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Transcriptional Mechanisms Underlying Lymphocyte Tolerance

Overview
Journal Cell
Publisher Cell Press
Specialty Cell Biology
Date 2002 Jun 28
PMID 12086671
Citations 301
Authors
Fernando Macian
Francisco Garcia-Cozar
Sin-Hyeog Im
Heidi F Horton
Michael C Byrne
Anjana Rao
Affiliations
Soon will be listed here.
Abstract

In lymphocytes, integration of Ca2+ and other signaling pathways results in productive activation, while unopposed Ca2+ signaling leads to tolerance or anergy. We show that the Ca2+-regulated transcription factor NFAT has an integral role in both aspects of lymphocyte function. Ca2+/calcineurin signaling induces a limited set of anergy-associated genes, distinct from genes induced in the productive immune response; these genes are upregulated in vivo in tolerant T cells and are largely NFAT dependent. T cells lacking NFAT1 are resistant to anergy induction; conversely, NFAT1 induces T cell anergy if prevented from interacting with its transcriptional partner AP-1 (Fos/Jun). Thus, in the absence of AP-1, NFAT imposes a genetic program of lymphocyte anergy that counters the program of productive activation mediated by the cooperative NFAT:AP-1 complex.

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