Literature DB >> 18787183

FRNK expression promotes smooth muscle cell maturation during vascular development and after vascular injury.

Rebecca L Sayers1, Liisa J Sundberg-Smith, Mauricio Rojas, Haruko Hayasaka, J Thomas Parsons, Christopher P Mack, Joan M Taylor.   

Abstract

OBJECTIVE: Smooth muscle cell (SMC) differentiation is a dynamic process that must be tightly regulated for proper vascular development and to control the onset of vascular disease. Our laboratory previously reported that a specific focal adhesion kinase (FAK) inhibitor termed FRNK (FAK Related Non-Kinase) is selectively expressed in large arterioles when SMCs are transitioning from a synthetic to contractile phenotype and that FRNK inhibits FAK-dependent SMC proliferation and migration. Herein, we sought to determine whether FRNK expression modulates SMC phenotypes in vivo. METHODS AND
RESULTS: We present evidence that FRNK(-/-) mice exhibit attenuated SM marker gene expression during postnatal vessel growth and after vascular injury. We also show that FRNK expression is regulated by transforming growth factor (TGF)-beta and that forced expression of FRNK in cultured cells induces serum- and TGF-beta-stimulated SM marker gene expression, whereas FRNK deletion or expression of a constitutively activated FAK variant attenuated SM gene transcription.
CONCLUSIONS: These data highlight the possibility that extrinsic signals regulate the SMC gene profile, at least in part, by modulating the expression of FRNK and that tight regulation of FAK activity by FRNK is important for proper SMC differentiation during development and after vascular injury.

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Year:  2008        PMID: 18787183      PMCID: PMC2785047          DOI: 10.1161/ATVBAHA.108.175455

Source DB:  PubMed          Journal:  Arterioscler Thromb Vasc Biol        ISSN: 1079-5642            Impact factor:   8.311


  36 in total

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4.  Selective expression of an endogenous inhibitor of FAK regulates proliferation and migration of vascular smooth muscle cells.

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  21 in total

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6.  Inhibition of Diaphanous Formin Signaling In Vivo Impairs Cardiovascular Development and Alters Smooth Muscle Cell Phenotype.

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