Variation of mechanical properties and quantitative proteomics of VSMC along the arterial tree

弹性蛋白 动脉树 血管平滑肌 主动脉 胸主动脉 细胞外基质 解剖 材料科学 内科学 化学 病理 生物物理学 生物 医学 细胞生物学 平滑肌
作者
Carla Luana Dinardo,Gabriela Venturini,Enhua H. Zhou,Ii‐Sei Watanabe,Luciene Cristina Gastalho Campos,Rafael Dariolli,Joaquim Maurício da Motta-Leal-Filho,Valdemir Melechco Carvalho,Karina Helena Morais Cardozo,José Eduardo Krieger,Adriano M. Alencar,Alexandre C. Pereira
出处
期刊:American Journal of Physiology-heart and Circulatory Physiology [American Physical Society]
卷期号:306 (4): H505-H516 被引量:64
标识
DOI:10.1152/ajpheart.00655.2013
摘要

Vascular smooth muscle cells (VSMCs) are thought to assume a quiescent and homogeneous mechanical behavior after arterial tree development phase. However, VSMCs are known to be molecularly heterogeneous in other aspects and their mechanics may play a role in pathological situations. Our aim was to evaluate VSMCs from different arterial beds in terms of mechanics and proteomics, as well as investigate factors that may influence this phenotype. VSMCs obtained from seven arteries were studied using optical magnetic twisting cytometry (both in static state and after stretching) and shotgun proteomics. VSMC mechanical data were correlated with anatomical parameters and ultrastructural images of their vessels of origin. Femoral, renal, abdominal aorta, carotid, mammary, and thoracic aorta exhibited descending order of stiffness (G, P < 0.001). VSMC mechanical data correlated with the vessel percentage of elastin and amount of surrounding extracellular matrix (ECM), which decreased with the distance from the heart. After 48 h of stretching simulating regional blood flow of elastic arteries, VSMCs exhibited a reduction in basal rigidity. VSMCs from the thoracic aorta expressed a significantly higher amount of proteins related to cytoskeleton structure and organization vs. VSMCs from the femoral artery. VSMCs are heterogeneous in terms of mechanical properties and expression/organization of cytoskeleton proteins along the arterial tree. The mechanical phenotype correlates with the composition of ECM and can be modulated by cyclic stretching imposed on VSMCs by blood flow circumferential stress.
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