EC:3.4.22.54 - FACTA Search

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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 attachment of two strains of Mycoplasma bovoculi to erythrocytes was measured using 35S-methionine-labelled organisms. Receptor sites of M. bovoculi involved in this attachment are trypsin-sensitive, since mild trypsin treatment of the intact organisms abolished this process completely. Pretreatment of erythrocytes with trypsin or increasing concentrations of neuraminidase resulted in no measurable effect. Monoclonal antibody MA25.5 directed against a M. bovoculi surface antigen of 94 kDa termed p94 blocked 40% of the attachment, while MA18.13 directed against a 57 kDa protein band of M. bovoculi had no effect on the attachment process. Other properties of M. bovoculi were tested using six strains of the mycoplasma and erythrocytes from several animal species. None of the strains showed haemagglutinating or haemadsorbing activities.
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PMID:Interactions of Mycoplasma bovoculi with erythrocytes: role of p94 surface protein. 1041 66

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 muscle-specific calpain isoform p94 has high propensity to autocatalytic degradation, thus no significant amounts of the intact active protein have been available so far. As a result, aspects like its regulation (via Ca2+ and other factors) and its intracellular localization are unknown or obscure. In this work, large amounts of human p94 have been produced in insect cells using a recombinant baculovirus expression system. Although most of the protease was recovered in an insoluble and catalytically inactive form, the soluble fraction contained amounts of intact active p94 adequate for its characterization. His-tagged recombinant p94, obtained by the same expression system, was partially purified as an active product. Both the unmodified and the partially purified His-tagged p94 bound calcium with high affinity, and their autolytic activity required Ca2+. The sensitivity of the catalytic activity of the recombinant protease to Ca2+ was very high. In fact, p94 in soluble cell extracts autolysed to a significant extent even in the presence of submicromolar Ca2+ levels. Thus, in analogy to what demonstrated for the ubiquitous m- and micro-calpain isoforms, intracellular Ca2+ might be one of the factors controlling the activity of this muscle-specific calpain isoform.
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PMID:Expression, partial purification and functional properties of themuscle-specific calpain isoform p94. 1050 17

Members of the calpain proteinase family are present in all mammalian cells, although a novel calpain 94 kDa isoform is found almost exclusively in skeletal muscle. p94 is difficult to purify from muscle and recombinant p94 autolyses rapidly when expressed in COS cells. However, in vivo the enzyme may be stabilised by interaction with titin, which has two well-characterised binding sites for p94 at the N2- and M-lines. Both these titin subdomains are subject to muscle-specific alternative splicing, which could be related to p94 expression level or stability in muscles of different fibre type. In this study, porcine longissimus dorsi (LD), trapezius (TZ) and adductor longus (AL) were characterised as fast, intermediate and slow using commercially available specific anti-human fast- and slow-myosin heavy chain mAbs and also by conventional histochemistry. p94 was quantified both in whole muscle preparations and single fibres by western blotting using an anti-p94 antiserum generated by expressing a recombinant p94 sequence as a GST fusion protein antigen. SDS PAGE and immunoblotting revealed a single band of approximately 94 kDa with identical mobility in all muscle and fibre preparations. The intensity of the 94 kDa band was greater in LD (22 +/- 1.7 densitometric units mean +/- SEM, n = 3) than TZ and AL (10 +/- 2.3 and 6 +/- 0.9 units, respectively). Expressed as a ratio relative to actin immunoreactivity, p94 is present in all types of single fibres isolated from TZ, but at a significantly lower level (P < 0.01) in slow type I (0.08 +/- 0.01, n = 9), compared to fast IIA/IIB fibres (0.22 +/- 0.02, n = 26). No evidence was seen for rapid or variable rate of p94 degradation in either type of fibre. These data suggest a positive correlation between p94 expression level and fast glycolytic characteristics in porcine muscle.
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PMID:Fibre type-specific expression of p94, a skeletal muscle-specific calpain. 1053 22

p94(fer) is a cytoplasmic and nuclear tyrosine kinase whose function has been linked to cell growth. p94(fer) accumulates at different levels in various cell types and is not detected in pre-B, pre-T and T-cells (Halachmy, S., Bern, O., Schreiber, L., Carmel, M., Sharabi, Y., Shoham, J., Nir, U., 1997. p94(fer) facilitates cellular recovery of gamma irradiated pre-T cells. Oncogene 14, 2871-2880). The fer RNA, encoding p94fer, is transcribed from the FER locus in human rat and mouse. In the present work, a Fer gene transcription initiation point was determined, and the Fer promoter was cloned. A DNA genomic fragment, extending 3698bp upstream of the fer RNA start site, was isolated, sequenced and functionally characterized. A transient transfection assay, carried out in fibroblastic cell lines, revealed the presence of the Fer promoter within the cloned genomic fragment. The Fer promoter contains neither an obvious 'TATA' element nor a putative initiator sequence, but is composed of positive and negative, cis-acting elements. Negative regulation was found to be the main cause for dysfunctioning of the Fer promoter in a T-cell leukemia cell line (Jurkat). The minimal Fer promoter that is still active in fibroblasts consists of an AP1 binding site located 14bp upstream of the fer transcription initiation point. This minimal promoter was not active in the Jurkat T-cell leukemia cells and did not bind AP1 in these cells. Three additional AP1 sites were identified in functional sequences of the Fer promoter. Thus, the availability of AP1 activity may contribute as well to the modulation of the Fer promoter activity. The presumed regulatory role of AP1 in modulating the Fer promoter activity implies a link between cell growth and the Fer gene expression level. Indeed, exposure of fibroblasts to low serum growth conditions reduced the cellular level of the fer RNA.
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PMID:Role of positive and negative regulation in modulation of the Fer promoter activity. 1060 2

The coding regions of the bovine and sheep skeletal muscle-specific calpains (CANP3 or p94) were cloned and sequenced by RT-PCR. Direct sequencing confirmed open reading frames of 2466 bp for both species, and bovine and sheep CANP3 shared 98.5% identity in their amino acid code. These sequences were greater than 88% identical to human, pig, rat and mouse CANP3 nucleotide sequences, and greater than 93% identical for the amino acid code. Single nucleotide polymorphisms were used to map the bovine and sheep CANP3 genes in two steps. The genes were placed into linkage groups based on two-point LOD scores (> or = 3.0) and the best order was determined with multipoint linkage analysis (CRI-MAP vs. 2.4). Bovine CANP3 mapped to bovine chromosome 10, relative position 33.9 CM with linkage to nine markers; LOD scores ranged from 4.89 to 8.61 (order, BMS2349-BL1035-RME25-CANP3-BM6305-BMS86 1-ILSTS053-BMS2742-CA090-BMS529). Ovine CANP3 mapped to chromosome 7, relative position 58 CM, with linkage to only one marker, BMS861 (a bovine microsatellite that has been used in sheep), with no recombination and a LOD score of 5.72. The observed heterozygosity was 50% for both CANP3 markers in bovine and sheep pedigrees.
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PMID:Molecular cloning and mapping of the bovine and ovine skeletal muscle-specific calpains. 1061 36

p94, a muscle-specific member of the calpain family, also called calpain3 (CAPN3), has been identified as the gene product responsible for limb-girdle muscular dystrophy type 2A (LGMD2A). To elucidate the molecular mechanism of LGMD2A, the effects of missense point mutations found in LGMD2A on the unique properties of p94 were studied. All of the mutants examined to date lose their proteolytic activity against fodrin, a cytoskeletal protein, strongly suggesting that of the specific properties of p94, the loss of protease activity is the prime cause of LGMD2A. Studies of LGMD2A and p94 suggest a novel molecular mechanism for muscular dystrophy, showing that a combined pathologic and biochemical approach is effective.
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PMID:New aspect of the research on limb-girdle muscular dystrophy 2A: a molecular biologic and biochemical approach to pathology. 1063 25

A defect of the gene for p94 (calpain 3), a skeletal muscle-specific calpain, is responsible for limb girdle muscular dystrophy type 2A (LGMD2A), or 'calpainopathy', which is an autosomal recessive and progressive neuromuscular disorder. To study the relationships between the physiological functions of p94 and the etiology of LGMD2A, we created transgenic mice that express an inactive mutant of p94, in which the active site Cys129 is replaced by Ser (p94:C129S). Three lines of transgenic mice expressing p94:C129S mRNA at various levels showed significantly decreased grip strength. Sections of soleus and extensor digitorum longus (EDL) muscles of the aged transgenic mice showed increased numbers of lobulated and split fibers, respectively, which are often observed in limb girdle muscular dystrophy muscles. Centrally placed nuclei were also frequently found in the EDL muscle of the transgenic mice, whereas wild-type mice of the same age had almost none. There was more p94 protein produced in aged transgenic mice muscles and it showed significantly less autolytic degradation activity than that of wild-type mice. Although no necrotic-regenerative fibers were observed, the age and p94:C129S expression dependence of the phenotypes strongly suggest that accumulation of p94:C129S protein causes these myopathy phenotypes. The p94:C129S transgenic mice could provide us with crucial information on the molecular mech-anism of LGMD2A.
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PMID:Myopathy phenotype of transgenic mice expressing active site-mutated inactive p94 skeletal muscle-specific calpain, the gene product responsible for limb girdle muscular dystrophy type 2A. 1081 21

p94(fer) and p51(ferT) are two tyrosine kinases that share identical SH2 and kinase domains but differ in their N-terminal regions. To further explore the cellular functions of these two highly related tyrosine kinases, their subcellular distribution profiles and in vivo phosphorylation activity were followed using double immunofluorescence assay. When combined with immunoprecipitation analysis, this assay showed that p94(fer) can lead to the tyrosine phosphorylation and activation of Stat3 but not of Stat1 or Stat2. Native p94(fer) exerted this activity when residing in the cytoplasm. However, modified forms of p94(fer), which are constitutively nuclear, could also lead to the phosphorylation of Stat3. Endogenous Stat3 and p94(fer) co-immunoprecipitated with each other, thus proving the interaction of these two proteins in vivo. Unlike p94(fer), p51(ferT) did not induce the phosphorylation of Stat3 but led to the phosphorylation of other nuclear proteins. Replacing the unique 43-amino acid-long N-terminal tail of p51(ferT) with a parallel segment from the N-terminal tail of p94(fer) did not change the subcellular localization of p51(ferT) but enabled it to activate Stat3. Thus the different N-terminal sequences of p94(fer) and p51(ferT) can affect their ability to induce phosphorylation of Stat3 and most probably direct their different cellular functions.
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PMID:FER kinase activation of Stat3 is determined by the N-terminal sequence. 1087 10

The skeletal muscle-specific calpain homologue, p94 (also called calpain 3), is essential for normal muscle function. A mutation of the p94 gene causes limb-girdle muscular dystrophy type 2A (LGMD2A), which is one type of autosomal recessive inherited disease characterized by progressive muscular degeneration. In myofibrils, p94 specifically binds to connectin/titin, and the activity of p94 is probably suppressed by this binding. Thus, we postulate that a signal transduction pathway exists, involving p94 and connectin/titin to modulate functions of skeletal muscle, and LGMD2A occurs when this signalling pathway is not properly regulated by p94. LGMD2A mutants of p94 also reveal significant information on the factors that relate structure to function in this molecule.
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PMID:Skeletal muscle-specific calpain, p94, and connectin/titin: their physiological functions and relationship to limb-girdle muscular dystrophy type 2A. 1098 85

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