EC:3.4.22.54 - FACTA Search

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

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

We previously identified a third type of the calpain large subunit named p94 as a cDNA whose mRNA is expressed exclusively in skeletal muscle at levels approximately 10-fold more abundant than those of the conventional calpain subunit. Rat skeletal muscle fractions were screened by two anti-peptide antibodies raised against two specific sequences in p94, but the p94 protein could not be found. To examine this apparent discrepancy between the amounts of mRNA and protein, wild-type p94 was expressed in COS cells. Although p94 mRNA was expressed normally in COS cells, only very small amounts of the protein and its presumed degradation products were detected by the antibodies described above. A series of COOH-terminal deletion mutants was constructed and expressed in COS cells and L8 cells, a rat myoblast cell line. When IS2, one of the specific regions of p94, was completely eliminated, the truncated p94 proteins were expressed normally, and the amount of the expressed proteins was at least 100-fold higher than with wild-type p94. Moreover, when site-directed mutagenesis was introduced to change the presumed active-site cysteine of p94 to serine or alanine, the mutated p94 proteins were highly expressed like the IS2-deleted mutants. These results indicate the following. 1) The mRNA for p94 is normally transcribed in COS, L8, and muscle cells; 2) the p94 protein becomes active in the cytosol immediately after translation; 3) the p94 protein virtually disappears from cells by autocatalytic degradation; and 4) the p94-specific IS2 region plays an important role in this degradation. In vitro translation experiments support this idea. Furthermore, p94 shows nuclear localization when expressed in COS cells. The physiological function of p94 in muscle is discussed on the basis of the analysis of these transfectants.
...
PMID:Muscle-specific calpain, p94, is degraded by autolysis immediately after translation, resulting in disappearance from muscle. 848 13

p94, a muscle-specific member of calpain family, is unique in that it undergoes rapid and exhaustive autolysis with a half-life of less than 1 h resulting in its disappearance from muscle. Recently, p94 was shown to be responsible for limb girdle muscular dystrophy type 2A. To elucidate the muscular proteolytic system mediated by p94 and to solve the mystery of its unusually rapid autolysis, we searched for p94-binding proteins by the two-hybrid system. Although calpain small subunit plays a crucial role for regulation of ubiquitous calpains, it did not associate with p94. After a screening of skeletal muscle library, connectin (or titin), a gigantic filamentous protein spanning the M- to Z-lines of muscle sarcomere, was found to bind to p94 through a p94-specific region, IS2. The connectin-insoluble fraction of washed myofibrils contained full-length intact p94, suggesting that connectin regulates p94 activity.
...
PMID:Muscle-specific calpain, p94, responsible for limb girdle muscular dystrophy type 2A, associates with connectin through IS2, a p94-specific sequence. 853 79

The muscles of IL-6 transgenic mice suffer from atrophy. Experiments were carried out on these transgenic mice to elucidate activation of proteolytic systems in the gastrocnemius muscles and blockage of this activation by treatment with the anti-mouse IL-6 receptor (mIL-6R) antibody. Muscle atrophy observed in 16-wk-old transgenic mice was completely blocked by treatment with the mIL-6R antibody. In association with muscle atrophy, enzymatic activities and mRNA levels of cathepsins (B and L) and mRNA levels of ubiquitins (poly- and mono-ubiquitins) increased, whereas the mRNA level of muscle-specific calpain (calpain 3) decreased. All these changes were completely eliminated by treatment with the mIL-6R antibody. This IL-6 receptor antibody could, therefore, be effective against muscle wasting in sepsis and cancer cachexia, where IL-6 plays an important role.
...
PMID:Interleukin 6 receptor antibody inhibits muscle atrophy and modulates proteolytic systems in interleukin 6 transgenic mice. 855 Aug 42

Chicken cystatin and human kininogen domain 2 are members of the cystatin superfamily of protein-type cysteine proteinase inhibitors. They show structural and functional similarities, but only human kininogen domain 2 inhibits calpain. Using recombinant chicken cystatin as a scaffold for hybrid cassette analysis, the known reactive-site regions (N-terminus, first hairpin loop and second hairpin loop) were substituted by the corresponding sequences of human kininogen domain 2 in a single and combined manner. Seven hybrids were expressed, purified to homogeneity, characterized protein-chemically, and their inhibition of papain, actinidin, human cathepsin B, human cathepsin L and calpain (80-kDa subunit of rabbit skeletal muscle calpain II and porcine erthrocyte calpain 1) was determined. Strong but temporary inhibition of calpain by chicken cystatin hybrids carrying the N-terminus alone (variant sc1-KD2) or the N-terminus together with the first hairpin loop (variant sc1/2-KD2) was observed; hybrids of the second hairpin loop (sc3-KD2, sc1/3-KD2, sc2/3-KD2, sc1/2/3-KD2) were less strong calpain inhibitors. These data indicate that the inhibiton of calpain by human kininogen domain 2 requires the correct conformation and combination of several contact sites, and suggest that the N-terminus and the first hairpin loop play a major role in this ensemble. Remarkably, hybrid sc2-KD2 exhibited 5 or 150 times stronger inhibition of actinidin compared to native chicken cystatin or to proteolytically isolated human kininogen domain 2, respectively. This indicates an important role of the first hairpin loop of cystatins in the interaction with actinidin. Along with the impaired inhibition of cathepsin L, papain, actinidin, cathepsin B and calpain by the hybrids sc1/3-KD2, sc2/3-KD2 and sc1/2/3-KD2, these results support our hypothesis that all three predicted contact regions of kininogen domain 2 contribute to binding in the active-site clefts of papain-like enzymes in a finely balanced manner.
...
PMID:Hybrids of chicken cystatin with human kininogen domain 2 sequences exhibit novel inhibition of calpain, improved inhibition of actinidin and impaired inhibition of papain, cathepsin L and cathepsin B. 865 98

The Caenorhabditis elegans sex determination gene tra-3 is required for the correct sexual development of the soma and germ line in hermaphrodites, while being fully dispensable in males. Genetic analysis of tra-3 has suggested that its product may act as a potentiator of another sex determination gene, tra-2. Molecular analysis reported here reveals that the predicted tra-3 gene product is a member of the calpain family of calcium-regulated cytosolic proteases, though it lacks the calcium binding regulatory domain. Calpains are regulatory processing proteases, exhibiting marked substrate specificity, and mutations in the p94 isoform underlie the human hereditary condition limb-girdle muscular dystrophy type 2A. The molecular identity of TRA-3 is consistent with previous genetic analysis which suggested that tra-3 plays a very selective modulatory role and is required in very small amounts. Based on these observations and new genetic data, we suggest a refinement of the position of tra-3 within the sex determination cascade and discuss possible mechanisms of action for the TRA-3 protein.
...
PMID:The tra-3 sex determination gene of Caenorhabditis elegans encodes a member of the calpain regulatory protease family. 888 39

p94 belongs to the calcium-dependent cysteine protease (calpain) family which has been detected from human to mold. In contrast to the conventional m- and mu-calpains which are expressed ubiquitously, expression of p94 predominates in skeletal muscle, and the mRNA for p94 is at least 10-times more abundant than mRNAs encoding in the m- and mu-types. The unique feature of p94 is that it undergoes rapid and exhaustive autolysis with a half-life of less than half an hour. To elucidate the nature of specific and abundant expression in skeletal muscle, and to proceed toward gene targeting p94, we have cloned and characterized mouse and rat genes for p94, and compared them with that of the human sequence. The sequence comparison among three mammalian species revealed several conserved regions including possible transcription factor binding sites. Furthermore, mouse and rat upstream regions of p94 are conserved over 3 kb suggesting that expression of p94 in skeletal muscle of both rodents is similarly regulated.
...
PMID:Highly conserved structure in the promoter region of the gene for muscle-specific calpain, p94. 899 99

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.
...
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.
...
PMID:mRNA levels of the calpain system in longissimus muscle of young pigs during prolonged feeding of a protein-free diet. 911 Feb 9

Using the yeast two-hybrid system, we have recently reported that skeletal muscle-specific calpain, p94, binds specifically to connectin (or titin), a gigantic muscle elastic protein. Connectin has at least two binding sites for p94; one is at the N2-line region and the other is at the extreme C-terminus. In order to analyze the interaction between p94 and the C-terminus of connectin, we examined the C-terminal sequence of human skeletal muscle connectin. The sequence was essentially identical to that of heart muscle reported by Labeit and Kolmerer (1995, Science 270, 293-296), and the minimal binding site for p94 contained two IgC2 motifs and the intervening sequence called "M-is7." The exon encoding M-is7 is reported to be alternatively spliced depending on muscle tissues, resulting in the existence of both types of connectin with and without M-is7. However, the C-terminal region of connectin bound to p94 through M-is7. Our results suggest that the interaction between p94 and the C-terminus of skeletal muscle-type connectin is involved in tissue-specific myofibriogenesis.
...
PMID:Muscle-specific calpain, p94, interacts with the extreme C-terminal region of connectin, a unique region flanked by two immunoglobulin C2 motifs. 918 18

Resumption of meiosis at fertilization is mediated by increased levels of calcium which activate several calcium-dependent enzymes. Calpain, a neutral calcium-activated thiol protease, is present in the cytoplasm of many cells. Its activation is associated with limited autolysis and relocalization in the cell. Calpain is thought to participate in the regulation of mitosis and resumption of meiosis in Xenopus oocytes. In this study we followed the activation and localization of calpain during maturation and fertilization in rat eggs using a polyclonal antibody raised against chicken muscle calpain. A band of 80 kDa was detected in GV oocytes and its level increased in unfertilized MII eggs. At the early stages of fertilization, we observed a transient decrease in the level of calpain which was regained at the pronuclear stage. Adding Ca2+ to lysate of MII eggs resulted in an additional band, representing the degraded fragment of the activated protein. In eggs activated by ionomycin, calpain level decreased, followed by an increase in a dynamic similar to that observed in fertilized eggs. Egg activation also led to changes in calpain localization. A homogenous distribution was observed in GV and in MII eggs, while in activated eggs it was localized predominantly overlying the metaphase plate. In the current study we demonstrate the presence of calpain in the rat egg. During maturation, calpain level increases; however, during egg activation, in response to [Ca2+]i changes, calpain undergoes autolysis, translocaton, and fluctuation in its level. We therefore suggest a correlation between calpain activation and fertilization.
...
PMID:Changes in calpain during meiosis in the rat egg. 926 68

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>