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A CREB-C/EBPbeta cascade induces M2 macrophage-specific gene expression and promotes muscle injury repair.

Macrophages play an essential role in the resolution of tissue damage through removal of necrotic cells, thus paving the way for tissue regeneration. Macrophages also directly support the formation of new tissue to replace the injury, through their acquisition of an anti-inflammatory, or M2, phenotype, characterized by a gene expression program that includes IL-10, the IL-13 receptor, and arginase 1. We report that deletion of two CREB-binding sites from the Cebpb promoter abrogates Cebpb induction upon macrophage activation. This blocks the downstream induction of M2-specific Msr1, Il10, II13ra, and Arg-1 genes, whereas the inflammatory (M1) genes Il1, Il6, Tnfa, and Il12 are not affected. Mice carrying the mutated Cebpb promoter (betaDeltaCre) remove necrotic tissue from injured muscle, but exhibit severe defects in muscle fiber regeneration. Conditional deletion of the Cebpb gene in muscle cells does not affect regeneration, showing that the C/EBPbeta cascade leading to muscle repair is muscle-extrinsic. While betaDeltaCre macrophages efficiently infiltrate injured muscle they fail to upregulate Cebpb, leading to decreased Arg-1 expression. CREB-mediated induction of Cebpb expression is therefore required in infiltrating macrophages for upregulation of M2-specific genes and muscle regeneration, providing a direct genetic link between these two processes.

Pubmed ID: 19805133

Authors

  • Ruffell D
  • Mourkioti F
  • Gambardella A
  • Kirstetter P
  • Lopez RG
  • Rosenthal N
  • Nerlov C

Journal

Proceedings of the National Academy of Sciences of the United States of America

Publication Data

October 13, 2009

Associated Grants

  • Agency: Medical Research Council, Id: G0701761

Mesh Terms

  • Animals
  • B-Lymphocytes
  • Binding Sites
  • Bone Marrow Cells
  • CCAAT-Enhancer-Binding Protein-beta
  • Cyclic AMP Response Element-Binding Protein
  • Gene Expression Regulation
  • Macrophages
  • Mice
  • Muscle, Skeletal
  • Promoter Regions, Genetic
  • Regeneration
  • Transcription Factors