The Journal of biological chemistry

Smooth Muscle Cell Proangiogenic Phenotype Induced by Cyclopentenyl Cytosine Promotes Endothelial Cell Proliferation and Migration.

PMID 27821588


Vascular smooth muscle cells (SMCs) and endothelial cells (ECs) are in close contact with blood vessels. SMC phenotypes can be altered during pathological vascular remodeling. However, how SMC phenotypes affect EC properties remains largely unknown. In this study, we found that PDGF-BB-induced synthetic SMCs suppressed EC proliferation and migration while exhibiting increased expression of anti-angiogenic factors, such as endostatin, and decreased pro-angiogenic factors, including CXC motif ligand 1 (CXCL1). Cyclopentenyl cytosine (CPEC), a CTP synthase inhibitor that has been reported previously to inhibit SMC proliferation and injury-induced neointima formation, induced SMC redifferentiation. Interestingly, CPEC-conditioned SMC culture medium promoted EC proliferation and migration because of an increase in CXCL1 along with decreased endostatin production in SMCs. Addition of recombinant endostatin protein or blockade of CXCL1 with a neutralizing antibody suppressed the EC proliferation and migration induced by CPEC-conditioned SMC medium. Mechanistically, CPEC functions as a cytosine derivate to stimulate adenosine receptors A1 and A2a, which further activate downstream cAMP and Akt signaling, leading to the phosphorylation of cAMP response element binding protein and, consequently, SMC redifferentiation. These data provided proof of a novel concept that synthetic SMC exhibits an anti-angiogenic SMC phenotype, whereas contractile SMC shows a pro-angiogenic phenotype. CPEC appears to be a potent stimulator for switching the anti-angiogenic SMC phenotype to the pro-angiogenic phenotype, which may be essential for CPEC to accelerate re-endothelialization for vascular repair during injury-induced vascular wall remodeling.

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