Abstract
LTBPs bind the 100-kDa latent TGF-β complex and thereby regulate TGF-β assembly, tissue localization, and function. However, the 100-kDa complex is not always associated with LTBP, and, conversely, evidence suggests that LTBP has a distinct role in the extracellular matrix. As yet, there are no data to explain how the binding interaction between LTBP and the 100-kDa complex is regulated. This report provides the first direct evidence of alternative splicing of an LTBP gene. Two alternative splice sites in the mouse LTBP-3 gene have been identified based on in vivo and in vitro studies. Alternative splicing at one site in particular was found to disrupt a structural motif involved in the binding interaction with the 100-kDa latent TGF-β complex. Therefore, alternative splicing may represent a molecular mechanism by which the uncomplexed form of LTBP-3 is produced, and, as a corollary, by which the 100-kDa latent TGF-β1 complex is produced.
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