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Myoendothelial Junction and Microparticle Stimulation of PAH Vascular Lesions

$74,250R03FY2012HLNIH

University Of South Alabama, Mobile AL

Investigators

Abstract

ABSTRACT The molecular mechanisms underlying formation of occlusive vascular lesions in pulmonary arterial hypertension (PAH) are unknown. PASMCs in the normal vasculature exhibit a differentiated, contractile, non-proliferative phenotype. During the development of PAH, the PASMCs dedifferentiate and become hyperproliferative and migratory leading to neointimal occlusion of small pulmonary arteries and arterioles. Although several signaling molecules have been investigated, it remains unclear what the vascular signals are that cause this dedifferentiation and neointimal lesion formation. Crosstalk between PAECs and PASMCs has long been suspected to participate in pathogenesis of PAH. Further, our data suggest direct interactions between PAECs and PASMCs through myoendothelial gap junctions are important for maintenance of the normal differentiated PASMC phenotype. Injury or alterations to the PAEC monolayer affect the differentiation status of the adjoining PASMCs. Not only do PASMCs and PAECs communicate with each other, but PAECs are also exposed to numerous circulating factors. Microparticles (MPs) are circulating intact vesicles which function as regulators of vascular homeostasis, cell proliferation, and angiogenesis; all vital processes in PAH occlusive vascular lesion formation. Based on these observations this proposal tests the overall hypothesis that aberrant myoendothelial gap junctional signaling between PAECs and PASMCs contributes to the arteriopathy of PAH by promoting dedifferentiation and proliferation of PASMCs, and that MPs from PAH patients participate in the pathogenesis of the vascular disease by inducing PAEC dysfunction and disrupting the gap junctional signaling. Specific Aims test the hypotheses that: Aim 1: Aberrant gap junctional signaling between PAH PAECs and PASMCs promotes PASMC dedifferentiation and proliferation. Aim 2: Circulating MPs isolated from PAH patients cause PAEC dysfunction and disrupt myoendothelial gap junctional signaling, which leads to dedifferentiation and proliferation of co-cultured PASMCs.

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