[PDF][PDF] Foxp3-dependent microRNA155 confers competitive fitness to regulatory T cells by targeting SOCS1 protein

LF Lu, TH Thai, DP Calado, A Chaudhry, M Kubo… - Immunity, 2009 - cell.com
LF Lu, TH Thai, DP Calado, A Chaudhry, M Kubo, K Tanaka, GB Loeb, H Lee, A Yoshimura
Immunity, 2009cell.com
Summary Foxp3+ regulatory T (Treg) cells limit pathogenic immune responses to self-
antigens and foreign antigens. An essential role for microRNA (miRNA) in the maintenance
and function of Treg cells, revealed by the Treg cell-specific Dicer ablation, raised a question
as to a specific miRNA contribution. We found that Foxp3 controlled the elevated miR155
expression required for maintaining Treg cell proliferative activity and numbers under
nonlymphopenic conditions. Moreover, miR155 deficiency in Treg cells resulted in …
Summary
Foxp3+ regulatory T (Treg) cells limit pathogenic immune responses to self-antigens and foreign antigens. An essential role for microRNA (miRNA) in the maintenance and function of Treg cells, revealed by the Treg cell-specific Dicer ablation, raised a question as to a specific miRNA contribution. We found that Foxp3 controlled the elevated miR155 expression required for maintaining Treg cell proliferative activity and numbers under nonlymphopenic conditions. Moreover, miR155 deficiency in Treg cells resulted in increased suppressor of cytokine signaling 1 (SOCS1) expression accompanied by impaired activation of signal transducer and activator of transcription 5 (STAT5) transcription factor in response to limiting amounts of interleukin-2. Our studies suggest that Foxp3-dependent regulation of miR155 maintains competitive fitness of Treg cell subsets by targeting SOCS1, and they provide experimental support for a proposed role for miRNAs in ensuring the robustness of cellular phenotypes.
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