Abstract
One of the main characteristics of atherosclerosis is vascular calcification, which is linked to adverse cardiovascular events. Increased homocysteine (Hcy), a feature of hyperhomocysteinemia, is correlated with advanced vascular calcification and phenotypic switching of vascular smooth muscle cells (VSMCs). Oxidative stress and high phosphate levels also induce VSMC calcification, suggesting that the Krüppel-like factor 4 (KLF4) signaling pathway may also contribute to vascular calcification. In this study, we investigated this possibility and the role and mechanisms of Hcy in vascular calcification. We found that in atherosclerotic apolipoprotein E-deficient (ApoE-/-) mice, Hcy significantly increases vascular calcification in vivo, as well as VSMC calcification in vitro Of note, the Hcy-induced VSMC calcification was correlated with elevated KLF4 levels. Hcy promoted KLF4 expression in calcified atherosclerotic lesions in vivo and in calcified VSMCs in vitro shRNA-mediated KLF4 knockdown blocked the Hcy-induced up-regulation of runt-related transcription factor 2 (RUNX2) and VSMC calcification. RUNX2 inhibition abolished Hcy-induced VSMC calcification. Using ChIP analysis, we demonstrate that KLF4 interacts with RUNX2, an interaction promoted by Hcy stimulation. Our experiments also revealed that the KLF4 knockdown attenuates Hcy-induced RUNX2 transactivity, indicating that KLF4 is important in modulating RUNX2 transactivity. These findings support a role for Hcy in regulating vascular calcification through a KLF4-RUNX2 interaction and indicate that Hcy-induced, enhanced RUNX2 transactivity increases VSMC calcification. These insights reveal possible opportunities for developing interventions that prevent or manage vascular calcification.
Highlights
One of the main characteristics of atherosclerosis is vascular calcification, which is linked to adverse cardiovascular events
Alizarin red staining showed that Hcy increased vascular smooth muscle cells (VSMCs) calcification in vitro (Fig. 2A)
The results confirmed that Hcy suppressed the level of smooth muscle marker genes ␣-smooth muscle actin (␣-SMA) and smooth muscle myosin heavy chain (SM MHC) but elevated the level of bone-associated markers, RUNX2 and osteopontin (OPN) (Fig. 2, D and E), suggesting that Hcy promotes osteogenic differentiation of VSMC
Summary
One of the main characteristics of atherosclerosis is vascular calcification, which is linked to adverse cardiovascular events. We investigated this possibility and the role and mechanisms of Hcy in vascular calcification. ShRNA-mediated KLF4 knockdown blocked the Hcy-induced up-regulation of runt-related transcription factor 2 (RUNX2) and VSMC calcification. Our experiments revealed that the KLF4 knockdown attenuates Hcy-induced RUNX2 transactivity, indicating that KLF4 is important in modulating RUNX2 transactivity These findings support a role for Hcy in regulating vascular calcification through a KLF4 –RUNX2 interaction and indicate that Hcy-induced, enhanced RUNX2 transactivity increases VSMC calcification. These insights reveal possible opportunities for developing interventions that prevent or manage vascular calcification. The mechanism underlying Hcy-promoted phenotypic switch of VSMC in atherosclerotic vascular calcification remains unknown
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