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)

A protease involved in oocyte maturation of a starfish, Asterina pectinifera, was explored. Trypsin-like and chymotrypsin-like activities of the 650-kDa protease in oocyte extract were revealed to increase more than twice under the influence of 1-methyladenine before germinal vesicle breakdown (GVBD) during maturation. The inhibitory potencies of leupeptin and its five analogs against the chymotrypsin-like activity, but not the trypsin-like activity, of this protease was well in accord with those against GVBD (Takagi Sawada et al. (1989). Dev. Biol. 133, 609-612). These results indicate that the chymotrypsin-like activity of the 650-kDa protease (most probably 20 S proteasome) plays a key role in starfish oocyte maturation.
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PMID:Participation of 650-kDa protease (20 S proteasome) in starfish oocyte maturation. 155 83

The multicatalytic proteinase is a high molecular weight nonlysosomal proteinase which has been isolated from a variety of mammalian tissues and has been suggested to contain several distinct catalytic sites. The enzyme degrades protein and peptide substrates and can cleave bonds on the carboxyl side of basic, hydrophobic, and acidic amino acid residues. The three types of activity have been referred to as trypsin-like, chymotrypsin-like, and peptidyl-glutamyl peptide bond hydrolyzing activities, respectively. All of these proteolytic activities are associated with a single band on native polyacrylamide gels. The pH optimum of the proteinase (pH 7.5-9.5) depends on the substrate. Using synthetic peptide substrates it was possible to demonstrate two distinct activities. Trypsin-like activity is inhibited at concentrations of the peptide aldehyde inhibitors leupeptin and antipain or of N-ethylmaleimide which have little or no effect on chymotrypsin-like activity. Results of mixed-substrate experiments also suggest that there are at least two distinct types of catalytic sites. All proteolytic activity is lost following dissociation by urea or by acid treatment. Polyclonal antibodies raised against the intact multicatalytic proteinase precipitate the complex but have little effect on its proteolytic activities.
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PMID:The multicatalytic proteinase. Multiple proteolytic activities. 274 38

Pseudomonad proteases disrupted the function and structure of demembranated cilia (axonemes) extracted from porcine tracheae. Proteolytic degradation by the two pseudomonad proteases elastase and alkaline protease and by trypsin and subtilisin impaired motility of ATP-activated axonemes. In addition, electron microscopic observation of negatively stained axonemes indicated that exposure to proteases caused dissociation into individual doublet or singlet microtubules. Inhibition of motility and axonemal fraying occurred when axonemes were treated with less than 5 U of proteolytic activity of any of the four proteases tested. When the effects of 2 U of each protease were compared, trypsin and subtilisin were able to produce immotility in less time than pseudomonad elastase and alkaline protease, while alkaline protease and subtilisin caused the most axonemal fraying in 10 min. Proteolytic digestion of axonemal proteins was detected by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. All four proteases cleaved dynein proteins (proteins necessary for motility), though treatment with trypsin resulted in the most extensive solubilization of axonemal proteins. Trypsin and subtilisin both produced more changes in the protein profiles of treated axonemes, using fewer units of proteolytic activity, than the pseudomonad proteases. However, the limited alteration of only a few axonemal proteins by pseudomonad proteases indicates that cleavage need not be extensive to produce dysfunction. Thus, ciliary axonemes are susceptible to proteolytic attack. Degradation of axonemal proteins by pseudomonad proteases, which are released during active infection, may contribute to the impaired ciliary function associated with pseudomonad colonization of the respiratory tract.
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PMID:Disruption of respiratory cilia by proteases including those of Pseudomonas aeruginosa. 309 41

The peptidase activity of the 20S proteasome (multicatalytic protease complex) was examined in the 100,000g supernatant fraction prepared from rat liver tissue. Fluorogenic substrates for three proteasome peptidase activities were selected on the basis of (i) observation of an accelerated degradation in the presence of sodium dodecyl sulfate (SDS) and (ii) preferential degradation by the proteasome. Peptidase activities were assayed using an immunoprecipitation technique utilizing polyclonal antibodies raised against the purified rat proteasome. The ability to demonstrate SDS activation of the proteasome is shown to be dependent upon the choice of substrate. In addition, among the cytosolic peptidases, the property of SDS activation appears to be unique to the proteasome. SDS activation profiles were determined for each peptidase activity. Chymotrypsin-like and peptidylglutamyl peptide-hydrolyzing activities exhibit a broad plateau of activation between 0.04 and 0.05% SDS. Trypsin-like activity exhibits a sharp peak of activation at an SDS concentration of 0.04%. The SDS activation profile can be altered by changing the protein (proteasome) concentration, i.e., increasing protein (proteasome) concentration of the reaction mixture produces a marked rightward shift of the activation profile. On the other hand, changing the substrate concentration does not alter the profile. In conclusion, a technique for measuring proteasome peptidase activity in the 100,000g supernatant has been described. This approach increases the ease of measurement of peptidase activity and provides data which may more closely reflect the in vivo activity of the proteasome.
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PMID:Sodium dodecyl sulfate (SDS) activation of the 20S proteasome in rat liver. 763 16

We have identified 27- and 26-kDa polypeptides in sea urchin egg jelly, both of which cross-reacted with the antibody against 20 S proteasome (multicatalytic proteinase) isolated from sea urchin sperm. Separation of egg jelly fraction by gel filtration or sucrose density gradient centrifugation revealed that these polypeptides comigrated as a complex with a molecular size much smaller than that of proteasome: the apparent molecular mass and the sedimentation coefficient were 200 kDa and 10 S, respectively. This protease significantly hydrolyzed the fluorogenic synthetic substrates for trypsin-like protease but little hydrolyzed those for chymotrypsin-like protease. Trypsin-like activity of sperm proteasome was activated up to more than threefold by a low concentration of sodium dodecyl sulfate (SDS), whereas the egg jelly 10 S protease was inhibited by SDS. Two-dimensional immunoblot and peptide mapping revealed that the 26-kDa polypeptide is a degradative product of 27-kDa polypeptide and that the 10 S protease is composed of a proteasome-related single 27-kDa polypeptide and its modified forms. These results indicate the presence of a 10 S novel assembly of a proteasome subunit only with trypsin-like activity.
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PMID:Identification of a 10 S trypsin-like protease that cross-reacts with anti-proteasome antibody in sea urchin egg jelly. 777 82

The 26S protease responsible for the selective degradation of ubiquitinated proteins is composed of a regulator complex and the 20S proteosome which is the catalytic core. In the absence of ATP the 26S protease dissociates to free regulator complex and 20S proteosome, and this process can be reversed in vitro in the presence of ATP. Trypsin, chymotrypsin or proteinase K digestion selectively removes several subunits of the free regulator complex of Drosophila 26S protease generating a well-defined new subparticle. Three subunits highly sensitive in the free regulator complex, however, were selectively protected within the in vitro reconstituted 26S protease, indicating that the ATP-dependent association of the 20S proteosome in the regulator complex selectively shields these subunits. In the same concentration range the 20S proteosome was completely resistant for proteolytic degradation.
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PMID:Dissection of the regulator complex of the Drosophila 26S protease by limited proteolysis. 860 38

During cold exposure, animals upregulate their metabolism and food intake, potentially exposing them to elevated reactive oxygen species (ROS) production and oxidative damage. We investigated whether acute cold (7 +/- 3 degrees C) exposure (1, 10, or 100 h duration) affected protein oxidation and proteasome activity, when compared to warm controls (22 +/- 3 degrees C), in a small mammal model, the short-tailed field vole Microtus agrestis. Protein carbonyls and the chymotrypsin-like proteasome activity were measured in plasma, heart, liver, kidney, small intestine (duodenum), skeletal muscle (gastrocnemius), and brown adipose tissue (BAT). Trypsin-like and peptidyl-glutamyl-like proteasome activities were determined in BAT, liver, and skeletal muscle. Resting metabolic rate increased significantly with duration of cold exposure. In skeletal muscle (SM) and liver, protein carbonyl levels also increased with duration of cold exposure, but this pattern was not repeated in BAT where protein carbonyls were not significantly elevated. Chymotrpsin-like proteasome activity did not differ significantly in any tissue. However, trypsin-like activity in SM and peptidyl-glutamyl-like activity in both skeletal muscle and liver, were reduced during the early phase of cold exposure (1-10 h), correlated with the increased carbonyl levels in these tissues. In contrast there was no reduction in proteasome activity in BAT during the early phase of cold exposure and peptidyl-glutamyl-like activity was significantly increased, correlated with the lack of accumulation of protein carbonyls in this tissue. The upregulation of proteasome activity in BAT may protect this tissue from accumulated oxidative damage to proteins. This protection may be a very important factor in sustaining uncoupled respiration, which underpins nonshivering thermogenesis at cold temperatures.
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PMID:The consequences of acute cold exposure on protein oxidation and proteasome activity in short-tailed field voles, microtus agrestis. 1210 21

Changes in the proteasome system, a dominant actor in protein degradation in eukaryotic cells, have been documented in a large number of physiological and pathological conditions. We investigated the influence of monounsaturated or polyunsaturated fatty acids (PUFAs) supplemented diets on the proteasome system, in rat skeletal muscles. Thirty rats were randomly assigned to three groups. The control group received only a standard diet. The monounsaturated fatty acid (MUFA) enriched diet group was fed with 3% sunflower oil in addition to standard food, and the polyunsaturated fatty acid supplemented diet group received 9% Maxepa) in addition to the standard diet. We analyzed muscle proteasome activities and content. Monounsaturated or PUFAs supplemented diets given for 8 weeks induced a significant increase in proteasome activities. With the polyunsaturated fatty acid enriched diet, the chymotrypsin-like and peptidylglutamylpeptide hydrolase activities increased by 45% in soleus and extensor digitorum longus (EDL), and by 90% in the gastrocnemius medialis (GM) muscle. Trypsin-like activity of the proteasome increased by 250% in soleus, EDL and GM. This increase in proteasome activities was associated with a concomitant enhancement in the muscle content of proteasome. Proteasome activities and level were less stimulated with a monounsaturated fatty acid supplemented diet. This study provides evidence that a monounsaturated or polyunsaturated fatty acid supplemented diet may regulate muscle proteasomes. Unsaturated fatty acids are particularly prone to free radical attack. Thus, we suggest that alterations in muscle proteasome may result from monounsaturated and polyunsaturated fatty acid-induced peroxidation, in order to eliminate damaged proteins.
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PMID:Increased muscle proteasome activities in rats fed a polyunsaturated fatty acid supplemented diet. 1267 66

Heat shock proteins (HSP's) closely interact with 20S proteasome and have been shown to maintain catalytic activity, responsible for the prevention of protein aggregation. A decrease in both proteasome activity and heat shock proteins (HSP's) has been observed with age. We investigated whether life-long calorie restriction (CR), a natural intervention, which prolongs life span, could prevent the age-associated decline in HSP's and restore the proteolytic activity of the 20S proteasome in skeletal muscle. Hence, we investigated HSP's and proteasome activity in the soleus muscle from 12-mo-old (Adult) and 26-28 mo old ad libitum fed (Old), and 26-28 mo old CR (Old-CR; fed 40% of ad libitum for their lifespan) male Fisher 344 rats. Trypsin-like proteasome activity in Old rats was significantly less than both Adult and Old-CR rats. Furthermore, no significant changes where found in chymotrypsin-like proteasome activity due to age or diet. Levels of HSP 72 and 25 were significantly less in Old animals when compared to both Adult and Old-CR rats. In contrast, HSP 90 was elevated in Old rats by 220% compared to adult animals and life-long calorie restriction caused a significant induction (150%) compared to age-matched ad libitum fed animals. Protein carbonyls were significantly elevated in Old when compared to Adult rats, but showed no significant decline due to life long CR. This study shows that HSP's may be largely responsible for the restoration of the trypsin-like activity of the 20S proteasome with age. The large increase in HSP 90 is intriguing and further studies are required to elucidate its role in maintaining 20S proteasome function.
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PMID:Life long calorie restriction increases heat shock proteins and proteasome activity in soleus muscles of Fisher 344 rats. 1566 30

The effect of uremia on renal cortex cytoplasmic proteasomes was examined by comparing proteasomes isolated from 5/6th nephrectomy rats 3-months post-surgery and age-matched control rats with normal renal function. ATP-dependent proteasome activity was reduced 50% in chronic renal failure rats (CRF) 3-months post-surgery compared to age-matched control rats. Trypsin-like (T-like) proteasome activity was decreased 90% compared to 70% for caspase-like activity (PGPHase) and 30% for chymotrypsin-like activity (C-like). ATP-independent proteasome activity was decreased 60% in CRF rats 3-months post-surgery. ATP-independent renal cortex proteasome T-like activity in CRF rats was 4% of age-matched control rats. C-like and PGPHase activities were 60% and 50% of age-matched controls, respectively. Uremia was associated with decreased 26S proteasome beta subunits. CRF rat 26S proteasomes had decreased levels of beta1, beta3, alpha4, and alpha7 abundances. Compared to age-matched control rats with normal renal function, CRF rats had a 25% increase in ubiquitinated cytoplasmic proteins. Decreased renal cytoplasmic proteasome activity may play a role in renal tubule hypertrophy common to renal diseases associated with decreased functioning nephrons.
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PMID:Renal cytoplasmic proteasome proteinase activities are altered in chronic renal failure. 1629 21

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