Current Drug Therapy

Author(s): Francesco Moccia, Roberto Berra-Romani and Franco Tanzi

DOI: 10.2174/157488512804999109

Ca2+ Signalling in Damaged Endothelium and Arterial Remodelling: Do Connexin Hemichannels Provide a Suitable Target to Prevent In-stent Restenosis?

Page: [268 - 280] Pages: 13

  • * (Excluding Mailing and Handling)

Abstract

A monolayer of endothelial cells (ECs) lines the lumen of blood vessels and forms a multifunctional transducing organ that regulates cardiovascular homeostasis. Disruption of endothelial integrity, as a result of either angioplasty or stent deployment, may produce a late in-stent restenosis and limit the beneficial outcome of reconstructive vascular surgery. Restoration of endothelial lining requires spreading, migration and proliferation of ECs nearby the lesion site.

Intracellular Ca2+ signalling plays a major regulatory role in stimulating wound healing, however, the mechanism whereby injury increases Ca2+ levels at the wound edge is still unclear. The analysis of Ca2+ signals elicited by scraping an endothelial monolayer in vitro suggested the involvement of intracellular Ca2+ release from InsP3-sensitive stores and Ca2+ entry through unknown ion channels in the plasma membrane. Recent studies carried out on excised rat aorta highlighted a novel role for connexin hemichannels (CxHcs) in mediating Ca2+ entry in injured endothelium. Understanding the signal transduction pathway leading to EC activation is likely to provide novel targets to design therapeutic applications aiming to restore endothelial integrity and treat cardiovascular diseases. Therefore, alternative drug-eluting stents might be devised to trigger CxHc opening and reduce in-stent restenosis following vascular regenerative surgery.

Keywords: Ca2+ entry, cardiovascular disorders, connexin hemichannels, drug eluting stents, endothelial injury, rat aorta