ER-to-Golgi transport and SEC23-dependent COPII vesicles regulate T cell alloimmunity
Stephanie Kim, … , David Ginsburg, Pavan Reddy
Stephanie Kim, … , David Ginsburg, Pavan Reddy
Published January 19, 2021
Citation Information: J Clin Invest. 2021;131(2):e136574. https://doi.org/10.1172/JCI136574.
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Research Article Cell biology Immunology

ER-to-Golgi transport and SEC23-dependent COPII vesicles regulate T cell alloimmunity

Abstract

T cell–mediated responses are dependent on their secretion of key effector molecules. However, the critical molecular determinants of the secretion of these proteins are largely undefined. Here, we demonstrate that T cell activation increases trafficking via the ER-to-Golgi pathway. To study the functional role of this pathway, we generated mice with a T cell–specific deletion in SEC23B, a core subunit of coat protein complex II (COPII). We found that SEC23B critically regulated the T cell secretome following activation. SEC23B-deficient T cells exhibited a proliferative defect and reduced effector functions in vitro, as well as in experimental models of allogeneic and xenogeneic hematopoietic cell transplantation in vivo. However, T cells derived from 3 patients with congenital dyserythropoietic anemia II (CDAII), which results from Sec23b mutation, did not exhibit a similar phenotype. Mechanistic studies demonstrated that unlike murine KO T cells, T cells from patients with CDAII harbor increased levels of the closely related paralog, SEC23A. In vivo rescue of murine KO by expression of Sec23a from the Sec23b genomic locus restored T cell functions. Together, our data demonstrate a critical role for the COPII pathway, with evidence for functional overlap in vivo between SEC23 paralogs in the regulation of T cell immunity in both mice and humans.

Authors

Stephanie Kim, Rami Khoriaty, Lu Li, Madison McClune, Theodosia A. Kalfa, Julia Wu, Daniel Peltier, Hideaki Fujiwara, Yaping Sun, Katherine Oravecz-Wilson, Richard A. King, David Ginsburg, Pavan Reddy

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Figure 3

Deficiency of SEC23B-dependent COPII leads to accumulation of secreted proteins.

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Deficiency of SEC23B-dependent COPII leads to accumulation of secreted p...
(A) Histograms based on flow cytometry of surface TCR-β on Sec23bfl/– and Sec23bfl/– Cd4Cre T cells relative to isotype levels present on naive unstimulated WT T cells. (B) Flow cytometry of phosphorylated ZAP70 and ERK1/2 molecules in Sec23bfl/– and Sec23bfl/– Cd4Cre T cells that received no stimulation or stimulation with αCD3 and αCD28 for 30 minutes. (C) Flow cytometry of surface CD69 present on Sec23bfl/– and Sec23bfl/– Cd4Cre T cells stimulated with αCD3 and αCD28 for 6 h compared with isotype levels present on naive unstimulated WT T cells. Flow cytometric data are representative of 3 replicate experiments. (D) qRT-PCR analysis of IL-2 in SEC23B-deficient T cells compared with WT following stimulation with αCD3 and αCD28 for 4 days (n = 5/group). (E) Flow cytometry measuring intracellular IL-2 levels in T cells after stimulation by αCD3 and αCD28 for 3 days followed by 5 hours of stimulation with PMA and ionomycin in the presence or absence of BFA (n = 6/group). (F) Immunofluorescence confocal micrographs of SEC23B (green) and IL-2 (pink) in WT or SEC23B-deficient T cells after 3 days of αCD3 and αCD28 stimulation, and 5 hours of PMA and ionomycin stimulation with or without BFA. (D) Data represent mean ± SEM, and significance was determined by 2-tailed unpaired Student’s t test. (E) Statistical significance was determined by 1-way ANOVA and post hoc Tukey’s test; *P < 0.05, ***P < 0.001. Scale bars: 10 μM.