Literature DB >> 24635509

Mechanisms of the inward remodeling process in resistance vessels: is the actin cytoskeleton involved?

Jorge A Castorena-Gonzalez1, Marius C Staiculescu, Christopher Foote, Luis A Martinez-Lemus.   

Abstract

The resistance arteries and arterioles are the vascular components of the circulatory system where the greatest drop in blood pressure takes place. Consequently, these vessels play a preponderant role in the regulation of blood flow and the modulation of blood pressure. For this reason, the inward remodeling process of the resistance vasculature, as it occurs in hypertension, has profound consequences on the incidence of life-threatening cardiovascular events. In this manuscript, we review some of the most prominent characteristics of inwardly remodeled resistance arteries including their changes in vascular passive diameter, wall thickness, and elastic properties. Then, we explore the known contribution of the different components of the vascular wall to the characteristics of inwardly remodeled vessels, and pay particular attention to the role the vascular smooth muscle actin cytoskeleton may play on the initial stages of the remodeling process. We end by proposing potential ways by which many of the factors and mechanisms known to participate in the inward remodeling process may be associated with cytoskeletal modifications and participate in reducing the passive diameter of resistance vessels.
© 2013 John Wiley & Sons Ltd.

Entities:  

Keywords:  Rac; Rho; actin polymerization; elasticity; hypertension; matrix metalloproteinases; stiffness; strain; stress; transglutaminase

Mesh:

Substances:

Year:  2014        PMID: 24635509      PMCID: PMC3988214          DOI: 10.1111/micc.12105

Source DB:  PubMed          Journal:  Microcirculation        ISSN: 1073-9688            Impact factor:   2.628


  84 in total

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  19 in total

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6.  Endothelial Estrogen Receptor-α Does Not Protect Against Vascular Stiffness Induced by Western Diet in Female Mice.

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Review 8.  Hypertension Induced Morphological and Physiological Changes in Cells of the Arterial Wall.

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