EC:3.2.1.36 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The development of the chick embryonic calvarium, an intramembranous bone, is characterized by direct differentiation of cranial ectomesenchymal cells into osteoblasts without the formation of a cartilage anlage. Collagen biosynthesis remains predominantly as type I in the calvaria. However, in severely calcium-deficient chick embryos maintained in shell-less (SL) culture, cartilage-specific type II collagen is synthesized by the calvaria. Immunohistochemistry localized the cells expressing type II collagen to undermineralized regions of the SL bone. In this study, collagen gene expression in bones of normal (N) and calcium-deficient SL chick embryos was examined at Incubation Day 14 by in situ cDNA-mRNA hybridization. A critical step in the procedure, which used biotinylated cDNA probes, was the selection of fixation conditions which maximized RNA retention and maintenance of tissue morphology. Tissues fixed in modified Carnoy's fixative (58% ethanol, 30% choloroform, 10% acetic acid, 2% formaldehyde) for 2-4 hr at -20 degrees C sectioned well and retained their cell morphology and cytoplasmic RNA. Other treatments important for the procedure included demineralization in 0.25 M HCl and removal of matrix by hyaluronidase digestion. In situ hybridization with type-specific collagen cDNA probes revealed that type II collagen mRNA was present in cells throughout the SL calvaria. More importantly, cells with type II collagen mRNA were also present in N calvaria which do not synthesize the protein. The overall abundance of type II-positive cells in N calvaria was not significantly different from that in SL calvaria, but their distribution throughout the bones differed. In general, the regional distribution of type II cells was inversely correlated with the extent of matrix mineralization. In the N calvaria, cells containing collagen type II mRNA were absent in the extensively mineralized superior zone, but were found in the temporal zone which showed limited mineralization. On the other hand, in the SL calvaria, which were substantially undermineralized overall, cells with type II mRNA were found throughout the tissue. Interestingly, the overall ratio of type I cells to type II cells was approximately 50% higher in N calvaria. These findings suggest that collagen type mRNA expression in the chick embryonic calvarium is correlated with, and perhaps dependent on, the extent of tissue matrix mineralization.
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PMID:Expression of collagen type transcripts in chick embryonic bone detected by in situ cDNA-mRNA hybridization. 246 43

A high frequency of parthenogenetic activation occurs when ovulated mouse oocytes are briefly exposed to a dilute solution of ethanol in vitro. Cytogenetic analyses of parthenogenones at metaphase of the first cleavage division have confirmed that parthenogenetic activation, per se, does not increase the incidence of chromosome segregation errors during the completion of the second meiotic division. Ethanol-induced activation, however, significantly increases the incidence of aneuploidy. The ultrastructural changes that occur in the morphology and organization of the second meiotic spindle apparatus in ethanol- and hyaluronidase-activated oocytes is reported here. Abnormalities in the arrangement of microtubule arrays and chromosome position were principally observed in ethanol-activated oocytes at anaphase and telophase of the second meiotic division, but were only rarely observed in hyaluronidase-activated oocytes. It is proposed that the abnormalities in spindle morphology and chromosome displacement observed in ethanol-activated oocytes represent the initial events that lead to chromosome segregation errors following exposure to this agent.
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PMID:Ultrastructural analysis of abnormalities in the morphology of the second meiotic spindle in ethanol-induced parthenogenones. 249 23

We have used in situ hybridization to examine expression of collagen type I, II, and X mRNA and osteonectin mRNA in the chick epiphysis. Tissue samples from the proximal tibial growth cartilage were fixed in modified Carnoy's solution, dehydrated in ethanol, and embedded in paraffin. Longitudinal and transverse sections were demineralized with HCl and digested with hyaluronidase and proteinase K. In situ hybridization was carried out using biotinylated cDNA probes; the hybridized probe was detected using a streptavidin-biotinylated alkaline phosphatase conjugate. This procedure permitted detection of the corresponding mRNAs in cartilage with high sensitivity and low background. Osteonectin mRNA was detected in proliferating cartilage; lower levels of osteonectin mRNA were seen in the mid-hypertrophic region. This mRNA species was also expressed in cells that border the vascular canals in the premineralized region of the epiphysis. Collagen type X mRNA was detected throughout the hypertrophic zone. As localization of collagen type X mRNA corresponded to the site of maximal synthesis of the protein, reported in other studies, our results would further support the suggestion that this protein is associated with mineralization of cartilage. Collagen type II mRNA was seen in both the proliferating and the hypertrophic regions of the cartilage. Highest levels of expression were observed in the proliferative region. The results suggest that the transcriptional control of collagen type II and X by cells of the proliferating and hypertrophic regions of the growth cartilage may be related.
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PMID:Developmental expression of genes in chick growth cartilage detected by in situ hybridization. 250 10

Cumulus-intact and -denuded unfertilized oocytes from two mouse strains were exposed to 1.5 M ethanol (EtOH) or two cryoprotectant solutions, 1.5 M propanediol (PROH) or 1.5 M dimethylsulfoxide (DMSO), for 4.5 min at 27 degrees C, and the proportion of activating or degenerating oocytes studied. Exposure to DMSO did not significantly increase activation above that of oocytes not exposed to DMSO. Treatment of oocytes in PROH resulted in the activation of up to 87% of viable oocytes. This was significantly higher (P less than .01) than in control oocytes and comparable to the rate of activation after treatment with EtOH (59-96% activation). In solutions at 1 degree C, 47% of control oocytes were activated, which was not significantly different from the rate of activation in EtOH (36%) or PROH (50%) at 1 degree C. Following treatment with PROH, up to 87% of oocytes degenerated within a period of 6 h in vitro. The age of the oocytes (h post hCG) and the time of cumulus removal with the enzyme hyaluronidase, relative to the time of exposure to the chemicals, influenced the level of degeneration in most groups. Significantly fewer oocytes degenerated when cumulus cells were removed before treatment (0-31%) than when the cumulus was left intact throughout the treatment and 6 h culture period (10-87%). Exposure to PROH at 1 degree C reduced oocyte degeneration to 5%. We conclude that PROH causes significantly greater losses of oocytes as a result of parthenogenetic activation and degeneration than of exposure to DMSO.
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PMID:Parthenogenetic activation of unfertilized mouse oocytes by exposure to 1,2-propanediol is influenced by temperature, oocyte age, and cumulus removal. 259 5

Methods for the analysis of urinary GAGs that can be used for or are applicable to routine assays are described. The most popular method for isolation of GAGs from a urine sample is CPC precipitation, in spite of the fact that it is time-consuming. To identify the different types of GAGs excreted, separation by one-dimensional cellulose acetate electrophoresis followed by staining with alcian blue or toluidine blue may suffice for routine purposes. Solvents such as barium acetate, calcium acetate, barbital buffer and pyridine-formic acid are used for the separation. However, the separation of the seven types of GAGs by conventional one-dimensional electrophoresis is difficult, and a discontinuous electrophoretic method with barium acetate buffer and barium acetate buffer containing ethanol has proved effective for the separation. HPLC separation methods are used for assaying the profiles of enzymatic digestion products of GAGs. Advanced HPLC methods for separating intact GAGs of different types are currently unavailable. Unsaturated disaccharides produced with heparitinase and/or heparinase from heparan sulphate and oligosaccharides produced by hyaluronidase digestion of hyaluronic acid can be separated by HPLC. For chondroitin sulphate isomers, unsaturated disaccharides produced by digestion of the samples with chondroitinase ABC or chondroitinase AC are separated by HPLC and determined by their UV absorbance or by fluorescence labelling. Highly sensitive quantitation of chondroitin sulphate isomers is possible by these methods, which are also efficient for the investigation of the constituents of GAG polymers. Some of these methods have been applied to urine samples from patients with, e.g., mucopolysaccharidoses.
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PMID:Methods for analysis of urinary glycosaminoglycans. 306 22

Although the core protein of a heparan sulfate proteoglycan has been detected in brain microvessel basement membranes by immunoperoxidase staining, cytochemical evidence of a glycosaminoglycan component, in the form of discrete staining with ruthenium red, is not found. To resolve this discrepancy, we examined the glycosaminoglycan content of this basement membrane directly. Microvessels were isolated from pig cerebral cortex, and basement membranes freed from cellular elements. Following digestion with papain and Pronase, the glycosaminoglycans were precipitated with cetyl pyridinium chloride and ethanol. The resulting extract contained uronic acid, and after electrophoresis on Super Sepraphore revealed 2 bands: One co-migrated with heparan sulfate standard, the other with chondroitin sulfate A and C. The first was completely eliminated by nitrous acid and heparitinase, but not by hyaluronidase or chondroitinase ABC and was therefore confirmed as heparan sulfate; the other band was eliminated by chondroitinase ABC but not by the other three treatments. The findings suggest that basement membrane of brain microvessels, like other vascular basement membranes, contains heparan sulfate and chondroitin sulfate A and/or C. The failure of staining with ruthenium red is probably a result of unique structural features of this basement membrane, rather than an absence of glycosaminoglycan.
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PMID:Isolation of glycosaminoglycans from basement membranes of brain microvessels. 334 40

Hyaluronidase was purified to apparent homogeneity from the spent medium of Peptostreptococcus sp. strain 84H14S. The enzyme was purified 310-fold by ethanol precipitation, gel chromatography, and cation-exchange chromatography with a recovery of 42% of the original activity in the culture medium. The molecular weight of the purified enzyme was estimated to be 160,000 by gel filtration with Sephacryl S-300. Like bacterial mucopolysaccharidases of other sources, the enzyme carried out an eliminative reaction with the substrate, producing 4,5-unsaturated disaccharides as the final end products. Its optimum temperature of activity is 46 degrees C. The purified peptostreptococcal hyaluronidase was different from previously reported bacterial hyaluronidases in several respects. It degraded hyaluronic acid rapidly and also exhibited some activity against chondroitin sulfate A and chondroitin sulfate C. The KmS for hyaluronic acid, chondroitin sulfate A, and chondroitin sulfate C were 0.14, 1.4, and 2.6 mg/ml, respectively. The specific activity of hyaluronidase was much higher than that of any previously purified mucopolysaccharidases. The Vmax against hyaluronic acid reached 400 mmol of product per min per mg of protein at 22 degrees C. The peptostreptococcal hyaluronidase was also unique in that its optimum pH of activity was around neutrality, whereas other bacterial hyaluronidases were most active at acidic pHs.
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PMID:Purification and characterization of hyaluronidase from oral Peptostreptococcus species. 388 52

We studied the interaction between glycosaminoglycans (GAGs) and fibronectin in the basement membrane of the epiblast in the chicken blastoderm using testicular-hyaluronidase digestion of GAGs either on fixed tissue sections or in vivo after microinjection of the enzyme preparation prior to immunostaining for fibronectin. In the choice of fixatives, special attention was paid to their preservation of GAGs. The controls included alcian-blue staining of serial sections to test the efficiency of the digestion, and incubations in the presence of protease inhibitors to abolish contaminating proteolytic activity in the commercial hyaluronidase preparations. The results indicate that fixation in solutions which preserve GAGs, i.e. ethanolic solutions or aqueous solutions containing cetylpyridinium chloride, allows the immunocytochemical demonstration of fibronectin in the basement membrane of the epiblast at the level of the endophyllic crescent, but masks this glycoprotein at the epithelial-mesenchymal interface. As shown by both approaches, this masking of immunoreactivity is reversible. Moreover, the in vivo clearance of GAGs before fixation shows that the masking at the epithelial-mesenchymal interface is not an experimental peculiarity due to the use of a particular technique, but is the consequence of an interaction between GAGs and fibronectin in that particular area of the basement membrane that is used by mesoblast cells as a substrate for migration. The observation that fibronectin may be masked by GAGs in ethanol-fixed tissue--a commonly used fixation method--may require the re-evaluation of some negative results mentioned in the literature.
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PMID:Masking of antigenic sites of fibronectin by glycosaminoglycans in ethanol-fixed embryonic tissue. 388 30

Sulfated galactosaminoglycans of mature bovine periodontal ligament were separated into four fractions by ethanol precipitation. Fractions I and II were dermatan sulfates with high contents of L-iduronate, but only small amounts of this hexuronic acid were present in fractions III and IV. Effects of digestion with testicular hyaluronidase or a periodate-alkali treatment showed that most if not all of the glycans in fractions I, II and III were hybrid chains containing both L-iduronate and D-glucuronate. The composition of fraction IV was less certain, but the chains strongly resembled fraction III hybrids in electrophoretic characteristics, not chondroitin sulfate. The total amount of the D-glucuronate-rich fractions III and IV in the ligament was similar to that of I plus II. In contrast, almost all of the sulfated galactosaminoglycans of mature skin were rich in L-iduronate. The more varied composition of the ligament glycosaminoglycans may be related to the mixed population of cells in this tissue.
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PMID:Sulfated galactosaminoglycans of bovine periodontal ligament. Evidence for the presence of two major types of hybrids but no chondroitin sulfate. 629 47

The appearance and distribution of the extracellular material glycoprotein, fibronectin, was investigated in gastrulating chick embryos using affinity-purified anti-human plasma fibronectin antibodies. Preservation of tissue structure and immunoreactivity was carried out by ethanol/acetic acid fixation or by formaldehyde/glutaraldehyde fixation. Using the former fixation method, fibronectin immunoreactivity was detected (1) at the ventral surface of the upper layer or epiblast, mainly anterior and lateral to Hensen's node, in regions where middle-layer or mesoblast cells are not yet present, and (2) sparsely in extracellular spaces of the deep layer. Using the latter fixation method, fibronectin immunoreactivity was, moreover, found at the entire ventral surface of the upper layer, i.e., also at the epithelial-mesenchymal interface, where a basement membrane was previously described. At the light microscope level, we could not detect significant immunoreactivity in the middle layer. Treatment of sections of ethanol-fixed blastoderms with testicular hyaluronidase before immunostaining for fibronectin partially demasked the antigenic sites of this glycoprotein at the epithelial-mesenchymal interface. The present report indicates that the different regional patterns of fibronectin immunoreactivity in the basement membrane of the upper layer are spatially and temporally correlated with migration and positioning of mesoblast cells. These regional patterns are probably due to differences in the composition of fibronectin-associated material such as chondroitin sulfate A and/or C proteoglycans, and/or hyaluronate, before and after mesoblast expansion, rather than to differences in the distribution of fibronectin itself. In this respect. In this respect, it is noteworthy that the chemical composition of the basement membrane of an epithelium changes as mesenchyme cells migrate over it. The results also favor the idea that fibronectin is a structural component of the whole basement membrane which is used as a substrate for migration of mesenchymal cells.
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PMID:Expression of different regional patterns of fibronectin immunoreactivity during mesoblast formation in the chick blastoderm. 636 64

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