MicroRNAs are abundant in animal genomes and have been predicted to have important roles in a broad range of gene expression programmes(1,2). Despite this prominence, there is a dearth of functional knowledge regarding individual mammalian microRNAs. Using a loss- of- function allele in mice, we report here that the myeloid- specific microRNA- 223 ( miR- 223) negatively regulates progenitor proliferation and granulocyte differentiation and activation. miR- 223 ( also called Mirn223) mutant mice have an expanded granulocytic compartment resulting from a cell-autonomous increase in the number of granulocyte progenitors. We show that Mef2c, a transcription factor that promotes myeloid progenitor proliferation, is a target of miR- 223, and that genetic ablation of Mef2c suppresses progenitor expansion and corrects the neutrophilic phenotype in miR- 223 null mice. In addition, granulocytes lacking miR- 223 are hypermature, hypersensitive to activating stimuli and display increased fungicidal activity. As a consequence of this neutrophil hyperactivity, miR- 223 mutant mice spontaneously develop inflammatory lung pathology and exhibit exaggerated tissue destruction after endotoxin challenge. Our data support a model in which miR- 223 acts as a fine- tuner of granulocyte production and the inflammatory response.
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