[HTML][HTML] Matrix stiffness regulates endothelial cell proliferation through septin 9

YT Yeh, SS Hur, J Chang, KC Wang, JJ Chiu, YS Li… - PloS one, 2012 - journals.plos.org
YT Yeh, SS Hur, J Chang, KC Wang, JJ Chiu, YS Li, S Chien
PloS one, 2012journals.plos.org
Endothelial proliferation, which is an important process in vascular homeostasis, can be
regulated by the extracellular microenvironment. In this study we demonstrated that
proliferation of endothelial cells (ECs) was enhanced on hydrogels with high stiffness (HSG,
21.5 kPa) in comparison to those with low stiffness (LSG, 1.72 kPa). ECs on HSG showed
markedly prominent stress fibers and a higher RhoA activity than ECs on LSG. Blockade of
RhoA attenuated stress fiber formation and proliferation of ECs on HSG, but had little effect …
Endothelial proliferation, which is an important process in vascular homeostasis, can be regulated by the extracellular microenvironment. In this study we demonstrated that proliferation of endothelial cells (ECs) was enhanced on hydrogels with high stiffness (HSG, 21.5 kPa) in comparison to those with low stiffness (LSG, 1.72 kPa). ECs on HSG showed markedly prominent stress fibers and a higher RhoA activity than ECs on LSG. Blockade of RhoA attenuated stress fiber formation and proliferation of ECs on HSG, but had little effect on ECs on LSG; enhancement of RhoA had opposite effects. The phosphorylations of Src and Vav2, which are positive RhoA upstream effectors, were higher in ECs on HSG. The inhibition of Src/Vav2 attenuated the HSG-mediated RhoA activation and EC proliferation but exhibited nominal effects on ECs on LSG. Septin 9 (SEPT9), the negative upstream effector for RhoA, was significantly higher in ECs on LSG. The inhibition of SEPT9 increased RhoA activation, Src/Vav2 phosphorylations, and EC proliferation on LSG, but showed minor effects on ECs on HSG. We further demonstrated that the inactivation of integrin αvβ3 caused an increase of SEPT9 expression in ECs on HSG to attenuate Src/Vav2 phosphorylations and inhibit RhoA-dependent EC proliferation. These results demonstrate that the SEPT9/Src/Vav2/RhoA pathway constitutes an important molecular mechanism for the mechanical regulation of EC proliferation.
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