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1.
Intracellular localization of two molecular species of calpain (Ca2+-dependent cysteine proteinase) was studied by immunocyto- and histochemical methods employing antibodies strictly monospecific for the respective antigens. Apparent immunological cross-reactivity between the larger subunits of calpain I (low Ca2+-requiring form) and calpain II (high Ca2+-requiring form) was calculated to be 15-17%, and two steps of affinity chromatography were needed to obtain antibodies which can discriminate between the two proteases. Indirect immunofluorescent staining of cultured PK 15 cells revealed diffuse staining of the cytoplasm with both antibodies against calpain I and calpain II. Preincubation with Ca2+-ionophore had no effect on the staining patterns. Sections of porcine kidney were stained by the avidin-biotinylated peroxidase complex method. The proximal and distal tubules and collecting duct were stained, but the glomerulus, macula densa, and vascular vessels were not stained by either anti-calpain I or anti-calpain II antibodies.  相似文献   

2.
Two forms of Ca2+-dependent cysteine proteinase (calpain, EC 3.4.22.17) and their specific endogenous inhibitor (calpastatin) were partially purified from porcine retina: calpain I (low-Ca2+-requiring form) was half-maximally activated at 8 microM-Ca2+, and calpain II (high-Ca2+-requiring form) at 250 microM-Ca2+. Both calpain I and calpain II were inhibited by calpastatin. Calpain I from porcine retina was shown to be composed of 83 000- and 29 000-Mr subunits, and calpain II of 80 000- and 29 000-Mr subunits, by the use of monospecific antibodies. Calpains I and II were both found to hydrolyse microtubule-associated proteins 1 and 2 rapidly.  相似文献   

3.
Homogeneous porcine calpain (Ca2+-dependent cysteine proteinase) was found to hydrolyze a variety of peptides and synthetic substrates. Leu-Trp-Met-Arg-Phe-Ala, eledoisin-related peptide, alpha-neoendorphin, angiotensin I, luteinizing hormone-releasing hormone, neurotensin, dynorphin, glucagon, and oxidized insulin B chain were cleaved with a general preference for a Tyr, Met, or Arg residue in the P1 position preceded by a Leu or Val residue in the P2 position. No great difference in specificity was found between low-Ca2+-requiring calpain I and high-Ca2+-requiring calpain II. 4-Methylcoumaryl-7-amide (MCA) derivatives having a Leu(or Val)-Met(or Tyr)-MCA or a Leu-Lys-MCA sequence were also cleaved by either calpain I or calpain II with preference for Leu over Val by a factor of 9 to 16. Calpains I and II showed similar but not identical kinetic behavior for individual substrates. The Km and kcat values ranged from 0.23 to 7.08 mM and 0.062 to 0.805 s-1 for the calpains, while kcat/Km values for the calpains were only 1/433 to 1/5 of those for papain with a given substrate. With succinyl-Leu-Met(or Tyr)-MCA, calpains I and II were half-maximally activated at 12 and 260 microM Ca2+, respectively, and competitively inhibited by leupeptin (Ki = 0.32 microM for I and 0.43 microM for II) or antipain (Ki = 1.41 microM for I and 1.45 microM for II). Thus, this is the first report describing the specificity and kinetics of calpains I and II.  相似文献   

4.
Identification of both calpains I and II in nucleated chicken erythrocytes   总被引:2,自引:0,他引:2  
Chicken erythrocytes were found to contain two species of calpains which differ in elution profile from DEAE-cellulose and in Ca2+ requirement. After partial purification, one of them was half-maximally activated by 10 microM Ca2+ and the other by 180 microM Ca2+. The low- and high-Ca2+-requiring proteases cross-reacted only with the respective monospecific antibodies for mammalian calpain I and calpain II, respectively. Approximately 5 times more calpain I than calpain II is present in chicken erythrocytes. By immunoelectrophoretic blot analysis, both calpains I and II from chicken erythrocytes were proved to be heterodimers composed of 76 and 28 kDa, and 80 and 28 kDa subunits, respectively. Our present finding that the heavy subunit of calpain I is smaller than that of calpain II is noteworthy, since the opposite is known to be true of various mammalian calpains. An immunological study has revealed that the calpain I newly found in chicken erythrocytes is not derived from calpain II. Thus, the co-existence of calpains I and II in one animal species also holds in chickens, contrary to the previously advocated notion that chickens have only one type of calpain.  相似文献   

5.
Possible role of calpain I and calpain II in differentiating muscle   总被引:2,自引:0,他引:2  
The variable distribution of the 80-kD subunit of two calcium-activated proteases, calpain I and calpain II, has been examined in L8 and L6 myoblasts, and their non-fusing variants, fu-1 and M3A using non-cross-reacting monoclonal antibodies to both subunits. Immunofluorescence results have shown that while the 80-kD subunit of calpain I is localized in the cytoplasm of all the myoblasts, the 80-kD subunit of calpain II appears to be predominantly associated with the plasma membranes of L8 and L6 myoblasts. The distribution of the 80-kD subunit of calpain II in non-fusing myoblasts, fu-1 and M3A, is generally cytoplasmic and diffuse. Immunoblot analysis of membrane and cytosol fractions of all the myoblasts using the monoclonal antibodies described above essentially confirms the immunofluorescence findings. Because calpain II exhibits a peripheral distribution in cells which are fusion-competent, L6 and L8 myoblasts, but not in fu-1 and M3A myoblasts, we suggest that calpain II may play a role in the Ca2+-mediated fusion events of differentiating (prefusion) myoblasts.  相似文献   

6.
Purified calpain I and calpain II from porcine erythrocytes and kidney were cross-linked with a bifunctional reagent, disuccinimidyl suberate, and the cross-linked products were analyzed by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. The major product had a molecular mass of 105 kDa, while the starting materials were resolved into 80-kDa and 30-kDa subunits. The cross-linking in the presence of 2 mM Ca2+ yielded several higher-molecular-weight species. The cross-linked products were shown to contain both the 80-kDa and 30-kDa proteins by means of immunoblotting with antibodies monospecific for the respective subunits, suggesting that the original calpain molecule existed in solution as an 80-kDa plus 30-kDa heterodimer and that Ca2+ induced closer association of these heterodimeric molecules.  相似文献   

7.
Binding of calpain fragments to calpastatin   总被引:1,自引:0,他引:1  
Their cDNA-derived amino acid sequences predict that the 80-kDa subunits of the micromolar and millimolar Ca(2+)-requiring forms of the Ca(2+)-dependent proteinase (mu- and m-calpain, respectively) each consist of four domains and that the 28-kDa subunit common to both mu- and m-calpain consists of two domains. The calpains were allowed to autolyze to completion, and the autolysis products were separated and were characterized by using gel permeation chromatography, calpastatin affinity chromatography, and sequence analysis. Three major fragments were obtained after autolysis of either calpain. The largest fragment (34 kDa for mu-calpain, 35 kDa for m-calpain) contains all of domain II, the catalytic domain, plus part of domain I of the 80-kDa subunit of mu- or m-calpain. This fragment does not bind to calpastatin, a competitive inhibitor of the calpains, and has no proteolytic activity in either the absence or presence of Ca2+. The second major fragment (21 kDa for mu-calpain and 22 kDa for m-calpain) contains domain IV, the calmodulin-like domain, plus approximately 50 amino acids from domain III of the 80-kDa subunit of mu- or m-calpain. The third major fragment (18 kDa) contains domain VI, the calmodulin-like domain of the 28-kDa subunit. The second and third major fragments bind to a calpastatin affinity column in the presence of Ca2+ and are eluted with EDTA. The second and third fragments are noncovalently bound, so the 80- and 28-kDa subunits of the intact calpain molecules are noncovalently bound at domains IV and VI. After separation in 1 M NaSCN, the 28-kDa subunit binds completely to calpastatin, approximately 30-40% of the 80-kDa subunit of mu-calpain binds to calpastatin, and the 80-kDa subunit of m-calpain does not bind to calpastatin in the presence of 1 mM Ca2+.  相似文献   

8.
In order to examine the existence of calpain I, a low (micromolar)-Ca2+-requiring form of calpain, in fish tissues, carp erythrocytes were chosen as the experimental material, since only calpain I is known to exist in mammalian erythrocytes. By DEAE-cellulose chromatography, calpain and calpastatin (specific inhibitor for calpain) were separated from carp erythrocyte hemolysate. Carp erythrocyte calpain is classified as calpain II, a high (millimolar)-Ca2+-requiring form of calpain, from the result of Ca2+-requirement for the activity.  相似文献   

9.
Variation of calpain I, calpain II, and calpastatin in rat liver during growth from 0 to 14 weeks was studied by chromatographic fractionation of the liver cytosol and enzyme assays on the eluted fractions. When compared in terms of units per g wet liver, high-Ca2+-requiring calpain II always exceeded low-Ca2+-requiring calpain I in male and female rats. The level of calpain II in neonatal (0 week) rat liver was 1.9-2.9 times higher than that for the adults (7 to 14 weeks). The contents of calpastatin, calpain-specific inhibitor protein, were were always higher than those of calpain II in adult rat liver, but the difference was much less, or sometimes even reversed, in neonatal and young (1 and 2 weeks) animals. In general, the variation was more pronounced in female than in male rats.  相似文献   

10.
Identification of calpain II in porcine sperm   总被引:2,自引:0,他引:2  
The role that proteolytic enzymes may play in membrane-associated phenomena of sperm has been the subject of extensive investigation. In the present study, we have examined the possibility that a Ca2+-activated, neutral protease, calpain II, may be associated with sperm membranes. Using indirect immunofluorescence with primary antibodies, which are polyclonal and monoclonal antibodies directed against the 80 kDa subunit of calpain II, we have established the presence of this antigen in porcine sperm. Staining by anticalpain II (80 kDa subunit) of the apical segment of the acrosomal cap and basal body (centriolar) region was seen consistently. Variable staining of the sperm tail was also observed. These observations, combined with our positive identification of a 80 kDa protein in acrosomal membranes (via immunoblot), document the association of this protease with sperm membranes. The proximity of calpain II to the acrosome suggests a potential role for the protease in the Ca2+-mediation of the acrosome reaction.  相似文献   

11.
Low and high Ca2+-requiring forms of Ca2+-dependent cysteine proteinase are known as calpain I and calpain II, respectively. We have obtained, for the first time, monospecific antibodies for calpain I and for calpain II. Using these antibodies and an electrophoretic blotting method, we have found that a small, but reproducible, amount of calpain I was associated with human erythrocyte membranes while the bulk of the protease was contained in the cytosol. Most of membrane-associated calpain I was extractable with 1% Triton X-100, but not with 0.1% detergent. In the presence of 0.1 mM Ca2+ and 5 mM cysteine, membrane-associated calpain I degraded the membrane protein band 4.1 preferentially and band 3 protein only slowly. The Ca2+-induced autodigestion of the membrane preparation was inhibited by leupeptin but not by a cytosolic calpain inhibitor, calpastatin, added to the incubation medium. No calpain II was detected in either erythrocyte cytosol or membranes when anti-calpain II antibody was used under the same conditions as those for the detection of calpain I.  相似文献   

12.
Four genes for the calpain family locate on four distinct human chromosomes   总被引:5,自引:0,他引:5  
Calcium dependent proteases (calpains, CAPNs, E.C.3.4.22.17) constitute a family of proteins which share a homologous cysteine-protease domain (large subunits, L1, L2, and L3) and an E-F hand Ca2(+)-binding domain (L1, L2, L3, and small subunit, S). We have mapped the genes for four calpain proteins (L1, L2, L3, and S) on four distinct human chromosomes by a combination of spot-blot hybridization to flow-sorted chromosomes and Southern hybridization of DNAs from a human x mouse hybrid cell panel. The genes for calpain L1 (CAPN1, large subunit of calpain I), L2 (CAPN2, large subunit of calpain II), L3 (CAPN3, a protein related to the large subunits), and S (CAPN4, a small subunit common to calpains I and II) were assigned to human chromosomes 11, 1, 15, and 19, respectively.  相似文献   

13.
14.
Only the 80-kD catalytic subunit of smooth muscle calpain II shows a change in intrinsic fluorescence on binding calcium, but both the 80-kD and 30-kD subunits show fluorescence changes in bound toluidinyl-naphthalenesulphonate as a result of calcium binding. Both subunits also show changes in intrinsic fluorescence in the presence of calmidazolium and felodipine. These studies indicate that both subunits have binding sites for calcium and the calmodulin antagonists, which are probably located in the calmodulin-like domain of each subunit.  相似文献   

15.
Calpain (Ca2+-dependent cysteine proteinase) was purified to apparent homogeneity from carp muscle by the method of DEAE-cellulose, hydroxylapatite and Ultrogel AcA 34 column chromatographies. The purified enzyme is classified as calpain II (high-Ca2+-requiring form of calpain) from the effects of Ca2+ concentration, pH and the antibiotics on the activity. Carp muscle calpain II was inhibited by rat liver calpastatin, the specific inhibitor for calpain. It is probable that the calpain-calpastatin system may play a biologically fundamental and common role in various cells, since the inhibitory effect of calpastatin on calpain from different tissues of different species is well conserved.  相似文献   

16.
While conventional calpains, m- and mu-calpains named according to their calcium-dependence, are expressed in almost every tissues, mRNA of newly identified p94, which has a significant sequence similarity to the conventional calpain large subunits, is abundantly expressed only in skeletal muscle. In addition to this specific expression, p94 is distinct from conventional calpains in that it contains three unique regions showing no similarity to conventional calpain subunits. When rat and human p94 are compared, overall sequence similarity is 94.0%, which is close to those for m- and mu-calpain large subunits; 93.1% and 95.4% between human and rabbit, respectively, suggesting the evolutionary importance of p94. These calpain large subunit proteins, p94, m- and mu-types, can be considered to constitute a super family, whose p94, m- and mu-types represent the three major types. Sequences of the calpain large-subunit family members, including the recently reported Schistosoma calpain, are compared. Their evolutionary correlation and function are discussed on the basis of the results thus far obtained.  相似文献   

17.
The desmin-specific calpain I from chicken gizzard smooth muscle is a dimer of 83 and 35 kDalton subunits. A monoclonal antibody to the large subunit did not cross-react with chicken gizzard and hamster skeletal muscle calpain II, but it did recognize hamster skeletal muscle desmin-specific calpain I and the denatured calpain II from chicken gizzard smooth muscle. These results indicate that different desmin-specific calpains have similar large subunits which differ significantly from the large subunit of calpain II in the same tissue.  相似文献   

18.
Basic estrogen receptor (ER) molecule (vero-ER) of the cytosol of porcine uterus was purified 1,200-fold after successive chromatographies on phenyl-Sepharose, hydroxylapatite, and DEAE-cellulose, followed by Sephadex G-150 gel filtration. The purified vero-ER was completely free from endogenous protease and ER-binding factor. The action of Ca2+-dependent cysteine proteinase (calpain) on vero-ER was studied by utilizing the purified receptor and calpains from porcine uterus (endogenous calpain), porcine kidney, and human erythrocytes. Proteolysis of vero-ER was followed by monitoring the disappearance of the binding capability of vero-ER with "8S" ER-forming factor. Vero-ER was proteolyzed by both the endogenous and the exogenous calpains in the presence of Ca2+. The calpains did not attack vero-ER in the absence of Ca2+. The results indicated the absolute requirement by calpain for Ca2+ for the limited hydrolysis of vero-ER. Uterine cytosol was shown to contain, in parallel with calpain, a protease which does not require Ca2+ for the limited proteolysis of vero-ER. The strongly hydrophobic domain of vero-ER, recently shown to be indispensable for the nuclear translocation of vero-ER (Murayama, A. & Fukai, F. (1983) FEBS Lett. 158, 255), was preferentially destroyed by both the Ca2+-requiring and -nonrequiring enzymes. It was assumed that calpain might intervene in the estrogen action by diminishing irreversibly the amount of the cytoplasmic ER capable of translocating into the nucleus.  相似文献   

19.
Rat skeletal muscle contains a calpain activator protein characterized by a high specificity for calpain II, the high Ca(2+)-requiring isoform of this class of proteinases. The activator protein increases the rate of intramolecular conversion of the native 80-kDa catalytic subunit of calpain into the autolysed 75-kDa forms with maximal rate at concentrations of calcium approximately 25 times lower than those required by the native proteinase. The activator protein interacts with native calpain II forming a 1:1 complex; interaction does not occur with the fully activated form, produced by autoproteolysis. Even after immobilization to membranes, the activator binds to calpain, which then undergoes sequential activation and release from its bound form. The activator is itself resistant to digestion by calpain II, whereas it increases the rate at which homologous calpastatin is degraded by the proteinase. Taken together, these results are indicative of the existence in rat skeletal muscle of an activating system specific for calpain II which is potentially involved in the regulation of the inhibitory efficiency of calpastatin, through modulation of its intracellular level.  相似文献   

20.
Homogenously purified porcine calpain I (Mr 112000), a low-Ca2+-requiring form of Ca2+-dependent cysteine proteinase [EC 3.4.22.17], was coupled to Sepharose 4B gel as an active form. It was used as a ligand to calpastatin (Mr 70000), calpain-specific inhibitor protein, for an affinity chromatography. Only in the presence of Ca2+, calpastatin bound to calpain-Sepharose, but the interaction resulted in rather extensive fragmentation of a calpastatin molecule into several peptides of Mr 14000 to 70000, which still retain inhibitory activities against calpain. Fragmentation was demonstrated both by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate and by high-performance liquid chromatography in the presence of 6 M guanidine-HCl.  相似文献   

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