Bestatin, an antibiotic of microbial origin, is a potent inhibitor of some, but not all aminopeptidases. It can be administered, with low toxicity, to cultured cells, intact animals and humans. It has become a useful tool in elucidating the physiological role of some mammalian exopeptidases in the regulation of the immune system, in the growth of tumors and their invasion of surrounding tissues, and in the degradation of cellular proteins. Bestatin-sensitive enzymes play important roles in the digestion and absorption of peptides in the brush border of the intestine and the kidney, in the reproductive system, and in the metabolism of opioid peptides and leukotrienes. Aminopeptidase N emerges as the major target for the effects of bestatin on the immune system and some of its effects on tumor growth and the endometrium. It is also the major bestatin-sensitive enzyme involved in the degradation of oligopeptides on the surface of intestine and kidney brush borders, and the inactivation of enkephalins in the brain. Bestatin-sensitive cytosolic exopeptidases are important in the degradation to amino acids of di- and tripeptides generated in most cells by cellular protein degradation, as well as those absorbed through the brush border of intestine and kidney. Inhibition of one of these exopeptidases, cytosol alanine aminopeptidase, results in apoptosis. Bestatin-sensitive cystinyl aminopeptidase is abundant in placenta. Two bestatin-sensitive enzymes, aminopeptidase B and nardilysin, are particularly abundant in late spermatids. Finally bestatin-sensitive LTA4 hydrolase generates the potent chemotactic agent, LTB4.
Bestatin, an aminopeptidase inhibitor, permits the degradation of cellular proteins to di- and tripeptides but interferes with the further breakdown of these peptides to amino acids. We propose to measure instant rates of protein degradation in skeletal muscles of intact mice by the accumulation of bestatin-induced intermediates. Muscle protein was labeled by injection ofl-[guanidino-14C]arginine; 3 days later, maximum accumulation of intermediates was measured in abdominal wall muscles 10 min after the intravenous injection of 5 mg of bestatin. The peptides were partially purified and hydrolyzed in 6 N HCl, and the radioactivity in peptide-derived arginine was determined, after conversion to14CO2by treatment with arginase and urease. The measurement of bestatin-induced intermediates provides a unique tool for studying acute changes in muscle protein turnover in live mice. We observed a 62% increase in muscle protein breakdown after a 16-h fast, which was reversed by refeeding for 3.5 h, and a 38% increase after 3 days of protein depletion.
Incubation of intact mouse reticulocytes with bestatin (a competitive inhibitor of aminopeptidases) produced the accumulation of low molecular weight intermediates in the degradation of puromycinyl-peptides or analog-containing proteins that had been pulse labeled with L[1-_4C]leucine. A
Fully grown male CD-1 mice, fed a protein-free diet for 3 days, received 1 g of starch with or without 300 mg casein by intragastric intubation. We surveyed the acute effects of these nutrients on protein synthesis in all tissues (by extrapolating to infinity the incorporation of radioactive leucine after its injection in massive doses) and protein degradation in skeletal muscle and liver (by the accumulation of bestatin-induced peptide intermediates). Muscle proteolysis was the major source of N during depletion. Compared with postabsorptive animals, starch suppressed muscle protein loss (synthesis +21%, degradation −24%, P < 0.01) and stimulated hepatic proteolysis (degradation +28%, P < 0.01). Addition of casein to the starch was anabolic in liver (synthesis +41%, degradation −33%, P < 0.01), gastrointestinal tract, pancreas, and skin (synthesis +38, +69 and +38%, respectively, P < 0.01) but had no effect on muscle. Protein turnover proved uniquely sensitive to the dietary supply of carbohydrates in muscle and to the endogenous or exogenous supply of amino acids in liver.
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