Abstract

The PDZ domain-containing scaffolding protein, Ezrin-Radixin-Moesin-binding phosphoprotein 50 (EBP50) regulates vascular stenosis following endoluminal vessel injury. Its expression in vascular smooth muscle cells (VSMC) increases after wire injury, and neointima formation is significantly reduced in EBP50 knockout (KO) mice. The molecular mechanisms underlying EBP50 actions in VSMC are unknown. Genetic ablation of EBP50 reduced VSMC proliferation and was associated with increased (5-fold) expression of the cell cycle inhibitor p21cip1 both in vessels and in primary cells. No differences in mRNA levels of p21cip1 were observed in WT and KO cells. However, the half-life of p21cip1 in KO VSMC was significantly longer than in WT VSMC (80 min vs. 45 min) and p21cip1 levels were similar in WT and KO VSMC treated with the proteasome inhibitor MG132. These observations suggest that EBP50 regulates post-translational degradation of p21cip1. The S-phase kinase-associated protein 2 (skp2) is a component of the E3 ligase complex that degrades p21cip1. The C-terminal four amino acids of skp2 (ProSerCysLeu) are a canonical PDZ-binding sequence. Indeed, co-immunoprecipitation and in-gel overlay assays demonstrated the direct interaction between EBP50 and skp2. Mutation of the C-terminal Leu to Ala (L424A-skp2) abrogated the interaction with EBP50. Skp2 expression was significantly lower in KO than in WT cells and inhibition of EBP50 expression by an shRNA lentivirus decreased skp2 expression in WT cells. Moreover, expression of skp2, but not of the mutant L424A-skp2, in WT cells reduced p21cip1 levels. Therefore, EBP50 regulates both expression and activity of skp2 with attendant effects on p21cip1 and VSMC proliferation. Collectively, these experiments show that EBP50, by regulating skp2 and p21cip1 expression, controls VSMC proliferation and the progression of neointima formation. These studies identify a novel function for EBP50 in the direct regulation of the cell cycle and provide a mechanistic basis for the remarkable effect of this scaffolding protein on vascular remodeling.

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