Peripherally induced human regulatory T cells uncouple Kv1.3 activation from TCR-associated signaling

Mary C. Reneer; Daniel J. Estes; Alejandra C. Vélez-Ortega; Andrea Norris; Michael Mayer; Francesc Marti

doi:10.1002/eji.201141492

Peripherally induced human regulatory T cells uncouple Kv1.3 activation from TCR-associated signaling

Mary C. Reneer, Daniel J. Estes, Alejandra C. Vélez-Ortega, Andrea Norris, Michael Mayer, Francesc Marti

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

13 Scopus citations

Abstract

Peripherally induced Tregs (iTregs) are being recognized as a functional and physiologically relevant T-cell subset. Understanding the molecular basis of their development is a necessary step before the therapeutic potential of iTreg manipulation can be exploited. In this study, we report that the differentiation of primary human T cells to suppressor iTregs involves the relocation of key proximal TCR signaling elements to the highly active IL-2-Receptor (IL-2-R) pathway. In addition to the recruitment of lymphocyte-specific protein tyrosine kinase (Lck) to the IL-2-R complex, we identified the dissociation of the voltage-gated K ⁺ channel Kv1.3 from the TCR pathway and its functional coupling to the IL-2-R. The regulatory switch of Kv1.3 activity in iTregs may constitute an important contributing factor in the signaling rewiring associated with the development of peripheral human iTregs and sheds new light upon the reciprocal crosstalk between the TCR and the IL-2-R pathways.

Original language	English
Pages (from-to)	3170-3175
Number of pages	6
Journal	European Journal of Immunology
Volume	41
Issue number	11
DOIs	https://doi.org/10.1002/eji.201141492
State	Published - Nov 2011

Funding

Funders	Funder number
National Center for Research Resources	P20RR020171

Keywords

Human Treg
IL-2 receptor pathway
Kv1.3 ion channel
Peripheral T-cell differentiation
T-cell signaling

ASJC Scopus subject areas

Immunology and Allergy
Immunology

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title = "Peripherally induced human regulatory T cells uncouple Kv1.3 activation from TCR-associated signaling",

abstract = "Peripherally induced Tregs (iTregs) are being recognized as a functional and physiologically relevant T-cell subset. Understanding the molecular basis of their development is a necessary step before the therapeutic potential of iTreg manipulation can be exploited. In this study, we report that the differentiation of primary human T cells to suppressor iTregs involves the relocation of key proximal TCR signaling elements to the highly active IL-2-Receptor (IL-2-R) pathway. In addition to the recruitment of lymphocyte-specific protein tyrosine kinase (Lck) to the IL-2-R complex, we identified the dissociation of the voltage-gated K + channel Kv1.3 from the TCR pathway and its functional coupling to the IL-2-R. The regulatory switch of Kv1.3 activity in iTregs may constitute an important contributing factor in the signaling rewiring associated with the development of peripheral human iTregs and sheds new light upon the reciprocal crosstalk between the TCR and the IL-2-R pathways.",

keywords = "Human Treg, IL-2 receptor pathway, Kv1.3 ion channel, Peripheral T-cell differentiation, T-cell signaling",

author = "Reneer, \{Mary C.\} and Estes, \{Daniel J.\} and V{\'e}lez-Ortega, \{Alejandra C.\} and Andrea Norris and Michael Mayer and Francesc Marti",

year = "2011",

month = nov,

doi = "10.1002/eji.201141492",

language = "English",

volume = "41",

pages = "3170--3175",

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T1 - Peripherally induced human regulatory T cells uncouple Kv1.3 activation from TCR-associated signaling

AU - Reneer, Mary C.

AU - Estes, Daniel J.

AU - Vélez-Ortega, Alejandra C.

AU - Norris, Andrea

AU - Mayer, Michael

AU - Marti, Francesc

PY - 2011/11

Y1 - 2011/11

N2 - Peripherally induced Tregs (iTregs) are being recognized as a functional and physiologically relevant T-cell subset. Understanding the molecular basis of their development is a necessary step before the therapeutic potential of iTreg manipulation can be exploited. In this study, we report that the differentiation of primary human T cells to suppressor iTregs involves the relocation of key proximal TCR signaling elements to the highly active IL-2-Receptor (IL-2-R) pathway. In addition to the recruitment of lymphocyte-specific protein tyrosine kinase (Lck) to the IL-2-R complex, we identified the dissociation of the voltage-gated K + channel Kv1.3 from the TCR pathway and its functional coupling to the IL-2-R. The regulatory switch of Kv1.3 activity in iTregs may constitute an important contributing factor in the signaling rewiring associated with the development of peripheral human iTregs and sheds new light upon the reciprocal crosstalk between the TCR and the IL-2-R pathways.

AB - Peripherally induced Tregs (iTregs) are being recognized as a functional and physiologically relevant T-cell subset. Understanding the molecular basis of their development is a necessary step before the therapeutic potential of iTreg manipulation can be exploited. In this study, we report that the differentiation of primary human T cells to suppressor iTregs involves the relocation of key proximal TCR signaling elements to the highly active IL-2-Receptor (IL-2-R) pathway. In addition to the recruitment of lymphocyte-specific protein tyrosine kinase (Lck) to the IL-2-R complex, we identified the dissociation of the voltage-gated K + channel Kv1.3 from the TCR pathway and its functional coupling to the IL-2-R. The regulatory switch of Kv1.3 activity in iTregs may constitute an important contributing factor in the signaling rewiring associated with the development of peripheral human iTregs and sheds new light upon the reciprocal crosstalk between the TCR and the IL-2-R pathways.

KW - Human Treg

KW - IL-2 receptor pathway

KW - Kv1.3 ion channel

KW - Peripheral T-cell differentiation

KW - T-cell signaling

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AN - SCOPUS:80054929796

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JO - European Journal of Immunology

JF - European Journal of Immunology

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ER -

Peripherally induced human regulatory T cells uncouple Kv1.3 activation from TCR-associated signaling

Abstract

Funding

Keywords

ASJC Scopus subject areas

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