Morphological features of regeneration of rabbit aortic endothelium after cryoinduced vascular damage

Abstract

Regeneration of endothelium after damage is an important factor, which limits the development of atherogenesis. This study examines the topographical characteristics of regenerating endothelial cells (EC) in rabbit aorta after de-endothelialization by cryodestruction. The effects of cloricromene on these processes were also studied. Vessels were harvested from 6-month-old NZW rabbits, 1 and 3 days after cryodestruction. The vessels were evaluated using scanning electron microscopy (SEM). One day after cryodestruction, there were defects in the endothelial monolayer in the zone of injury in saline treated animals. Large numbers of platelets and monocytes were observed in association with endothelium in the damaged zone. Three days after de-endothelialization the size of the area of the damage had decreased. On the surface of the new endothelial layer and below this defect, the number of adhering monocytes was increased, and many microdefects between endothelium could be seen. Administration of cloricromene for 1 or 3 days after damage reduced the number of endothelium-adherent platelets and monocytes, and microdefects in endothelium. The feature of endothelial repair in rabbits is a relatively large involvement of monocytes and platelets, which are visible below regenerated endothelium. Administration of cloricromene essentially restored re-endothelialization and significantly decreased the number of adherent monocytes and microdefects in the new endothelium.