Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.22.54 (calpain 3)
430 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The objectives were to investigate the mechanisms by which glucocorticoids control proteolysis in muscle cells and the relationship between the calpain:calpastatin system and proteolysis in muscle. Female rabbits were treated with 1 mg dexamethasone (Dex)/kg body weight per day for 0, 1, 2 or 4 days after which animals were killed and muscle samples taken for analyses. Dex reduced urinary N tau-methylhistidine (NMH) 48% (day 4 versus day 1 of Dex treatment) and muscle NMH concentrations by 49% (day 1) to 40% (day 2) respectively, suggesting that protein degradation was reduced. To investigate whether the changes in apparent proteolysis were related to calpains, we examined the effects of Dex on muscle calpain and calpastatin activities. These were unaffected by Dex. This implies that Dex-dependent changes in degradation are not mediated by changes in muscle calpain or calpastatin activities. We studied the effects of Dex on calpain and calpastatin gene expression as a means of clarifying the relationships between proteinase gene expression and proteinase activities. mu-Calpain mRNA concentration was unaffected by Dex but m-calpain mRNA and calpastatin mRNA concentrations were reduced by 42-55% and 40% respectively. Dex had a similar effect on beta-actin mRNA. Although calpain and calpastatin genes behaved as house-keeping genes, changes in their expression mimicked apparent changes in proteolysis. The observation that calpain and calpastatin activities were unchanged indicates that additional regulation of the calpain:calpastatin system exists at other sites in muscle cells. To determine whether Dex-dependent changes in proteolysis were mediated indirectly, we assayed the effects of Dex on plasma thyroid hormone concentrations.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of dexamethasone on muscle protein homeostasis and on calpain and calpastatin activities and gene expression in rabbits. 751 33

Previous studies have led to the hypothesis of a possible role for m-calpain (EC 3.4.22.17) in myoblast fusion in culture in vitro. To support this hypothesis, an antisense strategy has been used with cultured primary rat myoblasts. Using an appropriate antisense oligodeoxyribonucleotide to m-calpain mRNA, an inhibition of myoblast fusion has been observed, the maximum being obtained when the cell culture was treated with 30 microM of oligomer. Synthesis of m-calpain was decreased by 48% while high concentrations of antisense oligonucleotide do not significantly affect myoblast proliferation. The specificity of m-calpain intervention during fusion has also been confirmed using antisense oligonucleotides to mu-calpain and p94 mRNAs, respectively.
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PMID:An antisense oligodeoxyribonucleotide to m-calpain mRNA inhibits myoblast fusion. 765 25

In the mammalian calpain system, two isozymes, mu- and m-types, have been well-characterized, and are considered to be conserved in the avian system as well. Thus, chicken calpain, whose large subunit was cloned in 1984, has long been regarded as 'm-type', since chicken also possesses 'mu-type' activity, although its structure has not yet been elucidated. In this study, we identified three kinds of cDNAs encoding distinct chicken calpain large subunits. Two of the three were highly similar to the mammalian mu-type and p94, respectively. The third shows a much higher similarity to mammalian m-type than the first identified chicken calpain, indicating that this molecule, which has been considered as 'm-type', should be renamed. We, therefore, designated it 'mu/m-calpain', because its sequence and Ca(2+)-sensitivity lie between mu- and m-types. Northern blot analyses revealed that chicken mCL and muCL, as well as mu/mCL, show ubiquitous expression, while p94 was detected predominantly in skeletal muscle, as previously reported. Chicken skeletal muscle, therefore, expresses at least four types of calpain, three ubiquitous and one tissue-specific.
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PMID:Identification of a third ubiquitous calpain species--chicken muscle expresses four distinct calpains. 774 67

S-nitrosylation by sodium nitroprusside, a nitric oxide-generating agent, inactivates, almost completely at neutral pH, the proteolytic activity of the high Ca2+ requiring calpain form (m-calpain) from skeletal muscle. This inhibition is reversed by treating the inactivated proteinase with dithiothreitol. When exposed to sodium nitroprusside, the single m-calpain-like isoform from human neutrophils is inactivated too. On the contrary, the activities of muscle mu-calpain isoform and the human erythrocyte single mu-calpain-like isoform are poorly affected by nitric oxide treatment at neutral pH; however, inactivation is progressively enhanced if the pH of incubation mixtures is shifted to acidic values, a condition which conversely reduces NO-mediated inactivation of m-calpain. On the basis of these results, it is conceivable to postulate that nitric oxide may exert a regulatory role of muscle calpain activity by modulation of either one or the other proteinase isoform, also in concomitance with fluctuations of hydrogen ions in contracting cells occurring in physiological or pathological conditions. The regulatory role of nitric oxide is also supported by the observation that S-nitrosylation induces inactivation of calpain also in intact human neutrophils. Furthermore, the reversibility of the inactivation of calpain by nitric oxide may be exploited to study the relationship between the molecular structure and the catalytic and regulatory mechanisms of this neutral proteinase.
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PMID:Reversible inactivation of calpain isoforms by nitric oxide. 786 86

Lobster skeletal muscles contain four Ca2+-dependent cysteine proteinases (CDPs I, IIa, IIb, and III) that degrade myofibrillar proteins. Lobster CDPs share many properties with calpains from vertebrate tissues, but differ in native mass and subunit composition. Recently, cDNAs encoding a calpain-like protein (Dm-calpain; 91.5 or 94 kDa) have been isolated from fruit fly, Drosophila melanogaster. To further clarify the relationship between invertebrate CDPs and mammalian calpains, antibodies specific for mu-, m-, p94 (nCL-1), and Dm-calpains and lobster CDP IIb (native M(r) 195,000, subunit M(r) 95,000) were used in immunoblots to test for antigenic cross-reactivity. No common epitopes were found between CDP IIb and vertebrate calpains. However, polyclonal antibodies to CDP IIb cross-reacted strongly with a C-terminal 70-kDa portion of Dm-calpain expressed in Escherichia coli. Conversely, polyclonal antibodies to Dm-calpain recognized CDP IIb. A second CDP, CDP IIa (native M(r) 125,000), was partially purified from lobster muscle; enzyme activity coeluted with a 60-kDa polypeptide using anion-exchange chromatography. The 60-kDa protein reacted with a polyclonal antibody raised against a 20-amino acid peptide sequence found around the catalytic cysteine residue of mu- and m-calpains, but not with antibodies raised against other regions of mu- or m-calpain or with the anti-CDP IIb antibody. These results suggest that (1) the CDP IIb is the homolog of Drosophila calpain in crustaceans and (2) the active site regions of CDP IIa and mu- and m-calpains are similar.
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PMID:Immunological analysis of two calpain-like Ca2+-dependent proteinases from lobster striated muscles: relationship to mammalian and Drosophila calpains. 901 18

This experiment was conducted to investigate the effects of feeding a protein-free diet on mRNA levels of the calpain system in skeletal muscle of growing pigs during a 15-d feeding trial. Twenty crossbred barrows were divided into two dietary treatments: control or protein-free diet (mean initial weight for both groups: 38.3 kg). Daily diets were provided at 2.5 times energy for maintenance (twice a day). On d 0, 3, and 14, biopsies were taken from longissimus muscle between the third and fourth ribs (d 0 and 3) and between the fourth and fifth rib (d 14). On d 15, animals were slaughtered and longissimus muscles were dissected and analyzed for calpastatin, and mu- and m-calpain activity. From biopsies, mRNA level of skeletal muscle calpain, mu- and m-calpain, and calpastatin were measured using reversed transcription PCR. Subsequently, PCR products were quantified using ELISA. Feeding the protein-free diet lowered growth rate to almost zero. Only total level of mRNA of mu-calpain on d 14 was influenced by dietary treatments, being lower for the protein-free group than for the control group (P < .05). However, proteolytic activities were not different between treatments. Total RNA concentration in longissimus muscle decreased during the experiment for both treatments, but on d 14 this was more pronounced for the protein-free than for the control group (P < .05). If mRNA levels were corrected for this change, specific mRNA level on d 14 of skeletal muscle calpain and mu-calpain were lower (P < .05) for the protein-free than for the control group. These data suggest that activity of the components of the calpain system are differentially regulated.
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PMID:mRNA levels of the calpain system in longissimus muscle of young pigs during prolonged feeding of a protein-free diet. 911 Feb 9

Calpains are calcium-dependent intracellular nonlysosomal proteases that are believed to participate in signal transduction. In vertebrates, five different calpains have so far been identified, of which three, mu-, m-, and mu/m-calpain, are ubiquitously expressed while the other two, nCL-1 (p94) and nCL-2, exhibit a restricted tissue distribution. We have identified two new vertebrate calpain genes, Capn5 and Capn6. The human and mouse amino acid sequences of these new calpains are the most divergent of the vertebrate calpains identified. They possess most of the residues conserved in calpain family members but the C-terminal region lacks any homology to the calmodulin-like domain of other vertebrate calpains. They both exhibit significant homology over the entire coding region to the protein encoded by the gene tra-3, involved in nematode sex determination, and Capn5 may represent its vertebrate orthologue. The predicted Capn6 protein lacks critical active site residues and may not be proteolytically active. Both genes are differentially expressed in human tissues with highest RNA levels for Capn5 occurring in the testis, liver, trachea, colon, and kidney, while Capn6 is highly expressed only in the placenta sample of the 50 tissues examined. Phylogenetic analysis suggests that the vertebrate calpains arose through a series of gene duplication events that began before the initial divergence of the vertebrate and invertebrate lineages. The discovery of these two new calpains highlights a hitherto unknown complexity of the calpain family with subclasses perhaps possessing different modes of regulation.
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PMID:A new subfamily of vertebrate calpains lacking a calmodulin-like domain: implications for calpain regulation and evolution. 933 74

A study was conducted to examine the effects of bird age and muscle tissue type on calpain and calpastatin activities in turkey skeletal muscle. Enzymatic activities of calpains and calpastatin were found to vary with bird age and muscle type. Breast muscle from younger birds (age 5 wk) had higher mu-calpain, m-calpain, and calpastatin activities (P < 0.05) than breast muscle from older birds (9, 13, and 17 wk of age). Thigh muscle calpain activities were not affected by bird age, but thigh calpastatin activity was found to increase with age, with muscle from 17-wk-old birds having 35% higher activity than muscle from 13-wk-old birds. When extracted from 9-wk-old turkeys, breast muscle mu-calpain activity was 30% higher than thigh muscle mu-calpain. By 13 wk of age, breast muscle mu-calpain activity was 20% less than thigh mu-calpain. Thigh muscle m-calpain and calpastatin activities were found to be significantly higher (P < 0.05) than that found in breast muscle, with some values more than double in older birds (17 wk of age).
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PMID:Effects of age and tissue type on the calpain proteolytic system in turkey skeletal muscle. 949 7

Sepsis is associated with a pronounced catabolic response in skeletal muscle, mainly reflecting degradation of the myofibrillar proteins actin and myosin. Recent studies suggest that sepsis-induced muscle proteolysis may reflect ubiquitin-proteasome-dependent protein breakdown. An apparently conflicting observation is that the ubiquitin-proteasome pathway does not degrade intact myofibrils. Thus, it is possible that actin and myosin need to be released from the myofibrils before they can be ubiquitinated and degraded by the proteasome. We tested the hypothesis that sepsis results in disruption of Z-bands, increased expression of calpains, and calcium-dependent release of myofilaments in skeletal muscle. Sepsis induced in rats by cecal ligation and puncture resulted in increased gene expression of micro-calpain, m-calpain, and p94 and in Z-band disintegration in the extensor digitorum longus muscle. The release of myofilaments from myofibrillar proteins was increased in septic muscle. This response to sepsis was blocked by treating the rats with dantrolene, a substance that inhibits the release of calcium from intracellular stores to the cytoplasm. The present results provide evidence that sepsis is associated with Z-band disintegration and a calcium-dependent release of myofilaments in skeletal muscle. Release of myofilaments may be an initial and perhaps rate-limiting component of sepsis-induced muscle breakdown.
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PMID:Sepsis stimulates release of myofilaments in skeletal muscle by a calcium-dependent mechanism. 1042 67

The Yoshida AH-130 rat ascites hepatoma is a model system for studying the mechanisms involved in the protein hypercatabolism associated with cancer cachexia. The present study was aimed at investigating if the calpain-3 gene expression in skeletal muscle was affected by tumor growth. The results presented clearly show that calpain-3 gene expression is considerably reduced in experimental cancer cachexia, while there is a reciprocal change in the expression of the ubiquitin-dependent proteolytic system and in the ubiquitous m-calpain. The results, observed during cancer cachexia, suggest a potential counterregulatory role of calpain-3 in muscle proteolysis.
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PMID:Calpain-3 gene expression is decreased during experimental cancer cachexia. 1080 31


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