Frontiers in Immunology (Nov 2019)

Polymorphisms in the Mitochondrial Genome Are Associated With Bullous Pemphigoid in Germans

  • Juliane Russlies,
  • Anke Fähnrich,
  • Anke Fähnrich,
  • Mareike Witte,
  • Mareike Witte,
  • Junping Yin,
  • Sandrine Benoit,
  • Sandrine Benoit,
  • Regine Gläser,
  • Regine Gläser,
  • Claudia Günter,
  • Claudia Günter,
  • Rüdiger Eming,
  • Rüdiger Eming,
  • Jeanette Erdmann,
  • Damian Gola,
  • Yask Gupta,
  • Maike Marleen Holtsche,
  • Johannes S. Kern,
  • Johannes S. Kern,
  • Johannes S. Kern,
  • Inke R. König,
  • Dimitra Kiritsi,
  • Dimitra Kiritsi,
  • Wolfgang Lieb,
  • Wolfgang Lieb,
  • Christian D. Sadik,
  • Miklós Sárdy,
  • Miklós Sárdy,
  • Miklós Sárdy,
  • Franziska Schauer,
  • Franziska Schauer,
  • Nina van Beek,
  • Anke Weidinger,
  • Anke Weidinger,
  • Margitta Worm,
  • Margitta Worm,
  • Detlef Zillikens,
  • Detlef Zillikens,
  • Enno Schmidt,
  • Enno Schmidt,
  • Enno Schmidt,
  • Hauke Busch,
  • Hauke Busch,
  • Saleh M. Ibrahim,
  • Saleh M. Ibrahim,
  • Misa Hirose

DOI
https://doi.org/10.3389/fimmu.2019.02200
Journal volume & issue
Vol. 10

Abstract

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Bullous pemphigoid (BP) is the most prevalent autoimmune skin blistering disease and is characterized by the generation of autoantibodies against the hemidesmosomal proteins BP180 (type XVII collagen) and BP230. Most intriguingly, BP is distinct from other autoimmune diseases because it predominantly affects elderly individuals above the age of 75 years, raising the question why autoantibodies and the clinical lesions of BP emerges mostly in this later stage of life, even in individuals harboring known putative BP-associated germline gene variants. The mitochondrial genome (mtDNA) is a potential candidate to provide additional insights into the BP etiology; however, the mtDNA has not been extensively explored to date. Therefore, we sequenced the whole mtDNA of German BP patients (n = 180) and age- and sex-matched healthy controls (n = 188) using next generation sequencing (NGS) technology, followed by the replication study using Sanger sequencing of an additional independent BP (n = 89) and control cohort (n = 104). While the BP and control groups showed comparable mitochondrial haplogroup distributions, the haplogroup T exhibited a tendency of higher frequency in BP patients suffering from neurodegenerative diseases (ND) compared to BP patients without ND (50%; 3 in 6 BP with haplogroup T). A total of four single nucleotide polymorphisms (SNPs) in the mtDNA, namely, m.16263T>C, m.16051A>G, and m.16162A>G in the D-loop region of the mtDNA, and m.11914G>A in the mitochondrially encoded NADH:ubiquinone oxidoreductase core subunit 4 gene (MT-ND4), were found to be significantly associated with BP based on the meta-analysis of our NGS data and the Sanger sequencing data (p = 0.0017, p = 0.0129, p = 0.0076, and p = 0.0132, respectively, Peto's test). More specifically, the three SNPs in the D-loop region were negatively, and the SNP in the MT-ND4 gene was positively associated with BP. Our study is the first to interrogate the whole mtDNA in BP patients and controls and to implicate multiple novel mtDNA variants in disease susceptibility. Studies using larger cohorts and more diverse populations are warranted to explore the functional consequences of the mtDNA variants identified in this study on immune and skin cells to understand their contributions to BP pathology.

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