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)

1. Proteasomes (multicatalytic proteinases) have been purified from spermatozoa and eggs of sea urchins by successive chromatographies on DEAE-cellulose, hydroxylapatite, and Sepharose 6B. 2. The isolated sperm and egg proteasomes showed similar properties such as molecular weight (both 630,000) and multiple catalytic activity (pH optimum, substrate specificity, inhibitor-susceptibility and SDS-stimulation). 3. Distinct protein components were detected between sperm and egg proteasomes by SDS-polyacrylamide gel electrophoresis and immunoblot analysis using antibody against egg proteasome.
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PMID:Comparative studies on proteasomes (multicatalytic proteinases) isolated from spermatozoa and eggs of sea urchins. 195 31

Human gametes and pre-implantation embryos express selectively several complement regulatory proteins. Membrane cofactor protein (MCP, CD46) and decay accelerating factor (DAF, CD55) are regulators for C3 convertases and protectin (CD59) is an inhibitor of the membrane attack complex. These three proteins were identified on human sperm and found to be functional. CD55 and CD59 were both expressed by the plasmic membrane of unfertilized oocytes and pre-implantation embryos. CD46 was not present on unfertilized oocytes but appeared at the 6/8 cell-stage embryo when human gene expression first occurs. Complement receptor 1 (CR1, CD35) and MHC class I antigens were not found on oocytes neither on embryos. Such a selective expression of complement regulatory proteins associated with the lack of MHC class I antigens may represent an immune protective mechanism by which human gametes and pre-implantation embryos escape from complement-mediated damage during their travel through the female genital tract. Indeed uterine, tubal and follicular fluids contain all the components of the complement cascade, including classical and alternative pathways. Nevertheless participation of CD46 and CD59 in cell to cell interaction during fertilization and/or implantation cannot be excluded. CD59 is an adhesive molecule involved in the rosette phenomena and CD46 has been described as the human receptor for measles virus, which binds through a fusion protein. Monoclonal antibodies raised against these two proteins (CD46 and CD59) are able to inhibit heterospecific fertilization between zona-free hamster oocytes and human spermatozoa suggesting the role of these proteins during fertilization.
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PMID:[Expression and role of complement regulatory proteins on human gametes and pre-implantation embryos]. 749 32

Human decay-accelerating factor (DAF, CD55) is a phosphatidyl inositol-anchored glycoprotein consisting, from the N-terminus, of 4 short consensus repeats (SCR), a Ser/Thr (ST)-rich region providing O-glycosylation sites, and the membrane-anchoring unit. A mAb, named D17, was raised against purified erythrocyte-DAF. This mAb recognized DAF on blood cells and most cell lines as determined by flow cytometry and immunoblotting. Its reactivity was similar to but weaker than that of two other well-characterized mAbs to DAF, IA10 (seeing an epitope within SCR1) and 1C6 (seeing an epitope within SCR3). The reactivity of D17 with erythrocyte DAF became increased by treatment with sialidase/O-glycanase, suggesting that its epitope is located close to the O-glycosylation sites, probably within the ST-rich region or SCR4. D17 barely blocked the decay-accelerating activity of DAF. Using the three mAbs, tissue-associated and soluble forms of DAF were identified by SDS-PAGE/immunoblotting and immunohistochemical staining. IA10 and 1C6 recognized a 50 kDa protein in spermatozoa lysate and two proteins of Mr 70 and 55 kDa, respectively, in seminal fluid. These represented membrane-associated and soluble forms of DAF, which were neither recognized by mAb against membrane cofactor protein (MCP, CD46) and C3b/C4b receptor (CR1, CD35) nor by non-immune IgG. In contrast to IA10 and 1C6, D17 did not recognize either spermatozoa-DAF or seminal plasma-DAF, or the deglycosylated or untreated forms of them. Immunohistochemical analysis showed that testis was stained with IA10 but not with D17.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A monoclonal antibody against human decay-accelerating factor (DAF, CD55), D17, which lacks reactivity with semen-DAF. 750 2

Human seminal plasma contains 0.55 microgram/ml of membrane cofactor protein (MCP; CD46) of 60,000 MW. By ultracentrifugation, gel filtration and immunoelectron microscope methods, we found that the MCP in seminal plasma was associated with prostasomes. The functional properties of the prostasome-bound MCP were assessed in comparison with a recombinant soluble form, gamma MCP1, which is composed of four short consensus repeats (SCR), type C of the serine/threonine-rich domain (STC), and unknown significance (UK). The MCP in seminal plasma, although demonstrably bound to prostasomes, behaved more like the soluble form of MCP. In the absence of detergent it, together with factor I, degraded the fluid-phase ligand, methylamine-treated C3 [C3(MA)], which is insensitive under no-detergent conditions to the membrane form of MCP and factor I. Moreover, C3dg fragment was generated as a final product instead of C3bi during the incubation, indicating that the prostasomal MCP and proteases may be responsible for the C3dg generation. The prostasomes neutralized measles virus (MV) infectivity, while gamma MCP1, for the most part, did not. These results, taken together with the CD59 concentration on the prostasomes, suggest that the prostasomes are potential immunomodulators for complement activation, providing the C3- and C9-step inhibitors. The present report also reinforces the idea that there are two different forms of MCP in semen. One is located in the inner acrosomal membrane of spermatozoa, which appears through acrosomal reaction and spermatoon-egg interaction. The other is a prostasome-bound form maintaining activities sufficient to regulate complement activation and, probably, MV infection.
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PMID:Membrane cofactor protein (CD46) in seminal plasma is a prostasome-bound form with complement regulatory activity and measles virus neutralizing activity. 779 37

It has been proposed that a chymotrypsin-like enzyme plays a key role in sperm penetration through the vitelline coat of eggs of the ascidian, Halocynthia roretzi. In this report, two kinds of chymotrypsin-like enzymes were isolated from spermatozoa of H. roretzi. Both enzymes were characterized as high-molecular-weight protease complexes that comprised several different subunits and that showed several different protease activities. Both showed immunoreactivity with anti-proteasome antibody. One showed properties characteristic of the 20 S proteasome and its molecular mass was 630 kDa, whereas the other protease complex of 930 kDa showed inhibitor susceptibility different from that of the 20 S proteasome. Upon the sperm reaction which is induced by treatment with high pH, the proteasomes were found to be released from sperm and they had the activity to digest the vitelline coats. These results suggest that the proteasomes are exposed extracellularly when sperm contact with the egg coat and may function as lysins in the fertilization process.
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PMID:High-molecular-weight protease complexes (proteasomes) of sperm of the ascidian, Halocynthia roretzi: isolation, characterization, and physiological roles in fertilization. 833 Jun 72

A sperm protein of molecular mass 43 kDa (the spermatozoa membrane cofactor protein, smMCP) and a seminal plasma protein of 60 kDa (ssMCP) were identified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) followed by immunoblotting with four monoclonal antibodies (mAb) against membrane cofactor protein (MCP, CD46). These proteins served as factor I cofactors for the cleavage of methylamine-treated C3 (C3ma), the activity of which was blocked by M75, an MCP cofactor-activity-blocking mAb. Thus, these semen proteins are antigenic and functional homologous of MCP. On SDS-PAGE analysis these MCP migrated as single-band proteins which differed from the two-band forms of MCP expressed on other cells. smMCP was N-glycosylated but not O-glycosylated, while ssMCP was O-glycosylated: after deglycosylation of these proteins bands were detected at 38-40 kDa and 43 kDa on SDS-PAGE, respectively. These semen MCP are therefore, structurally different from the conventional MCP. ssMCP in both normal and "sterile" subject groups was determined by sandwich enzyme-linked immunosorbent assay. Seminal plasma in the two groups contained 250-700 ng/ml ssMCP. The difference between the two groups was marginal, although samples from normal subjects tended to show higher concentrations of ssMCP than samples from "sterile" subjects. No molecular difference was observed with ssMCP and smMCP in the two groups by SDS-PAGE/immunoblotting analysis. Immunohistochemical analysis suggested that MCP was positive in glandular epithelial cells and the lumen of the prostate, and in most intra-lumen cells of the testis. Using antibody M177, solubilized prostate and testis were analyzed by immunoblotting and compared with other cell MCP. The major band of MCP in the testis, but not in the prostate, was of 60 kDa, which aligned with ssMCP. No band of testis or prostate MCP, however, aligned with smMCP. ssMCP may be produced in the testis, while the origin of smMCP remains unknown. We hypothesize that ssMCP is important in the survival of spermatozoa, protecting them against local secretion of immunoglobulin and complement in the female genital tract, and that smMCP, which is expressed on acrosome-reacted spermatozoa, plays an essential role in the interaction of spermatozoa with oocytes.
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PMID:Membrane cofactor protein (MCP, CD46) in seminal plasma and on spermatozoa in normal and "sterile" subjects. 850 May 28

We purified by fractionation on 10-40% glycerol gradients, 26S proteasomes from normal human spermatozoa. These proteasomes, which participate in the ATP-dependent degradation of ubiquitinated proteins, share a similar sedimentation coefficient to those purified from other human tissues. Fluorogenic peptide assays reveal they have chymotrypsin, trypsin and peptidyl-glutamyl-like peptide hydrolysing activities; the chymotrypsin activity is ablated by the specific 26S proteasome inhibitor MG132. Confirmation that these large proteases are 26S proteasomes is provided by detection of the 20S proteasome subunits HC2, XAPC7, RN3 and Z and regulatory ATPases MSS1, TBP1, SUG1 and SUG2 by Western analyses with monoclonal antisera. These antigens are found only in the gradient fractions enriched in proteolytic activities. We have also shown that, although mature spermatozoa from mice have considerably reduced amounts of a ubiquitin-conjugating enzyme (E2) and ubiquitin-protein conjugates in comparison with less mature germ cells, they retain relatively high values of 26S proteasome activity. This suggests that proteasomes may have further roles to play in normal sperm physiology.
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PMID:Purification and characterization of 26S proteasomes from human and mouse spermatozoa. 946 50

Localization of proteasomes in spermatozoa from patients with varicocele-associated sterility was studied by means of immunolabeling with the MPC21 monoclonal antibody detecting the C3 subunit of the 20S proteasome. The reaction was visualized for electron microscopy using the secondary Nano-Gold-coupled antibody with Gold-Enhancement in pre-embedding technique. We found that semen samples from varicocele patients contained a large amount of abnormal spermatozoa characterized by the presence of dispersed chromatin and large residual bodies (cytoplasmic droplets) as well as spermatids at various stages of spermiogenesis. In normal spermatozoa, the immunolabeling was found in the acrosome, postacrosomal regions, nuclear vacuoles, in the neck and in the middle-piece as well as in the residual bodies, while chromatin remained unlabeled. In varicocele spermatozoa, the immunolabeling was also associated with chromatin and large residual bodies (cytoplasmic droplets). In contrast to normal, mature spermatozoa, the chromatin of the cells at earlier stages of spermiogenesis was strongly immunolabeled. The association of proteasomes with sperm chromatin and large residual bodies can be the sign of abnormality and disturbances in spermatogenesis associated with varicocele.
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PMID:Proteasome localization and ultrastructure of spermatozoa from patients with varicocele--immunoelectron microscopic study. 1205 29

Membrane cofactor protein (MCP; CD46) is a complement regulator widely expressed as four isoforms that arise via alternative splicing. On human spermatozoa, MCP is expressed on the inner acrosomal membrane and alterations of spermatozoa MCP may be associated with infertility. In rodents, expression of MCP is largely restricted to the testes. MCP on human spermatozoa has a unique M(r) pattern that we have investigated. We also characterized MCP expression in mice transgenic (tg) for human MCP. Human MCP expression in the tg mice mimics the human pattern in that it is located on the inner acrosomal membrane and has a faster M(r) than MCP expressed elsewhere. Sequencing of RT-PCR products from the testis indicates that there is not a unique male reproductive tissue specific cytoplasmic tail. Instead, human spermatozoa express MCP bearing cytoplasmic tail two, which is also utilized in most other tissues and contains several signaling motifs. Further, using N-glycosidases, we demonstrate that the unique lower molecular weight of MCP on spermatozoa is secondary to a modification in the N-linked sugars. Specifically, as the spermatozoa mature, but before they reach the epididymis, the three N-linked sugars of MCP are trimmed to less complex structures. While the purpose of this deglycosylation is unknown, we propose that it is a common feature of proteins expressed on the plasma and inner acrosomal membranes of spermatozoa and hypothesize that it is a spermatozoa specific event critical for facilitating sperm-egg interactions.
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PMID:Characterization of human membrane cofactor protein (MCP; CD46) on spermatozoa. 1211 88

Ubiquitin-dependent proteolysis has been implicated in the recognition and selective elimination of paternal mitochondria and mitochondrial DNA (mtDNA) after fertilization in mammals. Initial evidence suggests that this process is contributed to by lysosomal degradation of the ubiquitinated sperm mitochondrial membrane proteins. The present study examined the role of the proteasome-dependent protein degradation pathway of the ubiquitin system, as opposed to lysosomal proteolysis of the ubiquitinated proteins, in the regulation of sperm mitochondrion elimination after fertilization. Boar spermatozoa prelabeled with vital fluorescent mitochondrial probes MitoTracker were used to trace the degradation of paternal mitochondria after in vitro fertilization (IVF) of porcine oocytes. The degradation of sperm mitochondria in the cytoplasm of fertilized oocytes started very rapidly, i.e., within 12-20 h after insemination. Four stages of paternal mitochondrial degradation were distinguished, ranging from an intact mitochondrial sheath (type 1) to complete degradation (type 4). At 27-30 h postinsemination, 96% of zygotes contained the partially (type 3) or completely (type 4) degraded sperm mitochondria. Highly specific peptide inhibitors of the ubiquitin-proteasome pathway, lactacystin (10 and 100 microM) and MG132 (10 microM), efficiently blocked the degradation of the sperm mitochondria inside the fertilized egg when applied 6 h after insemination. Using 10 microM MG132, only 13.6% of fertilized oocytes screened 27-30 h after IVF displayed type 3 sperm mitochondria, and there was no incidence of type 4, completely degraded mitochondria. Although lactacystin is not a reversible agent, the effect of MG132 was fully reversible: zygotes transferred to regular culture medium after 24 h of culture with 10 microM MG132 resumed development and degraded sperm mitochondria within the next cell cycle. Surprisingly, penetration of the zona pellucida (ZP) was also inhibited by MG-132 and lactacystin when the inhibitors were added at insemination. Altogether, these data provide the first evidence of the participation of proteasomes in the control of mammalian mitochondrial inheritance and suggest a new role of the ubiquitin-proteasome pathway in mammalian fertilization.
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PMID:Early degradation of paternal mitochondria in domestic pig (Sus scrofa) is prevented by selective proteasomal inhibitors lactacystin and MG132. 1260 93

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