Multiple genetic programs contribute to CD4 T cell memory differentiation and longevity by maintaining T cell quiescence

Nianbin Song; Srona Sengupta; Stanislav Khoruzhenko; Robin A. Welsh; Ae Ryon Kim; Mithra R. Kumar; Søren Ulrik Sønder; John William Sidhom; Hao Zhang; Chunfa Jie; Robert F. Siliciano; Scheherazade Sadegh-Nasseri

doi:10.1016/j.cellimm.2020.104210

Multiple genetic programs contribute to CD4 T cell memory differentiation and longevity by maintaining T cell quiescence

Nianbin Song, Srona Sengupta, Stanislav Khoruzhenko, Robin A. Welsh, Ae Ryon Kim, Mithra R. Kumar, Søren Ulrik Sønder, John William Sidhom, Hao Zhang, Chunfa Jie, Robert F. Siliciano, Scheherazade Sadegh-Nasseri

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

1 Scopus citations

Abstract

While memory T-cells represent a hallmark of adaptive immunity, little is known about the genetic mechanisms regulating the longevity of memory CD4 T cells. Here, we studied the dynamics of gene expression in antigen specific CD4 T cells during infection, memory differentiation, and long-term survival up to nearly a year in mice. We observed that differentiation into long lived memory cells is associated with increased expression of genes inhibiting cell proliferation and apoptosis as well as genes promoting DNA repair response, lipid metabolism, and insulin resistance. We identified several transmembrane proteins in long-lived murine memory CD4 T cells, which co-localized exclusively within the responding antigen-specific memory CD4 T cells in human. The unique gene signatures of long-lived memory CD4 T cells, along with the new markers that we have defined, will enable a deeper understanding of memory CD4 T cell biology and allow for designing novel vaccines and therapeutics.

Original language	English (US)
Article number	104210
Journal	Cellular Immunology
Volume	357
DOIs	https://doi.org/10.1016/j.cellimm.2020.104210
State	Published - Nov 2020

Keywords

CD4 T cell
Cell longevity
Gene
Genetic programs
Memory T cell
Memory cell markers

ASJC Scopus subject areas

Immunology

Access to Document

10.1016/j.cellimm.2020.104210

Cite this

Song, N., Sengupta, S., Khoruzhenko, S., Welsh, R. A., Kim, A. R., Kumar, M. R., Sønder, S. U., Sidhom, J. W., Zhang, H., Jie, C., Siliciano, R. F., & Sadegh-Nasseri, S. (2020). Multiple genetic programs contribute to CD4 T cell memory differentiation and longevity by maintaining T cell quiescence. Cellular Immunology, 357, Article 104210. https://doi.org/10.1016/j.cellimm.2020.104210

@article{3f56b23710d442aa940e87376d6bea10,

title = "Multiple genetic programs contribute to CD4 T cell memory differentiation and longevity by maintaining T cell quiescence",

abstract = "While memory T-cells represent a hallmark of adaptive immunity, little is known about the genetic mechanisms regulating the longevity of memory CD4 T cells. Here, we studied the dynamics of gene expression in antigen specific CD4 T cells during infection, memory differentiation, and long-term survival up to nearly a year in mice. We observed that differentiation into long lived memory cells is associated with increased expression of genes inhibiting cell proliferation and apoptosis as well as genes promoting DNA repair response, lipid metabolism, and insulin resistance. We identified several transmembrane proteins in long-lived murine memory CD4 T cells, which co-localized exclusively within the responding antigen-specific memory CD4 T cells in human. The unique gene signatures of long-lived memory CD4 T cells, along with the new markers that we have defined, will enable a deeper understanding of memory CD4 T cell biology and allow for designing novel vaccines and therapeutics.",

keywords = "CD4 T cell, Cell longevity, Gene, Genetic programs, Memory T cell, Memory cell markers",

author = "Nianbin Song and Srona Sengupta and Stanislav Khoruzhenko and Welsh, {Robin A.} and Kim, {Ae Ryon} and Kumar, {Mithra R.} and S{\o}nder, {S{\o}ren Ulrik} and Sidhom, {John William} and Hao Zhang and Chunfa Jie and Siliciano, {Robert F.} and Scheherazade Sadegh-Nasseri",

note = "Publisher Copyright: {\textcopyright} 2020",

year = "2020",

month = nov,

doi = "10.1016/j.cellimm.2020.104210",

language = "English (US)",

volume = "357",

journal = "Cellular Immunology",

issn = "0008-8749",

publisher = "Academic Press Inc.",

}

TY - JOUR

T1 - Multiple genetic programs contribute to CD4 T cell memory differentiation and longevity by maintaining T cell quiescence

AU - Song, Nianbin

AU - Sengupta, Srona

AU - Khoruzhenko, Stanislav

AU - Welsh, Robin A.

AU - Kim, Ae Ryon

AU - Kumar, Mithra R.

AU - Sønder, Søren Ulrik

AU - Sidhom, John William

AU - Zhang, Hao

AU - Jie, Chunfa

AU - Siliciano, Robert F.

AU - Sadegh-Nasseri, Scheherazade

PY - 2020/11

Y1 - 2020/11

N2 - While memory T-cells represent a hallmark of adaptive immunity, little is known about the genetic mechanisms regulating the longevity of memory CD4 T cells. Here, we studied the dynamics of gene expression in antigen specific CD4 T cells during infection, memory differentiation, and long-term survival up to nearly a year in mice. We observed that differentiation into long lived memory cells is associated with increased expression of genes inhibiting cell proliferation and apoptosis as well as genes promoting DNA repair response, lipid metabolism, and insulin resistance. We identified several transmembrane proteins in long-lived murine memory CD4 T cells, which co-localized exclusively within the responding antigen-specific memory CD4 T cells in human. The unique gene signatures of long-lived memory CD4 T cells, along with the new markers that we have defined, will enable a deeper understanding of memory CD4 T cell biology and allow for designing novel vaccines and therapeutics.

AB - While memory T-cells represent a hallmark of adaptive immunity, little is known about the genetic mechanisms regulating the longevity of memory CD4 T cells. Here, we studied the dynamics of gene expression in antigen specific CD4 T cells during infection, memory differentiation, and long-term survival up to nearly a year in mice. We observed that differentiation into long lived memory cells is associated with increased expression of genes inhibiting cell proliferation and apoptosis as well as genes promoting DNA repair response, lipid metabolism, and insulin resistance. We identified several transmembrane proteins in long-lived murine memory CD4 T cells, which co-localized exclusively within the responding antigen-specific memory CD4 T cells in human. The unique gene signatures of long-lived memory CD4 T cells, along with the new markers that we have defined, will enable a deeper understanding of memory CD4 T cell biology and allow for designing novel vaccines and therapeutics.

KW - CD4 T cell

KW - Cell longevity

KW - Gene

KW - Genetic programs

KW - Memory T cell

KW - Memory cell markers

UR - http://www.scopus.com/inward/record.url?scp=85091655576&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85091655576&partnerID=8YFLogxK

U2 - 10.1016/j.cellimm.2020.104210

DO - 10.1016/j.cellimm.2020.104210

M3 - Article

C2 - 32987276

AN - SCOPUS:85091655576

SN - 0008-8749

VL - 357

JO - Cellular Immunology

JF - Cellular Immunology

M1 - 104210

ER -

Multiple genetic programs contribute to CD4 T cell memory differentiation and longevity by maintaining T cell quiescence

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this