The transcriptional regulators Id2 and Id3 control the formation of distinct memory CD8 + T cell subsets

Cliff Y. Yang; J. Adam Best; Jamie Knell; Edward Yang; Alison D. Sheridan; Adam K. Jesionek; Haiyan S. Li; Richard R. Rivera; Kristin Camfield Lind; Louise M. D'Cruz; Stephanie S. Watowich; Cornelis Murre; Ananda W. Goldrath

doi:10.1038/ni.2158

The transcriptional regulators Id2 and Id3 control the formation of distinct memory CD8 ⁺ T cell subsets

Cliff Y. Yang, J. Adam Best, Jamie Knell, Edward Yang, Alison D. Sheridan, Adam K. Jesionek, Haiyan S. Li, Richard R. Rivera, Kristin Camfield Lind, Louise M. D'Cruz, Stephanie S. Watowich, Cornelis Murre, Ananda W. Goldrath

Immunology

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

323 Scopus citations

Abstract

During infection, naive CD8 ⁺ T cells differentiate into effector cells, which are armed to eliminate pathogens, and memory cells, which are poised to protect against reinfection. The transcriptional program that regulates terminal differentiation into short-lived effector-memory versus long-lived memory cells is not clearly defined. Through the use of mice expressing reporters for the DNA-binding inhibitors Id2 and Id3, we identified Id3 hi precursors of long-lived memory cells before the peak of T cell population expansion or upregulation of cell-surface receptors that indicate memory potential. Deficiency in Id2 or Id3 resulted in loss of distinct CD8 ⁺ effector and memory populations, which demonstrated unique roles for these inhibitors of E-protein transcription factors. Furthermore, cytokines altered the expression of Id2 and Id3 differently, which provides insight into how external cues influence gene expression.

Original language	English (US)
Pages (from-to)	1221-1229
Number of pages	9
Journal	Nature Immunology
Volume	12
Issue number	12
DOIs	https://doi.org/10.1038/ni.2158
State	Published - Dec 2011

ASJC Scopus subject areas

Immunology and Allergy
Immunology

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10.1038/ni.2158

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title = "The transcriptional regulators Id2 and Id3 control the formation of distinct memory CD8 + T cell subsets",

abstract = "During infection, naive CD8 + T cells differentiate into effector cells, which are armed to eliminate pathogens, and memory cells, which are poised to protect against reinfection. The transcriptional program that regulates terminal differentiation into short-lived effector-memory versus long-lived memory cells is not clearly defined. Through the use of mice expressing reporters for the DNA-binding inhibitors Id2 and Id3, we identified Id3 hi precursors of long-lived memory cells before the peak of T cell population expansion or upregulation of cell-surface receptors that indicate memory potential. Deficiency in Id2 or Id3 resulted in loss of distinct CD8 + effector and memory populations, which demonstrated unique roles for these inhibitors of E-protein transcription factors. Furthermore, cytokines altered the expression of Id2 and Id3 differently, which provides insight into how external cues influence gene expression.",

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note = "Funding Information: We thank G. Barton, J. Hamerman, S. Turley, A. Fletcher, M. Rubinstein and members of the Goldrath laboratory for advice and critical review of the manuscript; and L. Shaw for help with figure design. Supported by the Cancer Research Institute, Pew Charitable Trust, the US National Institutes of Health (AI067545 and AI072117 to A.W.G.; and AI073587 to S.S.W.), University of California San Diego (Cellular and Molecular Genetics Training Grant to C.Y.Y.) and the R.E. Bob Smith Education Fund (H.S.L.).",

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AU - Murre, Cornelis

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The transcriptional regulators Id2 and Id3 control the formation of distinct memory CD8 ⁺ T cell subsets

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