EC:3.2.1.36 - FACTA Search

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Query: EC:3.2.1.36 (hyaluronidase)
4,606 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hyaluronidase activity was examined in 104 oligospermic and normospermic human semen specimens promptly after liquefaction, after repeated cycles of washings with a solution containing 1.3 M sucrose and 0.15 M NaCl, and after freezing and thawing. We assessed enzyme activity by measuring areas of the digestion of substrate (hyaluronate). After washing the oligospermic and normospermic semen specimens twice 34%-43% enzyme activity was still present in the sedimented sperm as compared to the initial values. Following additional washings no enzyme activity could be detected. Freezing and thawing of semen increased enzyme activity by 40%-50%, respectively, after the second cycle whereas further treatment did not increase the enzyme activity rate. It is suggested that two types of hyaluronidase are present in human spermatozoa, differing in membrane-binding properties which would be connected with their localization in the acrosome.
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PMID:Hyaluronidase activity in untreated human semen and following laboratory manipulations. 614 Feb 40

Hyaluronidase (hyaluronate 4-glycanohydrolase, EC 3.2.1.35) was purified from mouse testes by ion-exchange chromatography, Sephadex G-200 filtration and Con A-agarose affinity chromatography. The final preparation had 94-fold purity and 12.2 units spec. act. of the enzyme (unit of specific activity = mumol N-acetylglucosamine released/h per mg protein at 37 degrees C and pH 4.5). Hyaluronidase is relatively heat stable and loses 10-20% of its activity at 50-55 degrees C for 10 min. Ea for eat denaturation of enzyme is 42-45 kcal between 45 an 63 degrees C. The Michaelis constant of mouse testicular hyaluronidase is 1.1 mg/ml hyaluronic acid. Antibodies to the purified enzyme were produced in rabbits and showed a single precipitin line by Ouchterlony gel diffusion. Antiserum to hyaluronidase inhibited enzyme activity by 25%. Immunologically, mouse testicular hyaluronidase is species specific. Tissue extracts of mouse vital organs, except testes and epididymis did not react with the antisera, though nonspecific precipitation occurred between intestinal extracts and anti-hyaluronidase serum. Hyaluronidase was localized in testis sections by indirect immunofluorescence. A specific dark green fluorescence was localized on cell boundaries extending from spermatogonia to spermatids and appeared on the sperm acrosome. Cytoplasm of spermatogonia and spermatocytes showed light green fluorescence, whereas interstitial tissue was devoid of fluorescence.
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PMID:Isolation, properties, immunological specificity and localization of mouse testicular hyaluronidase. 616 67

Monoclonal antibodies to hyaluronidase-treated chondroitin sulfate proteoglycan (CSPG) were used to study the immunological determinants of chick cartilage proteoglycan. The determinants recognized by the antibodies were studied by a radioimmune inhibition assay utilizing hyaluronidase-treated [35S]CSPG. Hyaluronidase-treated CSPG inhibits the reaction of four clonal antibodies, S54C, S103L, S11D, and P100D, with [35S]CSPG, but to varying degrees. Only the reaction of S103L is inhibited to a considerable extent by undigested CSPG, indicating that hyaluronidase treatment exposes determinants specific for the other three antibodies. These findings are consistent with the earlier conclusion that S103L is specific for a protein determinant (Dorfman et al., 1980). Only the reaction of S54C is not significantly inhibited by chondroitinase ABC-digested CSPG. This result indicates that chondroitinase ABC digestion can also expose determinants recognized by S11D and P100D but that such digestion removes the determinant recognized by S54C. Of the four antibodies tested, only the reaction of S54C with hyaluronidase-treated [35S]CSPG is significantly inhibited by chondroitin-6-SO4 tetra- and hexasaccharide (59 and 43% inhibition, respectively, at a concentration of 1333 microM). The reaction of S54C is inhibited to a lesser extent by chondroitin tetra- and hexasaccharide (28 and 26% inhibition, respectively, at a concentration of 1333 microM). In contrast, chondroitin-4-SO4 oligosaccharides do not inhibit the reactions of any of the clonal antibodies. These result suggest that S54C recognizes a determinant that contains chondroitin-6-SO4 oligosaccharide, attached via the linkage oligosaccharide to core protein.
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PMID:Chondroitin 6-sulfate oligosaccharides as immunological determinants of chick proteoglycans. 616 75

The immune response to honey bee venom in thirty-seven bee keepers' sera was studied by several methods. Specific IgE antibody levels studied by RAST were generally low, whereas specific IgG antibody levels studied by a Sepharose protein A technique were high. Crossed radioimmunoelectrophoresis was applied for a detailed analysis of the antibody specificities towards the different components of venom in seventeen of the bee keepers' sera. Significant amounts of IgG antibodies were found towards most bee-venom components. The highest IgG response was directed towards phospholipase A. Hyaluronidase, acid phosphatase and two uncharacterized antigens also showed distinct IgG binding. The IgG binding to melittin was low. The IgE binding to the bee venom components was low and primarily directed to the phospholipase. IgE binding to hyaluronidase and acid phosphatase occurred, but was also in very small amounts. One bee-keeper serum caused heavy radiostaining to melittin but the others did not show IgE binding to this component. Thus a low IgE but a high IgG response was demonstrated in bee keepers. The major immunogen was phospholipase A, which is known to be the major allergen in bee venom. Generally, the strongest IgG responses were found to the components capable of inducing the strongest IgE responses.
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PMID:Bee keepers' IgG and IgE antibody responses to bee venom studied by means of crossed radioimmunoelectrophoresis. 620 90

The activity of collagenase, cathepsin B1, cathepsin D and Hyaluronidase was determined in skin, bone, liver, kidney, spleen and serum of adjuvant induced arthritic rats during the acute and chronic phase of the disease. Collagenase was assayed directly in tissue extract by a solution method using radioactive labelled substrate. The activity of collagenase, cathepsin B1 and D was found to increase significantly at both phases of the disease. The activity of hyaluronidase decreased significantly in liver, kidney and spleen of arthritic rats, while in skin, bone and serum no significant change was observed. The results are discussed with respect to catabolism of collagen in adjuvant induced arthritis. Prednisolone and L-thyroxine were administered to arthritic rats and the activity of collagenase, cathepsin B1, cathepsin D and hyaluronidase was determined in the treated groups during the acute and chronic phase of the disease. Prednisolone was found to suppress the development of arthritis which, in turn, decreased the increased activity of collagenase and lysosomal enzymes cathepsin B1 and D in tissues and serum of arthritic rats. L-Thyroxine was found to slowly diminish the development of inflammation and its beneficial action was found in mesenchymal tissues and skin of arthritic rats but not in bone.
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PMID:Effect of adjuvant arthritis on collagenase and certain lysosomal enzymes in relation to the catabolism of collagen. 624 97

The cellular control of hyaluronate levels was examined in cultures of simian virus 40-transformed 3T3 (SV3T3) and 3T3 cells which are known to differ in their metabolism of hyaluronate. When [3H]hyaluronate was added to cultures of the two cell lines, four times more ligand was bound per mg of protein by the SV3T3 cells than by the 3T3 cells. Of the bound [3H] hyaluronate, 40% was degraded by the SV3T3 cells to oligosaccharides characteristic of the breakdown of hyaluronate, but only 2% was degraded by 3T3 cells. Hyaluronidase activity was found in the cell layer and medium of the SV3T3 cultures, but was not detectable in 3T3 cells. The SV3T3 enzyme was active only at acidic pH, but at neutral pH the secreted SV3T3 hyaluronidase was thermally more stable then the cell-associated enzyme. In contrast, both cell lines were found to contain similar amounts of beta-glucuronidase and beta-N-acetylglucosaminidase activity. We conclude that the elevated capacity of SV3T3 cells to degrade hyaluronate may be partially responsible for their lack of the hyaluronate-containing pericellular coat which is prominent around 3T3 cells.
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PMID:Hyaluronate degradation in 3T3 and simian virus-transformed 3T3 cells. 627 15

Hyaluronidase was isolated from the lizard (Heloderma horridum horridum) crude venom. The chemical properties were characterized and compared to the same enzyme from other sources. The enzyme was found to be a single polypeptide chain with a molecular weight of 63,000 daltons. It possesses an isoelectric point and pH optimum of 5.0, and was observed to be extremely temperature sensitive. The role of hyaluronidase as a spreading factor which serves to aid in the diffusion of toxins has been suspected for a long time; yet no experimental proof has been offered until now. It was shown that hyaluronidase promotes the spread of the hemorrhagic area in mice when injected with hemorrhagic toxin. Thus experimental evidence is supplied for the first time that the enzyme plays a role as a "spreading factor" in the toxic action of venom.
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PMID:Characterization of lizard venom hyaluronidase and evidence for its action as a spreading factor. 635 22

The necessity of calcium (Ca2+) and the Ca2+-calmodulin complex for resumption and completion of meiosis, expansion of cumulus cells, viability and hyaluronidase sensitivity of in vitro cultured bovine cumulus-oocyte complexes was examined by inhibition of the Ca2+-calmodulin complex with eight graduated doses of trifluoperazine (TFP) and by Ca2+ deficiency or depletion. Doses of TFP greater than 2.5 microM decreased the percent of cumulus complexes surviving culture and oocytes completing meiosis, whereas cumulus expansion was unaffected until the cultures contained a near lethal dose (greater than 10 microM). Hyaluronidase caused dispersion of cumulus cells whenever they were expanded regardless of TFP dose. In TC-199 media the completion of meiosis I was suppressed by 0.1 to 1 mM ethylenediaminotetraacetic acid (EDTA) (P less than 0.05) and drastically reduced by 1.0 mM (P less than 0.05). Viability of the cumulus-oocyte complex was not reduced until the dose of EDTA was increased to 1.0 mM (P less than 0.0001). Cumulus expansion was also not suppressed until the dose of EDTA reached 1.0 mM (P less than 0.05). In Ca2+-free (CF) basal media Eagles, completion of meiosis I was reduced by all doses of EDTA (P less than 0.05), whereas viability of the cumulus-oocyte complex was decreased by Ca2+ deficiency or by EDTA addition to basal media Eagles (P less than 0.01). Cumulus expansion was unaffected by Ca2+ removal or chelation. In all experiments, oocytes which were not degenerate underwent germinal vesicle breakdown regardless of treatment.
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PMID:Role of calcium and the calcium-calmodulin complex in resumption of meiosis, cumulus expansion, viability and hyaluronidase sensitivity of bovine cumulus-oocyte complexes. 643 67

Hyaluronidase activity was compared in embryonic chick cardiac cushion and noncushion segments, as well as in cultures of mesenchyme derived from cardiac cushion endocardium (cushion tissue-enriched cultures) and in cultures of myocardial cells at stages critical to heart valve and septum development. Enzyme levels were higher in both heart tissue regions at periods of active cushion tissue mesenchyme migration than after migration ceases, and higher in the cushion region than in the noncushion region at both periods. Hyaluronidase was measured in cells and medium in both types of cultures, with five times greater activity found in the myocardial cultures. The cardiac hyaluronidase from cells and medium of both culture types had an estimated molecular weight of 41,000 to 44,000 and degraded hyaluronate and, to a lesser degree, chondroitin sulfate, at an acidic pH optimum. Ion-exchange chromatography demonstrated that in both culture types, a proportion of the secreted enzyme was more acidic than that found in the cell layer. These studies indicate the potential for hyaluronate degradation by the major cell types present in the developing heart at early stages and that the enzyme responsible is probably a lysosomal enzyme. Therefore, hyaluronate internalization is a likely requirement for degradation, and thus, the turnover of hyaluronate in developing heart valves is more complex than the extracellular degradative process suggested by histochemical data.
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PMID:Hyaluronidase activity in embryonic chick heart muscle and cushion tissue and cells. 650 Jan 78

Hyaluronidase has been shown clinically and experimentally to reduce the effects of tissue ischemia in myocardial infarction and hemorrhagic shock. Dimethyl sulfoxide (DMSO) has been shown to reverse the effects of cerebral ischemia in the primate model. A caudally based dorsal skin flap in the rat was used to study the effects of these two drugs in physiological doses on skin flaps, and to investigate their mechanisms of action. This study demonstrates that both hyaluronidase and DMSO, which are nontoxic in physiological doses, can increase the surviving length of an experimental skin flap. It is hypothesized that these substances exert their effect by decreasing tissue edema and by aiding in the transport of nutritive substances to the flap during its acute phase.
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PMID:The effect of hyaluronidase and dimethyl sulfoxide (DMSO) on experimental skin flap survival. 663 21

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