Abstract
Background: An increase in aortic stiffness is a fundamental component of hypertension . We previous showed that aortic vascular smooth muscle cells (VSMCs) play an causative role in aortic stiffening not only due to the increased intrinsic stiffness in VSMC itself but also due to its interaction with extracellular matrix (ECM). However, the molecular mechanism involved is unclear. Here, we test the hypothesis that the aortic VSMCs mediates pre- and post-translational regulation of Lysyl Oxidase (Lox)/β1intergrain pathway which may be one of the mechanisms of VSMCs-ECM remodeling in hypertension. Methods and Results: 4 months old male spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto (WKY) rats were studied. Aortic pressure and stiffness were measured with an invasive catheter and Doppler imaging echocardiography, respectively. Compared to WKY, SHR showed a significant higher aortic pressure (mean arterial pressure (MAP) 138.7±11.8 vs 102.7±7 mmHg, ( p <0.01) and a greater aorta stiffness reflected by 2.5-fold higher arterial stiffness index (ASI) in SHR vs WKY ( p <0.01). VSMCs were isolated from thoracic aorta, then cultured and measured at passages 2 to 4. Real time PCR and western blot were used to detect the gene and protein expression. Compared to WKY, VSMCs from SHR showed a significant increase in mRNA Lox, a copper-dependent amine oxidase mediating the crosslinking of collagens and elastin (2.7 folds vs WKY, p <0.01). The abundance of LOX protein was significant increased not only at pro-enzyme lox level, but also at the regulatory pro-peptide lox and matured active enzyme Lox in SHR VSMCs by 3.5 folds and 1.4 folds respectively ( p <0.01), indicating an increased post-translational regulation of LOX in SHR VSMCs. In addition, the glycosylated β1 integrin, a transmembrane receptor that facilitate cell-ECM adhesion, was found to be significant increase in SHR VSMCs vs WKY. Conclusion: The regulation of pre- and post-translational regulation of Lox/β1intergrain pathway in aortic VSMCs presents a novel mechanism of cell-ECM interaction, which may contribute to the increased aortic stiffness in SHR.
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