Affiliation:
1. Laboratory of Genetics and Molecular Cardiology, Heart Institute (InCor), University of São Paulo Medical School, São Paulo, Brazil
Abstract
Abstract
Smooth muscle cell (SMC) contractility is essential to vessel tone maintenance and blood pressure regulation. In response to vasoconstrictors, calcium-dependent mechanisms promote the activation of the regulatory myosin light chain, leading to increased cytoskeleton tension that favors cell shortening. In contrast, SMC maintain an intrinsic level of a contractile force independent of vasoconstrictor stimulation and sustained SMC contraction beyond the timescale of calcium-dependent mechanisms suggesting the involvement of additional players in the contractile response. Focal adhesions (FAs) are conceivable candidates that may influence SMC contraction. They are required for actin-based traction employed by cells to sense and respond to environmental cues in a process termed mechanotransduction. Depletion of FA proteins impairs SMC contractility, producing arteries that are prone to dissection because of a lack of mechanical stability. Here, we discuss the role of calcium-independent FA signaling mechanisms in SMC contractility. We speculate that FA signaling contributes to the genesis of a variety of SMC phenotypes and discuss the potential implications for mechanical homeostasis in normal and diseased states.
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