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The signaling mechanism of primary cilia in aneurysm prevention

$345,000R56FY2017HLNIH

Chapman University, Orange CA

Investigators

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Abstract

PROJECT DESCRIPTION Aneurysm contributes significantly to mortality in patients with polycystic kidney disease (PKD). Thus, a better understanding of vascular pathology in PKD may lead to prevention and treatment for these patients. Primary cilia are known to be the mechanosensory organelles in vascular endothelia. Emerging evidence indicates that primary cilia are involved in PKD pathogenesis. Using inducible-PKD models for endothelia, the proposed study is designed to ask if and how improving cilia function could diminish aneurysm formation. Therefore, our hypothesis is to test PKD models to determine if enhancing cilia function will significantly prevent aneurysm formation. Since our previous studies indicated that activation of ciliary dopamine receptor-5 (DR5) could enhance the mechanosensory function of primary cilia, our Aim 1 will use DR5 as a candidate model to explore our hypothesis, because this is the only model system known to increase cilia function at the present time. More specifically, this aim will examine the cellular mechanisms of primary cilia function in aneurysm in vitro and in vivo. Our previous studies also indicated that genomic instability and abnormal mitotic polarity contribute to aneurysm formation. In Aim 2, we therefore ask if improving polyploidy and mitotic polarity could reduce aneurysm formation in vivo. The findings from these studies will provide useful information on the role of cilia in the regulation of vascular function and will generate new knowledge toward the understanding of vascular aneurysm.

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