Endothelin inhibits osteoclastic bone resorption by a direct effect on cell motility: implications for the vascular control of bone resorption.

Abstract

The abundance of endothelin (ET)-producing endothelial cells in bone marrow and the proximity of these cells to bone-resorbing osteoclasts prompted us to evaluate the action of ET-1 on osteoclast function. Osteoclasts disaggregated from neonatal rat long bones were settled onto devitalized cortical bone substrate, and resorption was quantified by morphometry. The supernatant tartrate-resistant acid phosphatase activity was determined by a spectrophotometric method using paranitrophenol phosphate as substrate. Cell motility was quantified by time lapse video- and computer-assisted image processing using an empirical procedure for morphometric analysis. Cytosolic free calcium levels ([Ca2+]i) were measured in single cells by an indo 1-based microspectrofluorimetric method. Using the area of bone resorbed per slice as response, we found that ET-1 caused a significant (P = 0.011) concentration-dependent inhibition of osteoclastic bone resorption (EC50 = 2.5 nM) without inhibiting acid phosphatase secretion. Exposure of isolated osteoclasts to ET-1 also led to a marked concentration-dependent inhibition of osteoclast motility (EC50 = 7.9 nM; P = 0.013; t1/2 = 18 min) without significant effects on cell spread area. These effects of ET-1 were reversible after removing the peptide, and the cells remained viable during the experiments. In addition, ET-1 did not elevate [Ca2+]i at the concentrations tested. The results suggest that ET-1 specifically interacts with an osteoclast receptor to inhibit osteoclastic bone resorption and cell motility. As the concentration of ET-1 required for osteoclast inhibition was similar to that reported for smooth muscle contraction, it is possible that ET-1, produced locally from the bone marrow endothelial cell, might play a primary role in osteoclast regulation.