Endothelin-2-converting enzyme from human renal adenocarcinoma cells is a phosphoramidon-sensitive, membrane-bound metalloprotease.

From the membrane fraction of cultured human renal adenocarcinoma (ACHN) cells, two endothelin-2-converting enzymes (ECE-2A and ECE-2B) were solubilized with detergent Lubrol PX and separated by hydrophobic butyl fast-performance liquid chromatography. The pH range of the converting activity of ECE-2B for big endothelin-1 (big ET-1), big ET-2, or big ET-3, was very narrow, and the optimal pH for each substrate was significantly different; the pH optimum for big ET-1 was 6.8 and that for big ET-2 or big ET-3 was 6.4. The ET-converting activity was abolished by phosphoramidon, 1,10-phenanthroline and EDTA but was not inhibited by thiorphan, E-64, leupeptin, PCMS, p-APMSF, or pepstatin A. The conversion efficiency for big ET-2 or big ET-3 by ECE-2B was approximately one-eighth of that for big ET-1. The molecular weight of ECE-2B was estimated to be 400 kDa by gel filtration. Because these characteristics of ECE-2B are very similar to those of ET-1-converting enzyme (ECE-1) in endothelial cells, these results raise the possibility that ECE-2B is identical to ECE-1 and that a single ECE physiologically converts all big ETs to the corresponding ETs in ET-producing cells.