Endothelium inactivation in in vitro perfused vascular beds comparison of methods

Abstract

In order to choose the best procedure to inactive the endothelium from vascular beds perfused in vitro, we compared four methods: perfusion with sodium deoxycholate 0.3% for 30 sec; 3-[(3-cholamidopropyl)dimethylammonio]-1-propane sulfonate 0.3% (CHAPS) for 2.5 min; collagenase 0.2% for 15 min, and distilled water for 10 min, using the mesenteric arterial bed (MAB) of the rat. The effectiveness of the treatments used to inactivate the endothelium was assessed functionally by using acetylcholine and sodium nitroprusside and histologically using light microscopy. Phenylephrine was used to test the contractile properties of the preparations after each treatment. After collagenase, distilled water, and CHAPS treatment, a potentiated response to phenylephrine was observed, whereas sodium deoxycholate treatment did not modify phenylephrine-induced responses. Acetylcholine-induced responses were reduced by collagenase (60% reduction), CHAPS (30% reduction), and distilled water (52% reduction) treatment, and sodium deoxycholate completely abolished acetylcholine-induced responses. Except after collagenase treatment, smooth muscle relaxant responses were not altered. Medial smooth muscle cells displayed an unchanged morphology, appearing similar to those in control mesenteric arterial beds, except for collagenase and distilled water. Despite the fact that sodium deoxycholate treatment completely abolished acetylcholine-induced response, endothelial cells were still found. No treatment totally removed endothelial cells. In conclusion, we suggest that sodium deoxycholate treatment is the best procedure to inactivate endothelial cells from vascular beds perfused in vitro since it completely abolished endothelium-dependent relaxation and did not interfere with smooth muscle vasodilating and contracting properties.