Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.26.9 (ribonuclease)
 6,589 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activity of eight acid hydrolases and two energy metabolism enzymes were assayed from homogenates of predominantly red (proximal heads of m. vastus lateralis, m. vastus medialis, and m. vastus intermedius) and predominantly white (distal head of m. vastus lateralis) skeletal muscle of mice belonging to one of the following groups: 1) sedentary controls, never trained or exhausted; 2) exhausted controls, exhausted once by running on a treadmill 5, 10, or 20 days before killing; 3) trained mice, exercising until killed; 4) exhausted trained mice, exercising until exhausted 5, 10 or 20 days before killing, not exercising during that period; and 5) detrained mice, terminating training 5, 10, or 20 days before killing. In untrained but not in trained animals, exhaustive exercise caused, 5 days afterward, fiber necrosis and a marked increase in the activities of beta-glucuronidase, beta-N-acetylglucosaminidase, arylsulphatase, ribonuclease, deoxyribonuclease, cathepsin D, and cathepsin C, especially in red muscle fibers. Training increased the activities of citrate synthase, beta-glucuronidase, and cathepsin D in both muscle types and those of beta-N-acetylglucosaminidase, arylsulphatase, and cathepsin C in red muscle. Effects of detraining were minor. Exhaustive exercise causes lethal and evidently also sublethal fiber injuries manifesting themselves as an activation of the lysosomal system of muscle fibers 5 days later. Training affects cellular homeostasis by causing an apparent resistance to the damaging effects of exhaustive exercise. Moderately increased hydrolase activities may reflect increased turnover in endurance-trained muscles.
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PMID:Exhaustive exercise, endurance training, and acid hydrolase activity in skeletal muscle. 22 20

The addition of cationic proteins such as lysozyme, ribonuclease and cytochrome C enhanced the beta-lactam-induced bacteriolysis of staphylococci measured as release of wall label or by optical density. The treatment of staphylococci with penicillin plus cytochrome C resulted in a reduced viability of bacteria compared with those treated with penicillin alone. The wall autolysis and the penicillin-induced bacteriolysis of staphylococci were enhanced by the lysosomal enzyme cathepsin C. The penicillin-induced bacteriolysis was also enhanced by the D-amino acids D-alanine and D-methionine, while the comparable L-amino acids did not reveal any activity. On the other hand, some polyanionic substances were able to suppress the penicillin-induced bacteriolysis. Radiochemical and electron microscopic studies revealed the participation of bacterial wall autolysins in the first steps of degradation processes of staphylococcal walls within murine bone marrow-derived macrophages.
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PMID:The modulation of the bacteriolytic effect of beta-lactam antibiotics by non-antibiotics. 129 43

Latencies and phosphomannosyl-enzyme receptors of lysosomal enzymes were studied in the skeletal muscles of NMRI mice during the appearance (0-1 days) and the repair (3-9 days) of muscle fiber injuries after a single bout of prolonged running (9 hr, 13.5 m/min). The unsedimentable, releasable, and bound activities of arylsulfatase, beta-N-acetylglucosaminidase, beta-D-glucuronidase, cathepsin C, and ribonuclease as well as the content and occupancy of phosphomannosyl-enzyme receptors of lysosomal enzymes were assayed. The distribution of enzyme activities in different fractions as well as the changes after exertion greatly varied between different lysosomal enzymes. In general, the total activities and also the distribution of enzyme activities in different fractions were unaffected 1 hr after exertion, but on the day after exertion small increases were observed in the free and releasable activities. The highest enzyme activities both in the homogenate and in different fractions were recorded 3 days after exertion, after which the activities slowly decreased. The increases of enzyme activities were higher in the free and releasable fractions than in the homogenate but the changes in the proportional distributions of lysosomal enzyme activities between different fractions were minor. The present study also showed the presence of phosphomannosyl-enzyme receptors of lysosomal enzymes in the membranes of skeletal muscles. The total content of phosphomannosyl-enzyme receptors was unchanged 0-3 days after exertion but a small increase occurred 5-8 days after exertion. Instead, the occupancy of these lysosomal receptors with endogenous enzymes was significantly increased 1-5 days after exertion and decreased later to the control level.
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PMID:Latencies and phosphomannosyl-enzyme receptors of lysosomal enzymes during the appearance and repair of exercise injuries in mouse skeletal muscles. 609 63

To elucidate the metabolic abnormality of musclar dystrophy, 27 kinds of enzyme activity in various organs of control and dystrophic mice were examined. The organs examined included muscle, bone, heart, testis, uterus, spleen, thymus, submaxillary gland, stomach, pancreas, liver, kidney, brain, and lung. The activities of 14 different aminopeptidases, 5 endopeptidases, 4 glycosidases, phosphatase, esterase, and ribonuclease were measured. Most of the enzyme activities were significantly elevated in muscles and bones of dystrophic mice. These organs were similar in their patterns of enzyme abnormality. Among the 14 kinds of aminopeptidase activity studied, the degree of increased activity was greater for the aminopeptidases (AP):Ala-AP, Leu-AP, Met-AP, Phe-AP, Trp-AP, Gly-Pro-Leu-AP. In addition to aminopeptidases, there were significant increases in activities of chymotrypsinlike enzyme, cathepsin C, cathepsin D, several glycosidases and neutral ribonuclease in the muscles of dystrophic mice. Similarly increased enzyme activity was also observed in organs other than muscle and bone. Furthermore, protein content in most organs was higher in dystrophic mice than in those of control mice. These abnormalities were seen in both males and females. The present results suggest that there are extensive abnormalities in the protein metabolism in dystrophic mice. It seems therefore that the therapeutic approach to muscular dystrophy should be studies not only from the well-known abnormality of intramuscular endopeptidases, but from other aspects as well.
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PMID:Various enzyme activities in muscle and other organs of dystrophic mice. 625 14

Nineteen serum enzymes from patients with Duchenne muscular dystrophy and asthma, and normal subjects were studied. These enzymes include aminopeptidases, cathepsin C, angiotensin-converting enzyme, serine proteinase, sulphatase, phosphatase, esterases and ribonuclease. The enzymatic changes in dystrophic patients were related to two parameters: severity of the disease as judged from symptomatology, and duration of the disease. Most of the enzyme levels tested were increased in milder cases, but they tended to decrease with severity of the disease. On the other hand, there was a group of enzymes showing just opposite tendencies: serine proteinase, cathepsin C and ribonuclease. Even when viewed from the relationship to duration of the disease, the above mentioned grouping of enzymes was generally valid. Most of the enzyme levels, including those routinely applied as clinical parameters, tended to decrease, logarithmically, with an increase in duration of the disease. On the contrary, some others, including serine proteinase, cathepsin C and ribonuclease, tended to increase toward their control levels. Such tendencies were not found in the patients with asthma. The discrepancy between the above two groups of enzymes may have some implications for the process of protein degradation in dystrophic patients.
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PMID:Two different modes of enzymatic changes in serum with progression of Duchenne muscular dystrophy. 685 Nov 59