Combined immunodeficiency due to a mutation in the γ1 subunit of the coat protein I complex

Wayne Bainter; Craig D. Platt; Seung Yeol Park; Kelsey Stafstrom; Jacqueline G. Wallace; Zachary T. Peters; Michel J. Massaad; Michel Becuwe; Sandra Andrea Salinas; Jennifer Jones; Sarah Beaussant-Cohen; Faris Jaber; Jia Shu Yang; Tobias C. Walther; Jordan S. Orange; Chitong Rao; Seth Rakoff-Nahoum; Maria Tsokos; Shafiq Ur Rehman Naseem; Salem Al-Tamemi; Janet Chou; Victor W. Hsu; Raif S. Geha

doi:10.1172/JCI140494

Combined immunodeficiency due to a mutation in the γ1 subunit of the coat protein I complex

Wayne Bainter, Craig D. Platt, Seung Yeol Park, Kelsey Stafstrom, Jacqueline G. Wallace, Zachary T. Peters, Michel J. Massaad, Michel Becuwe, Sandra Andrea Salinas, Jennifer Jones, Sarah Beaussant-Cohen, Faris Jaber, Jia Shu Yang, Tobias C. Walther, Jordan S. Orange, Chitong Rao, Seth Rakoff-Nahoum, Maria Tsokos, Shafiq Ur Rehman Naseem, Salem Al-TamemiJanet Chou, Victor W. Hsu, Raif S. Geha^*

^*Corresponding author for this work

Child Health

Research output: Contribution to journal › Article › peer-review

13 Citations (Scopus)

Abstract

The coat protein I (COPI) complex mediates retrograde trafficking from the Golgi to the endoplasmic reticulum (ER). Five siblings with persistent bacterial and viral infections and defective humoral and cellular immunity had a homozygous p.K652E mutation in the γ1 subunit of COPI (γ1-COP). The mutation disrupts COPI binding to the KDEL receptor and impairs the retrieval of KDEL-bearing chaperones from the Golgi to the ER. Homozygous Copg1K652E mice had increased ER stress in activated T and B cells, poor antibody responses, and normal numbers of T cells that proliferated normally, but underwent increased apoptosis upon activation. Exposure of the mutants to pet store mice caused weight loss, lymphopenia, and defective T cell proliferation that recapitulated the findings in the patients. The ER stress-relieving agent tauroursodeoxycholic acid corrected the immune defects of the mutants and reversed the phenotype they acquired following exposure to pet store mice. This study establishes the role of γ1-COP in the ER retrieval of KDEL-bearing chaperones and thereby the importance of ER homeostasis in adaptive immunity.

Original language	English
Article number	e140494
Journal	Journal of Clinical Investigation
Volume	131
Issue number	3
DOIs	https://doi.org/10.1172/JCI140494
Publication status	Published - Feb 1 2021

ASJC Scopus subject areas

General Medicine

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Bainter, W., Platt, C. D., Park, S. Y., Stafstrom, K., Wallace, J. G., Peters, Z. T., Massaad, M. J., Becuwe, M., Salinas, S. A., Jones, J., Beaussant-Cohen, S., Jaber, F., Yang, J. S., Walther, T. C., Orange, J. S., Rao, C., Rakoff-Nahoum, S., Tsokos, M., Naseem, S. U. R., ... Geha, R. S. (2021). Combined immunodeficiency due to a mutation in the γ1 subunit of the coat protein I complex. Journal of Clinical Investigation, 131(3), Article e140494. https://doi.org/10.1172/JCI140494

Bainter, W, Platt, CD, Park, SY, Stafstrom, K, Wallace, JG, Peters, ZT, Massaad, MJ, Becuwe, M, Salinas, SA, Jones, J, Beaussant-Cohen, S, Jaber, F, Yang, JS, Walther, TC, Orange, JS, Rao, C, Rakoff-Nahoum, S, Tsokos, M, Naseem, SUR, Al-Tamemi, S, Chou, J, Hsu, VW & Geha, RS 2021, 'Combined immunodeficiency due to a mutation in the γ1 subunit of the coat protein I complex', Journal of Clinical Investigation, vol. 131, no. 3, e140494. https://doi.org/10.1172/JCI140494

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title = "Combined immunodeficiency due to a mutation in the γ1 subunit of the coat protein I complex",

abstract = "The coat protein I (COPI) complex mediates retrograde trafficking from the Golgi to the endoplasmic reticulum (ER). Five siblings with persistent bacterial and viral infections and defective humoral and cellular immunity had a homozygous p.K652E mutation in the γ1 subunit of COPI (γ1-COP). The mutation disrupts COPI binding to the KDEL receptor and impairs the retrieval of KDEL-bearing chaperones from the Golgi to the ER. Homozygous Copg1K652E mice had increased ER stress in activated T and B cells, poor antibody responses, and normal numbers of T cells that proliferated normally, but underwent increased apoptosis upon activation. Exposure of the mutants to pet store mice caused weight loss, lymphopenia, and defective T cell proliferation that recapitulated the findings in the patients. The ER stress-relieving agent tauroursodeoxycholic acid corrected the immune defects of the mutants and reversed the phenotype they acquired following exposure to pet store mice. This study establishes the role of γ1-COP in the ER retrieval of KDEL-bearing chaperones and thereby the importance of ER homeostasis in adaptive immunity.",

author = "Wayne Bainter and Platt, {Craig D.} and Park, {Seung Yeol} and Kelsey Stafstrom and Wallace, {Jacqueline G.} and Peters, {Zachary T.} and Massaad, {Michel J.} and Michel Becuwe and Salinas, {Sandra Andrea} and Jennifer Jones and Sarah Beaussant-Cohen and Faris Jaber and Yang, {Jia Shu} and Walther, {Tobias C.} and Orange, {Jordan S.} and Chitong Rao and Seth Rakoff-Nahoum and Maria Tsokos and Naseem, {Shafiq Ur Rehman} and Salem Al-Tamemi and Janet Chou and Hsu, {Victor W.} and Geha, {Raif S.}",

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doi = "10.1172/JCI140494",

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AU - Bainter, Wayne

AU - Platt, Craig D.

AU - Park, Seung Yeol

AU - Stafstrom, Kelsey

AU - Wallace, Jacqueline G.

AU - Peters, Zachary T.

AU - Massaad, Michel J.

AU - Becuwe, Michel

AU - Salinas, Sandra Andrea

AU - Jones, Jennifer

AU - Beaussant-Cohen, Sarah

AU - Jaber, Faris

AU - Yang, Jia Shu

AU - Walther, Tobias C.

AU - Orange, Jordan S.

AU - Rao, Chitong

AU - Rakoff-Nahoum, Seth

AU - Tsokos, Maria

AU - Naseem, Shafiq Ur Rehman

AU - Al-Tamemi, Salem

AU - Chou, Janet

AU - Hsu, Victor W.

AU - Geha, Raif S.

PY - 2021/2/1

Y1 - 2021/2/1

N2 - The coat protein I (COPI) complex mediates retrograde trafficking from the Golgi to the endoplasmic reticulum (ER). Five siblings with persistent bacterial and viral infections and defective humoral and cellular immunity had a homozygous p.K652E mutation in the γ1 subunit of COPI (γ1-COP). The mutation disrupts COPI binding to the KDEL receptor and impairs the retrieval of KDEL-bearing chaperones from the Golgi to the ER. Homozygous Copg1K652E mice had increased ER stress in activated T and B cells, poor antibody responses, and normal numbers of T cells that proliferated normally, but underwent increased apoptosis upon activation. Exposure of the mutants to pet store mice caused weight loss, lymphopenia, and defective T cell proliferation that recapitulated the findings in the patients. The ER stress-relieving agent tauroursodeoxycholic acid corrected the immune defects of the mutants and reversed the phenotype they acquired following exposure to pet store mice. This study establishes the role of γ1-COP in the ER retrieval of KDEL-bearing chaperones and thereby the importance of ER homeostasis in adaptive immunity.

AB - The coat protein I (COPI) complex mediates retrograde trafficking from the Golgi to the endoplasmic reticulum (ER). Five siblings with persistent bacterial and viral infections and defective humoral and cellular immunity had a homozygous p.K652E mutation in the γ1 subunit of COPI (γ1-COP). The mutation disrupts COPI binding to the KDEL receptor and impairs the retrieval of KDEL-bearing chaperones from the Golgi to the ER. Homozygous Copg1K652E mice had increased ER stress in activated T and B cells, poor antibody responses, and normal numbers of T cells that proliferated normally, but underwent increased apoptosis upon activation. Exposure of the mutants to pet store mice caused weight loss, lymphopenia, and defective T cell proliferation that recapitulated the findings in the patients. The ER stress-relieving agent tauroursodeoxycholic acid corrected the immune defects of the mutants and reversed the phenotype they acquired following exposure to pet store mice. This study establishes the role of γ1-COP in the ER retrieval of KDEL-bearing chaperones and thereby the importance of ER homeostasis in adaptive immunity.

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Combined immunodeficiency due to a mutation in the γ1 subunit of the coat protein I complex

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