@article{a8ea8af80d8348ba96a14c5023957b2e,
title = "IgG4-related disease: Association with a rare gene variant expressed in cytotoxic T cells",
abstract = "Background: Family screening of a 48-year-old male with recently diagnosed IgG4-related disease (IgG4-RD) revealed unanticipated elevations in plasma IgG4 in his two healthy teenaged sons. Methods: We performed gene sequencing, immune cell studies, HLA typing, and analyses of circulating cytotoxic CD4+ T lymphocytes and plasmablasts to seek clues to pathogenesis. DNA from a separate cohort of 99 patients with known IgG4-RD was also sequenced for the presence of genetic variants in a specific gene, FGFBP2. Results: The three share a previously unreported heterozygous single base deletion in fibroblast growth factor binding protein type 2 (FGFBP2), which causes a frameshift in the coding sequence. The FGFBP2 protein is secreted by cytotoxic T-lymphocytes and binds fibroblast growth factor. The variant sequence in the FGFBP2 protein is predicted to form a disordered random coil rather than a helical-turn-helix structure, unable to adopt a stable conformation. The proband and the two sons had 5–10-fold higher numbers of circulating cytotoxic CD4 + T cells and plasmablasts compared to matched controls. The three members also share a homozygous missense common variant in FGFBP2 found in heterozygous form in ~40% of the population. This common variant was found in 73% of an independent, well characterized IgG4-RD cohort, showing enrichment in idiopathic IgG4-RD. Conclusions: The presence of a shared deleterious variant and homozygous common variant in FGFBP2 in the proband and sons strongly implicates this cytotoxic T cell product in the pathophysiology of IgG4-RD. The high prevalence of a common FGFBP2 variant in sporadic IgG4-RD supports the likelihood of participation in disease.",
keywords = "IgG4-RD, cytotoxic lymphocytes, heritable",
author = "{Undiagnosed Disease Network} and Newman, {John H.} and Aaron Shaver and Sheehan, {Jonathan H.} and Simon Mallal and Stone, {John H.} and Shiv Pillai and Lisa Bastarache and Derek Riebau and Hugues Allard-Chamard and Stone, {William M.} and Cory Perugino and Mark Pilkinton and Smith, {Scott A.} and McDonnell, {Wyatt J.} and Capra, {John A.} and Jens Meiler and Joy Cogan and Kelly Xing and Mahajan, {Vinay S.} and Hamid Mattoo and Rizwan Hamid and Phillips, {John A.} and Adams, {David R.} and Aaron Aday and Alejandro, {Mercedes E.} and Patrick Allard and Ashley, {Euan A.} and Azamian, {Mahshid S.} and Bacino, {Carlos A.} and Ashok Balasubramanyam and Hayk Barseghyan and Batzli, {Gabriel F.} and Beggs, {Alan H.} and Babak Behnam and Bellen, {Hugo J.} and Bernstein, {Jonathan A.} and Anna Bican and Bick, {David P.} and Birch, {Camille L.} and Devon Bonner and Boone, {Braden E.} and Bostwick, {Bret L.} and Briere, {Lauren C.} and Brown, {Donna M.} and Matthew Brush and Burke, {Elizabeth A.} and Burrage, {Lindsay C.} and Butte, {Manish J.} and Melissa Haendel and Koeller, {David M.}",
note = "Funding Information: This work was supported by NIH/NHGRI 5 U01 HG 007674‐05 (Phillips, Newman, Hamid and Cogan) 07/01/14 ‐ 03/31/18. Vanderbilt Center for Undiagnosed Diseases (VCUD); NIH CTSA Grant (RR024975‐01/ TR000445‐06); NIH/NIAID U19 AI110495 (Pillai); NIH AI113163 (Mahajan); NIH T32AR007258 (Perugino). Funding Information: Funding information This work was supported by NIH/NHGRI 5 U01 HG 007674-05 (Phillips, Newman, Hamid and Cogan) 07/01/14 - 03/31/18. Vanderbilt Center for Undiagnosed Diseases (VCUD); NIH CTSA Grant (RR024975-01/TR000445-06); NIH/NIAID U19 AI110495 (Pillai); NIH AI113163 (Mahajan); NIH T32AR007258 (Perugino). Publisher Copyright: {\textcopyright} 2019 The Authors. Molecular Genetics & Genomic Medicine published by Wiley Periodicals, Inc.",
year = "2019",
month = jun,
doi = "10.1002/mgg3.686",
language = "English (US)",
volume = "7",
journal = "Molecular genetics & genomic medicine",
issn = "2324-9269",
publisher = "John Wiley and Sons Inc.",
number = "6",
}