George S, Venning VA, Welsh KI. The association of HLA-DQ7 with bullous pemphigoid is restricted to men. Br J Dermatol. 1998;138:1085–90. Here, three of five cases presented the HLA-DQB1*06 allelic group. Moreover, three exhibited the HLA-DQA1*01:03/05:05 alleles, the HLA-DQB1*03:01 allele, or all of them, which all represent BP susceptibility alleles in the Brazilian population.²²22 Chagury AA, Sennes LU, Gil JM, Kalil J, Rodrigues H, Rosales CB, et al. HLA-C*17, DQB1*03:01, DQA1*01:03 and DQA1*05:05 alleles associated to bullous pemphigoid in Brazilian Population. Ann Dermatol. 2018;30:8–12.

Conclusion

In conclusion, milium lesions associated with BP seem to be less uncommon than previously admitted, configuring a special differential diagnosis with other blistering diseases. Milium formation in BP deserves a pathogenesis-based explanation as to why certain BP patients develop them.

Financial support

This study was partially supported by FAPESP (Fundação de Amparo à Pesquisa do Estado de São Paulo), process number 2010/51729-2, and by FAEPA (Fundação de Apoio ao Ensino, Pesquisa e Assistência). SV and TAJ received a PhD scholarship from CAPES (Coordenação de Aperfeiçoamento de Pessoal de Nível Superior), and from FAPESP, respectively.
☆
Study conducted at the University Hospital, Ribeirão Preto Medical School, Universidade de São Paulo, Ribeirão Preto, SP, Brazil and Kurume University School, Japan.

Acknowledgments

The authors thank Neifi Deghaide for technical assistance with HLA determination, Professor Karla Arruda for allowing the use of the laboratory facility for total IgE measurement, and the clinical staff of the outpatient autoimmune dermatoses clinic of the Dermatology Division of the University Hospital of Ribeirão Preto Medical School, University of São Paulo, Brazil.

References

¹
Sun C, Feng S. Recent developments in the pathogenesis of pruritus in bullous pemphigoid. Int J Dermatol. 2021;60:1441–8.
²
Zhang J, Wang G. Genetic predisposition to bullous pemphigoid. J Dermatol Sci. 2020;100:86–91.
³
Moro F, Fania L, Sinagra JLM, Salemme A, Zenzo GD. Bullous Pemphigoid: Trigger and Predisposing Factors. Biomolecules. 2020;10:1432.
⁴
Julio TA, Vernal S, Massaro JD, Silva MC, Donadi EA, Moriguti JC, et al. Biological predictors shared by dementia and bullous pemphigoid patients point out a cross-antigenicity between BP180/BP230 brain and skin isoforms. Immunol Res. 2018;66:567–76.
⁵
Patsatsi A, Uy CDC, Murrell DF. Multiple milia formation in blistering diseases. Int J Womens Dermatol. 2020;6:199–202.
⁶
Kridin K, Kneiber D, Kowalski EH, Valdebran M, Amber KT. Epidermolysis bullosa acquisita: A comprehensive review. Autoimmun Rev. 2019;18:786–95.
⁷
Jin MF, Wieland CN. Porphyria Cutanea Tarda. Mayo Clin Proc. 2021;96:1248–9.
⁸
Prost C, Labeille B, Chaussade V, Guillaume JC, Martin N, Dubertret L. Immunoelectron microscopy in subepidermal autoimmune bullous diseases: a prospective study of IgG and C3 bound in vivo in 32 patients. J Invest Dermatol. 1987;89:567 –73.
⁹
Delaporte E, Piette F, Janin A, Cozzani E, Joly P, Thomine E, et al. Pemphigoide simulant une épidermolyse bulleuse acquise [Pemphigoid mimicking epidermolysis bullosa acquisita]. Ann Dermatol Venereol. 1995;122:19–22.
¹⁰
Hisa T, Goto Y, Taniguchi S, Nakanishi T, Kakudo K, Takigawa M. Post-bullous milia. Australas J Dermatol. 1996;37:153–4.
¹¹
Tsuruta D, Brzezinski P, Koga H, Ohata C, Furumura M, Hashimoto T. Bullous pemphigoid with prominent milium formation. Acta Dermatovenerol Croat. 2013;21:35–8.
¹²
Uchida S, Oiso N, Koga H, Ishii N, Okahashi K, Matsuda H, et al. Refractory bullous pemphigoid leaving numerous milia during recovery. J Dermatol. 2014;41:1003–5.
¹³
Ding S, Deng Q, Xiang Y, Chen J, Huang J, Lu J. Bullous pemphigoid associated with milia, increased serum IgE, autoantibodies against desmogleins, and refractory treatment in a young patient. An Bras Dermatol. 2017;92:34–6.
¹⁴
Kumudhini S, Rao R, Pai K, Shetty S, Pai S. Extensive milia formation in a young woman with bullous pemphigoid. Indian J Dermatol Venereol Leprol. 2018;84:248.
¹⁵
Amin S, Fiore CT, Paek SY. Milia within resolving bullous pemphigoid lesions. Proc (Bayl UnivMed Cent). 2019;32:90–2.
¹⁶
Lai YC, Yew YW, Lambert WC. Bullous pemphigoid and its association with neurological diseases: a systematic review and meta-analysis. J Eur Acad Dermatol Venereol. 2016;30:2007–15.
¹⁷
Saniklidou AH, Tighe PJ, Fairclough LC, Todd I. IgE autoantibodies and their association with the disease activity and phenotype in bullous pemphigoid: a systematic review. Arch Dermatol Res. 2018;310:11–28.
¹⁸
Cozzani E, Gasparini G, Di Zenzo G, Parodi A. Immunoglobulin E and bullous pemphigoid. Eur J Dermatol. 2018;28:440–8.
¹⁹
Delli FS, Sotiriou E, Lazaridou E, Apalla Z, Lallas A, Vakirlis E, et al. Total IgE, eosinophils, and interleukins 16, 17A, and 23 correlations in severe bullous pemphigoid and treatment implications. Dermatol Ther. 2020;33:e13958.
²⁰
Lamberts A, Kotnik N, Diercks GFH, Meijer JM, Di Zenzo G, Pas HH, et al. IgE autoantibodies in serum and skin of non-bullous and bullous pemphigoid patients. J Eur Acad Dermatol Venereol. 2021;35:973–80.
²¹
Banfield CC, Wojnarowska F, Allen J, George S, Venning VA, Welsh KI. The association of HLA-DQ7 with bullous pemphigoid is restricted to men. Br J Dermatol. 1998;138:1085–90.
²²
Chagury AA, Sennes LU, Gil JM, Kalil J, Rodrigues H, Rosales CB, et al. HLA-C*17, DQB1*03:01, DQA1*01:03 and DQA1*05:05 alleles associated to bullous pemphigoid in Brazilian Population. Ann Dermatol. 2018;30:8–12.

Publication Dates

Publication in this collection
29 July 2022
Date of issue
Jul-Aug 2022

History

Received
11 Aug 2021
Accepted
25 Oct 2021
Published
27 May 2022

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

[1] Financial support

This study was partially supported by FAPESP (Fundação de Amparo à Pesquisa do Estado de São Paulo), process number 2010/51729-2, and by FAEPA (Fundação de Apoio ao Ensino, Pesquisa e Assistência). SV and TAJ received a PhD scholarship from CAPES (Coordenação de Aperfeiçoamento de Pessoal de Nível Superior), and from FAPESP, respectively.

[2] ☆
Study conducted at the University Hospital, Ribeirão Preto Medical School, Universidade de São Paulo, Ribeirão Preto, SP, Brazil and Kurume University School, Japan.

Patient number	Gender	Age (years)	Duration of disease (months)	Distribution of lesions	Medical background and comorbidities	Medications in use at onset of BP lesions
1	Male	83	5	Trunk, limbs, hands, and feet	Recurrent erysipelas, hypertension, dyslipidemia, and resected bladder cancer	Enalapril, amlodipine, simvastatin, carvedilol, and omeprazole
2	Male	71	10	Trunk, abdomen, and limbs	Thyroid disease, hypertension, Diabetes Mellitus (DM) type 2, and history of pulmonary histoplasmosis	Metformin, losartan, aspirin, ramipril, omeprazole, and atorvastatin
3	Male	85	6	Trunk and lower limbs	Hypertension, DM Type 2, and stroke	Aspirin, carvedilol, furosemide, isosorbide dinitrate, omeprazole, NPH, and insulin
4	Female	67	3	Neck, trunk, and limbs	Hypertension, hypothyroidism, hyperparathyroidism, and asthma	Losartan, amlodipine, levothyroxine, ranitidine, duloxetine, pregabalin, primidone, calcium carbonate, magnesium pidolate, potassium chloride, folic acid, and vitamin E
5	Male	80	4	Trunk and hands	Hypertension, DM Type 2, dyslipidemia, and stroke	Hydrochlorothiazide, atenolol, aspirin, phenytoin, metformin, simvastatin, diosmin, indapamide, and cilostazol
6	Male	70	8	Scalp, face, trunk, abdomen, and upper limbs	Hypertension, dyslipidemia, smoker, alcoholism, recurrent urinary infection, stroke, and episode of psychosis	Hydrochlorothiazide, simvastatin, clopidogrel, nortriptyline, and amiodarone
7	Female	46	3	Axillary region, thighs, and feet	Chronic headache	Desogestrel, ethinyl estradiol, and metamizole
8	Female	88	5	Oral mucosae, chest, hands and feet, and inguinal region	Parkinson’s disease and dementia	Prolopa, domperidone, omeprazole, doxiciclin, and nicotinamide

Patient number	Histopathological features on skin biopsy	DIF	SSS IIF	Serum IgE (kU/mL)^a a Serum IgE normal range < 100kU/mL.	Anti-BP180 (U/mL)^b b Anti-BP180 and anti-BP230 autoantibodies: cut-off 9U/mL (ELISA, MBL, Japan).	Anti-BP230 (U/mL)^b b Anti-BP180 and anti-BP230 autoantibodies: cut-off 9U/mL (ELISA, MBL, Japan).	Immunoblot findings	HLA-DQ alleles
1	Subepidermal blister with eosinophils within the blister and in the upper dermis.	IgG and C3	IgG and C3	> 5000	128.9	137.9	BP180-NC16a domain	NA.
2	Epidermal detachment; inflammatory infiltrate with lymphocytes, neutrophils, and eosinophils in the upper dermis.	C3 and fibrinogen; IgG negative	IgG and C3	> 5000	2.3	4.6	BP180 C-terminal-domain and LAD-1	NA.
3	Epidermis exhibiting mild spongiosis. Discreet interstitial lymphocytic inflammatory infiltrate in the upper dermis.	Negative	IgG	782	5.3	1.7	None	NA.
4	Focus of epidermal detachment. Mild perivascular and interstitial inflammatory infiltrate with lymphocytes in the upper dermis.	IgG and C3	IgG and C3	> 5000	159.2	72.0	BP180-NC16a domain	DQA1* 01:02/02:01 DQB1* 02:02/06:02
5	N.A.	IgG and C3	IgG	252	107.3	4.5	BP180-NC16a, BP180 C-terminal-domain, and LAD-1	DQA1* 01:01/05:05 DQB1* 03:01/05:01
6	Subepidermal blister with fibrin, neutrophils, and lymphocytes. Moderate perianexial, perivascular and interstitial lymphocytic infiltrate in the upper dermis.	Negative	IgG	1286	4.4	68.1	BP230; BP180 C-terminal domain	DQA1* 01:02/02:01
7	Subepidermal blister; inflammatory infiltrate with numerous eosinophils and lymphocytes in the upper dermis.	NA.	IgG	7.1	98.4	1.0	BP180-NC16a, BP180 C-terminal domain, and LAD-1	DQB1* 02:02/06:02 DQA1* 05:05/05:05
8	Subepidermal vesicle with some eosinophils inside; necrotic keratinocytes in the floor of cleavage. Interstitial and perivascular inflammatory infiltrate with predominance of lymphocytes and eosinophils in the upper dermis.	Negative	IgG and C3	427	169.2	23.3	BP180-NC16a domain and LAD-1	DQB1* 03:01/03:01 DQA1* 01:03/05:05 DQB1* 03:01/06:03

Brasil