Separation of the protective enzyme bleomycin hydrolase from rabbit pulmonary aminopeptidases

Abstract

Bleomycin (BLM) hydrolase inactivates the BLM class of antitumor antibiotics and protects against BLM-induced pulmonary fibrosis. This enzyme is poorly characterized but believed to be an aminopeptidase B. In the present report, both BLM hydrolase and aminopeptide B from rabbit pulmonary cytosol were retained by arginyl-Sepharose and BLM-Sepharose affinity columns, further suggesting that these two enzymes are similar. When, however, BLM hydrolase was purified over 1800-fold by using our newly developed high-speed liquid chromatography assay for BLM hydrolase coupled with fast protein liquid chromatography, we found that this partially purified BLM hydrolase preparation lacked aminopeptidase B activity. Furthermore, BLM hydrolase was completely separated, by using anion-exchange Mono Q chromatography, from all the aminopeptidases identified in rabbit pulmonary cytosol: one aminopeptidase B, two aminopeptidases N, and one aminopeptidase with both aminopeptidase B and aminopeptidase N activities. Pulmonary BLM hydrolase also had a higher molecular weight than pulmonary aminopeptidase B. In contrast to aminopeptidase B, BLM hydrolase was not activated by NaCl and was much less stable at 4.degree. C. In addiction, bestatin was a potent inhibitor of amino peptidase B but had little effect on BLM hydrolase, while leupeptin was a potent inhibitor of BLM hydrolase but was less effective against aminopeptidase B. Thus, pulmonary BLM hydrolase and aminopeptidase B have affinity for each other''s substrate, but they are clearly distinct enzymes on the basis of charge characteristics, molecular weight, stability, and sensitivity to inhibitors and activators.