Regulation of endothelin receptor expression in vascular smooth-muscle cells

Abstract

Endothelin-1 (ET-1) has been implicated in atherosclerosis, hypertension, and restenosis, all of which involve abnormal vascular smooth muscle cell function and/or proliferation. We have previously established that human umbilical vein smooth-muscle cells (HUVSMCs) can secrete ET, (1) whereas A10 cells do not. Therefore, we investigated the effect of exogenously added ET-1 on receptor density (Bmax) of A10 cells. Compared to controls, A10s exposed to ET-1 for 48 h showed a significant decrease (79%) in receptor density, with no change in affinity. In contrast, incubation of A10s with the ETA-selective antagonist FR139317 (at a concentration blocking 99% of ET receptors) for 48 h caused a significant increase (245%) in Bmax and a significant decrease in affinity. These changes persisted after coincubation with both ET-1 and FR139317, indicating that the antagonist was able to block the effects of exogenous ET-1. In concordance, incubation of HUVSMCs with FR139317 for 24 h caused a significant increase in receptor density (> 1,000%), although there was no change in levels of immunoreactive (IR) ET or big ET-1. However, after a shorter incubation (1 h), there was no change in Bmax but IR ET was significantly elevated by 878%, whereas IR big ET-1 was depressed by 86% compared to controls. Incubation of HUVSMCs with FR139317 did not affect receptor affinity. Our observations suggest that whereas the application of exogenous ET to A10s causes downregulation of ET receptor expression, the ETA antagonist FR139317 causes upregulation of ET receptor expression in VSMCs regardless of their ability to secrete ET. In VSMCs capable of secreting ET, acute antagonism of the ETA receptor causes a significant increase in IR-ET and a decrease of IR-big ET-1 levels.