EC:3.4.25.1 - FACTA Search

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Query: EC:3.4.25.1 (proteasome)
28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The proteasome regulates cellular processes as diverse as cell cycle progression and NF-kappaB activation. In this study, we show that the potent antitumor natural product epoxomicin specifically targets the proteasome. Utilizing biotinylated-epoxomicin as a molecular probe, we demonstrate that epoxomicin covalently binds to the LMP7, X, MECL1, and Z catalytic subunits of the proteasome. Enzymatic analyses with purified bovine erythrocyte proteasome reveal that epoxomicin potently inhibits primarily the chymotrypsin-like activity. The trypsin-like and peptidyl-glutamyl peptide hydrolyzing catalytic activities also are inhibited at 100- and 1,000-fold slower rates, respectively. In contrast to peptide aldehyde proteasome inhibitors, epoxomicin does not inhibit nonproteasomal proteases such trypsin, chymotrypsin, papain, calpain, and cathepsin B at concentrations of up to 50 microM. In addition, epoxomicin is a more potent inhibitor of the chymotrypsin-like activity than lactacystin and the peptide vinyl sulfone NLVS. Epoxomicin also effectively inhibits NF-kappaB activation in vitro and potently blocks in vivo inflammation in the murine ear edema assay. These results thus define epoxomicin as a novel proteasome inhibitor that likely will prove useful in exploring the role of the proteasome in various in vivo and in vitro systems.
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PMID:Epoxomicin, a potent and selective proteasome inhibitor, exhibits in vivo antiinflammatory activity. 1046 20

The influence of the gene expression of critical components of the cytoplasmic and lysosomal proteolytic pathways on the rate of protein degradation was evaluated in the leg skeletal muscle of 8 severely traumatized patients. Muscle proteolysis was determined as the intramuscular phenylalanine rate of appearance by L-[ring-2H5]phenylalanine infusion and the leg arteriovenous catheterization technique combined with muscle biopsy. Muscle mRNA levels of UbB polyubiquitin and cathepsin B were determined by reverse transcriptase-competitive polymerase chain reaction and expressed as a percent of the mRNA level of the housekeeping gene glyceraldehyde-3-phosphate dehydrogenase (GAPDH). In the patients, individual values for UbB polyubiquitin mRNA levels directly correlated with the rate of muscle proteolysis (r = .76, P < .05), whereas no correlation (r = .10) was found between cathepsin B mRNA levels and proteolysis. Thus, after trauma, the rate of muscle proteolysis appears to be largely regulated by the ubiquitin-proteasome system at the level of gene transcription.
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PMID:Contribution of the ubiquitin-proteasome pathway to overall muscle proteolysis in hypercatabolic patients. 1087 90

The effect of indomethacin, a non-steroidal anti-inflammatory drug upon purified calpain has been studied. Also, its effects upon Ca2+-mediated degradation of cytoskeletal proteins (neurofilament) in spinal cord homogenate has been investigated. A dose-dependent inhibition of purified calpain activity was observed. A 50% inhibition of 14C-caseinolytic activity was obtained with less than 1.1 mM of indomethacin while the activity was completely inhibited at 3.3 mM concentration. The inhibitory effect of ketorlac, another non-steroidal anti-inflammatory drug, upon calpain was weaker than that of indomethacin. The degradation of myelin basic protein (MBP) by cathepsin B, a lysosomal cysteine protease, was significantly inhibited by indomethacin. It also inhibited the Ca2+-mediated degradation of neurofilament protein (NFP) in spinal cord homogenate. The extent of NFP degradation was analyzed by SDS-PAGE and the inhibition shown by indomethacin was weaker than that observed with leupeptin and the calpain inhibitor E64-d. The inhibitory effect of indomethacin on the activity of multicatalytic proteinase complex was negligible. These results suggest that indomethacin, a non-steroidal anti-inflammatory drug and cyclooxygenase inhibitor also inhibits proteinases, including cathepsin B and calpain.
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PMID:Inhibition of proteolysis by a cyclooxygenase inhibitor, indomethacin. 1107 71

A 22-year-old man developed unconsciousness, severe quadriplegia and muscle atrophy, and had markedly elevated serum creatine kinase levels after using the high-dose steroid and nondepolarizing neuromuscular blocking agents during the course of sepsis and DIC. On neurological examination, he was lethargic. The patient had generalized muscle weakness and wasting, and diminished deep tendon reflexes. He weakly responsed to painful stimuli on the legs. The motor nerve conduction study demonstrated decreased CMAP (compound muscle action potential) amplitudes. Motor and sensory nerve conduction velocities and their distal latencies were normal. Muscle biopsy revealed marked muscle fiber atrophy predominantly in type 2 fibers and numerous basophilic and a few necrotic fibers. Some atrophic fibers had decreased to absent myosin adenosine triphosphatase activity in their center. Accordingly, he was diagnosed as having acute quadriplegic myopathy (AQM), which has been reported mainly in Western countries. The mechanism of muscle fiber degradation in this myopathy is still unknown. On immunohistochemical analysis to our patient, enzyme activities of various proteases such as calpain, cathepsin B, and proteasomes were increased in the sarcoplasm, especially in the atrophic fibers. We suggest that lysosomal cathepsin, nonlysosomal calpain, and ATP-ubiquitin-proteasome proteolytic pathways participate in muscle fiber degradation in AQM.
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PMID:[A case of acute quadriplegic myopathy]. 1108 98

We have examined the short-term effects of leptin on protein metabolism in the rat. Indeed, an intravenous leptin administration (100 microg/kg body weight), which resulted in no changes in circulating insulin in the time interval studied, induced a decrease in the incorporation of (14)C-leucine to (14)C-skeletal muscle protein. No changes were observed in relation to muscle protein degradation (either measured in vivo following isotope preloading or in vitro as tyrosine released into the incubation medium) and gene expression associated with the different proteolytic systems (cathepsin B, m-calpain and ubiquitin-proteasome system). The effects of leptin on amino acid incorporation into muscle protein do not seem to be direct because incubation of isolated EDL muscles in the presence of 10 microg/ml of leptin did not modify either the protein incorporation or the oxidation of (14)C-leucine. It may, therefore, be suggested that leptin is able to influence protein synthesis in skeletal muscle through the action of an unknown mediator.
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PMID:Short-term effects of leptin on skeletal muscle protein metabolism in the rat. 1109 Oct 97

Fasting results in rapid and profound wasting of the small intestine. mRNA levels of genes encoding critical components of proteolytic systems were measured in small intestinal mucosa to indirectly assess the possible role that proteolysis plays in mediating this wasting. Male Sprague-Dawley rats (120 g; n = 6 per group) were either fed or fasted for 1 or 2 days. Small intestinal mucosal mass decreased by 19% and 31% after 1 and 2 days of fasting, respectively (P < 0.05). Fasting did not significantly change mRNA levels for lysosomal (cathepsin B) or ubiquitin-proteasome-dependent (ubiquitin, 14-kDa ubiquitin-conjugating-enzyme E2, and the C8 and C9 proteasome subunits) systems. Northern hybridizations were also performed using membranes made with poly A(+) mRNA instead of total RNA. mRNA levels for these proteolytic systems and m-calpain did not significantly change with fasting. These data clearly demonstrated that fasting does not increase expression of genes encoding critical components of proteolytic systems in the small intestinal mucosa, suggesting that increased proteolysis cannot explain wasting of the small intestinal mucosa during brief fasting in young rats.
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PMID:Fasting does not increase mRNA levels of proteolytic systems in small intestinal mucosa of the rat. 1112 Apr 47

Rat gastrocnemius showed increased protein degradation (+75-115%) at 48 h after traumatic injury. Injured muscle showed increased cathepsin B activity (+327%) and mRNA encoding cathepsin B (+670%), cathepsin L (+298%), cathepsin H (+159%), and cathepsin C (+268%). In in situ hybridization, cathepsin B mRNA localized to the mononuclear cell infiltrate in injured muscle, and only background levels of hybridization were observed either over muscle cells in injured tissue or in uninjured muscle. Immunogold/electron microscopy showed specific staining for cathepsin B only in lysosome-like structures in cells of the mononuclear cell infiltrate in injured muscle. Muscle cells were uniformly negative in the immunocytochemistry. Matrix metalloproteinase-9 (granulocyte-macrophage gelatinase) mRNA and activity were not present in uninjured muscle but were expressed after trauma. There was no activation of the ATP-ubiquitin-proteasome-dependent proteolytic pathway in injured muscle, by contrast to diverse forms of muscle wasting where the activity of this system and the expression of genes encoding ubiquitin and proteasome elements rise. These results suggest that proteolytic systems of the muscle cells remain unstimulated after local injury and that lysosomal enzymes of the inflammatory infiltrated cells are likely to be the major participant in protein catabolism associated with local trauma.
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PMID:Increased muscle proteolysis after local trauma mainly reflects macrophage-associated lysosomal proteolysis. 1178 64

Muscle wasting is a common and prominent feature of advanced cancer, including lung cancer. Evidence from animal experiments suggests that accelerated proteolysis via the ubiquitin--proteasome pathway is the primary cause of cancer-related cachexia. However, there are few data on the role of this pathway in determining muscle wasting in human cancer. The present study was designed to measure whether skeletal muscle gene expression of components of the ubiquitin-proteasome pathway and/or the lysosomal proteolytic pathway was increased in patients with early lung cancer. A total of 36 patients with lung cancer referred for curative resection and 10 control subjects had biopsies of latissimus dorsi muscle taken at operation. mRNA levels of four components of the ubiquitin-proteasome pathway, i.e. polyubiquitin, C2 alpha proteasome subunit, 14 kDa ubiquitin-carrier protein and ubiquitin-activating protein, and of two lysosomal proteolytic enzymes, i.e. cathepsin B and cathepsin D, were measured using quantitative Northern blotting. mRNA levels for cathepsin B, but not for components of the ubiquitin--proteasome pathway, were higher in patients with cancer compared with controls (P=0.01). Among lung cancer patients, cathepsin B mRNA levels correlated with fat-free mass index (r = -0.57, P=0.003) and tumour stage (r(s)=0.45, P=0.03), and were higher in smokers (P=0.04). Thus gene expression of the lysosomal protease cathepsin B is increased in the skeletal muscle of patients with early lung cancer, and the strong inverse relationship with fat-free mass suggests that cathepsin B may have a role in inducing muscle wasting in the early stages of lung cancer.
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PMID:Skeletal muscle mRNA levels for cathepsin B, but not components of the ubiquitin-proteasome pathway, are increased in patients with lung cancer referred for thoracotomy. 1186 77

A 48-h starvation period resulted in a great increase in muscle proteolysis-as measured following the release of tyrosine into the medium-in incubated isolated rat extensor digitorum longus (EDL) muscles. We have quantified the contribution of the different proteolytic systems to the increased protein degradation and observed a considerable activation in the ATP-dependent proteolytic (60%) and in the calcium-dependent (125%) systems, while no increases were observed in lysosomal proteolysis. The addition of 10 mM leucine to the incubation medium did not result in any changes in either total proteolytic rate or the activity rates of any of the different systems studied. In addition, the presence of the amino acid did not influence the levels of mRNA for the different genes studied-ubiquitin, C8 proteasome subunit, E2 conjugating enzyme, m-calpain, and cathepsin B. In a similar way, as observed during starvation, tumor growth resulted in increased protein degradation in incubated isolated EDL muscles from animals bearing the Yoshida AH-130 ascites hepatoma. The increased rate of protein degradation affected all the proteolytic systems studied: ATP- and calcium-dependent and lysosomal. Finally, leucine addition (10 mM), although not able to revert the increased proteolytic rate, resulted in a decrease in the gene expression for ubiquitin, C8 proteasome subunit and cathepsin B.
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PMID:Branched-chain amino acids: a role in skeletal muscle proteolysis in catabolic states? 1201 23

To clarify the mechanism of muscle fiber destruction in sarcoid myopathy, muscle biopsy specimens were examined from patients with sarcoid myopathy, polymyositis, or dermatomyositis. In sarcoid myopathy, noncaseating granulomatous lesions were located in the perimysium or endomysium or both. Little fiber atrophy, caused by mechanical compression of the granuloma, was seen, and there was no evidence of ischemia-induced changes (i.e., perifascicular atrophy) due to microangiopathy in muscles. Immunoreactivity for membrane-associated cytoskeletal proteins such as dystrophin and merosin was detected homogeneously along the surface of many small granulomas in intrafascicular lesions. These granulomas showed a characteristic phenotypic cellular distribution: CD68(+) and CD4(+) cells were present in the center, and some CD8(+) cells were found at the periphery, indicating typical sarcoid granuloma formation in each muscle fiber. Strong expression of proteases such as cathepsin B, calpain II and ubiquitin-proteasome was observed in macrophages and epithelioid cells but not in lymphocytes in granulomas within muscle fibers or those in the endomysium or perimysium. The expression intensity was stronger in premature-stage granulomas than in late-stage granulomas. Weak expression of these proteases was detected mainly in some muscle fibers invaded by epithelioid cells and macrophages and in a few atrophic or necrotic fibers adjacent to inflammatory foci but not in fibers of fascicles without granuloma formation or in fibers in perifascicular areas. Our results suggest that muscle fiber destruction in sarcoid myopathy is caused mainly by direct invasion of granulomatous inflammatory cells into muscle fibers during the process of granuloma formation rather than by mechanical compression or ischemia. Furthermore, the proteases derived from epithelioid cells and macrophages may play an important role in muscle fiber destruction.
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PMID:Cellular distribution of proteolytic enzymes in the skeletal muscle of sarcoid myopathy. 1207 Jun 62

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