The cleavage of HuR interferes with its transportin-2-mediated nuclear import and promotes muscle fiber formation

P. Beauchamp, C. Nassif, S. Hillock, K. Van Der Giessen, C. Von Roretz, B. J. Jasmin, I. E. Gallouzi

Research output: Contribution to journalArticlepeer-review

45 Scopus citations

Abstract

Although the function of posttranscriptional processes in regulating the expression of genes involved in muscle fiber formation (myogenesis) is well accepted, the mechanisms by which these effects are mediated remain elusive. Here, we uncover such a mechanism and show that during myogenesis, a fraction of the posttranscriptional regulator human antigen R (HuR) is cleaved in a caspase-dependent manner in both cell culture and animal models. Disruption of caspase activity in cultured myoblasts or knocking out the caspase-3 gene in mice significantly reduced HuR cleavage and the cytoplasmic accumulation of HuR in muscle fibers. The non-cleavable isoform of HuR, HuRD226A, failed to reestablish the myogenic potential of HuR-depleted myoblasts. HuR cleavage generates two fragments: HuR-cleavage product 1 (HuR-CP1) (24 kDa) and HuR-CP2 (8 kDa). Here, we show that one of these fragments (HuR-CP1) binds to the HuR import factor transportin-2 (TRN2) allowing HuR to accumulate in the cytoplasm. As this cytoplasmic accumulation is required for the promyogenic function of HuR, our data support a model, whereby during the transition phase from myoblasts to myotubes, a proportion of HuR is cleaved to generate HuR-CP1. By interfering with the TRN2-mediated import of HuR, this CP helps non-cleaved HuR accumulate in the cytoplasm thus promoting myogenesis. © 2010 Macmillan Publishers Limited All rights reserved.
Original languageEnglish (US)
Pages (from-to)1588-1599
Number of pages12
JournalCell Death and Differentiation
Volume17
Issue number10
DOIs
StatePublished - Oct 1 2010
Externally publishedYes

Bibliographical note

Generated from Scopus record by KAUST IRTS on 2022-09-13

ASJC Scopus subject areas

  • Cell Biology
  • Molecular Biology

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