Na+ influx via Orai1 inhibits intracellular ATP-induced mTORC2 signaling to disrupt CD4 T cell gene expression and differentiation

Na+ influx via Orai1 inhibits intracellular ATP-induced mTORC2 signaling to disrupt CD4 T cell gene expression and differentiation

T cell effector functions require sustained calcium influx. However, the signaling and phenotypic consequences of non-specific sodium permeation via calcium channels remain unknown. α-SNAP is a crucial component of Orai1 channels, and its depletion disrupts the functional assembly of Orai1 multimers...

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Main Authors: Yong Miao, Jaya Bhushan, Adish Dani, Monika Vig
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2017-05-01
Series:eLife
Subjects:
sodium influx
Orai
ATP
Foxp3 T cell
calcium channel
mTORC
Online Access:https://elifesciences.org/articles/25155
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spelling doaj-c6926f39aa774476ab912171537397af2021-05-05T13:28:07ZengeLife Sciences Publications LtdeLife2050-084X2017-05-01610.7554/eLife.25155Na+ influx via Orai1 inhibits intracellular ATP-induced mTORC2 signaling to disrupt CD4 T cell gene expression and differentiationYong Miao0https://orcid.org/0000-0003-2614-1445Jaya Bhushan1Adish Dani2https://orcid.org/0000-0002-5491-7709Monika Vig3https://orcid.org/0000-0002-4770-8853Department of Pathology and Immunology, Washington University School of Medicine, St Louis, United StatesDepartment of Pathology and Immunology, Washington University School of Medicine, St Louis, United StatesDepartment of Pathology and Immunology, Washington University School of Medicine, St Louis, United States; Hope Center for Neurological Disorders, Washington University School of Medicine, St Louis, United StatesDepartment of Pathology and Immunology, Washington University School of Medicine, St Louis, United StatesT cell effector functions require sustained calcium influx. However, the signaling and phenotypic consequences of non-specific sodium permeation via calcium channels remain unknown. α-SNAP is a crucial component of Orai1 channels, and its depletion disrupts the functional assembly of Orai1 multimers. Here we show that α-SNAP hypomorph, hydrocephalus with hopping gait, Napahyh/hyh mice harbor significant defects in CD4 T cell gene expression and Foxp3 regulatory T cell (Treg) differentiation. Mechanistically, TCR stimulation induced rapid sodium influx in Napahyh/hyh CD4 T cells, which reduced intracellular ATP, [ATP]i. Depletion of [ATP]i inhibited mTORC2 dependent NFκB activation in Napahyh/hyh cells but ablation of Orai1 restored it. Remarkably, TCR stimulation in the presence of monensin phenocopied the defects in Napahyh/hyh signaling and Treg differentiation, but not IL-2 expression. Thus, non-specific sodium influx via bonafide calcium channels disrupts unexpected signaling nodes and may provide mechanistic insights into some divergent phenotypes associated with Orai1 function.https://elifesciences.org/articles/25155sodium influxOraiATPFoxp3 T cellcalcium channelmTORC
collection DOAJ
language English
format Article
sources DOAJ
author Yong Miao
Jaya Bhushan
Adish Dani
Monika Vig
spellingShingle Yong Miao
Jaya Bhushan
Adish Dani
Monika Vig
Na+ influx via Orai1 inhibits intracellular ATP-induced mTORC2 signaling to disrupt CD4 T cell gene expression and differentiation
eLife
sodium influx
Orai
ATP
Foxp3 T cell
calcium channel
mTORC
author_facet Yong Miao
Jaya Bhushan
Adish Dani
Monika Vig
author_sort Yong Miao
title Na+ influx via Orai1 inhibits intracellular ATP-induced mTORC2 signaling to disrupt CD4 T cell gene expression and differentiation
title_short Na+ influx via Orai1 inhibits intracellular ATP-induced mTORC2 signaling to disrupt CD4 T cell gene expression and differentiation
title_full Na+ influx via Orai1 inhibits intracellular ATP-induced mTORC2 signaling to disrupt CD4 T cell gene expression and differentiation
title_fullStr Na+ influx via Orai1 inhibits intracellular ATP-induced mTORC2 signaling to disrupt CD4 T cell gene expression and differentiation
title_full_unstemmed Na+ influx via Orai1 inhibits intracellular ATP-induced mTORC2 signaling to disrupt CD4 T cell gene expression and differentiation
title_sort na+ influx via orai1 inhibits intracellular atp-induced mtorc2 signaling to disrupt cd4 t cell gene expression and differentiation
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2017-05-01
description T cell effector functions require sustained calcium influx. However, the signaling and phenotypic consequences of non-specific sodium permeation via calcium channels remain unknown. α-SNAP is a crucial component of Orai1 channels, and its depletion disrupts the functional assembly of Orai1 multimers. Here we show that α-SNAP hypomorph, hydrocephalus with hopping gait, Napahyh/hyh mice harbor significant defects in CD4 T cell gene expression and Foxp3 regulatory T cell (Treg) differentiation. Mechanistically, TCR stimulation induced rapid sodium influx in Napahyh/hyh CD4 T cells, which reduced intracellular ATP, [ATP]i. Depletion of [ATP]i inhibited mTORC2 dependent NFκB activation in Napahyh/hyh cells but ablation of Orai1 restored it. Remarkably, TCR stimulation in the presence of monensin phenocopied the defects in Napahyh/hyh signaling and Treg differentiation, but not IL-2 expression. Thus, non-specific sodium influx via bonafide calcium channels disrupts unexpected signaling nodes and may provide mechanistic insights into some divergent phenotypes associated with Orai1 function.
topic sodium influx
Orai
ATP
Foxp3 T cell
calcium channel
mTORC
url https://elifesciences.org/articles/25155
work_keys_str_mv AT yongmiao nainfluxviaorai1inhibitsintracellularatpinducedmtorc2signalingtodisruptcd4tcellgeneexpressionanddifferentiation
AT jayabhushan nainfluxviaorai1inhibitsintracellularatpinducedmtorc2signalingtodisruptcd4tcellgeneexpressionanddifferentiation
AT adishdani nainfluxviaorai1inhibitsintracellularatpinducedmtorc2signalingtodisruptcd4tcellgeneexpressionanddifferentiation
AT monikavig nainfluxviaorai1inhibitsintracellularatpinducedmtorc2signalingtodisruptcd4tcellgeneexpressionanddifferentiation
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