A connexin 43 targeting peptide prevents blood vessel neointima formation

The gap junction protein connexin 43 (Cx43) is associated with human pathological vascular smooth muscle cell (SMC) proliferation and neointima formation. We previously identified mitogen-activated protein kinase (MAPK) phosphorylation of Cx43 results in binding with the cell cycle protein cyclin E, facilitating neointima formation in mice. However, the specific nature of these interactions and their relevance to human disease have not been elucidated. Using an ex vivo human saphenous vein model of neointima formation, we identified increased MAPK-phosphorylated Cx43 and cyclin E in explant tissues. We used peptide arrays to define a cyclin E-Cx43 binding region and generated ‘CycliCx’, a stearate-linked Cx43 phospho-mimetic peptide. In human coronary artery SMC, CycliCx inhibits platelet-derived growth factor-BB (PDGF-β)-induced changes in Cx43 trafficking and interactions with cyclin E, and stimulation of proliferation. RNAseq analysis identified CycliCx significantly inhibits PDGF-β-induced proliferative pathways in SMC by limiting PDGF-induced early G1/S phase cell cycle progression transcripts. Finally, we show CycliCx limits neointima formation in mice in vivo and in ex vivo human saphenous vein explants. Our data provide strong evidence for selective targeting Cx43 as a viable therapeutic strategy for preventing neointimal formation in humans.