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)

We have utilized the method of whole embryo culture for metabolic labeling of mouse embryos with [3H]glucosamine during closure of neural folds at the posterior neuropore (27- to 29-somite stage). Accumulations of newly synthesized glycopeptides, lactosaminoglycans, hyaluronate, and sulfated glycosaminoglycans (GAG) were assessed by ion-exchange chromatography of glycoconjugates isolated from labeled embryos. Accumulation of hyaluronate and sulfated GAG was greatest in the posterior neuropore and decreased progressively toward the hindbrain where neurulation was already complete. Hyaluronate comprised a progressively smaller proportion of total newly synthesized glycoconjugate from the posterior neuropore toward the cranial region and glycopeptides showed the opposite trend. Sulfated GAG and lactosaminoglycans showed no consistent differences in relative abundance along the neuraxis. Autoradiographic analysis of newly synthesized glycoconjugates revealed especially heavy incorporation into developing basement membranes, beneath the neuroepithelium and around the notochord, in the posterior neuropore and recently closed neural tube regions, but not at more cranial levels of the neuraxis. Predigestion of sections with a specific hyaluronidase showed a significant quantity of this glycoconjugate to be hyaluronate. These results are consistent with a role for neuroepithelial and notochordal basement membrane hyaluronate in spinal neurulation.
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PMID:Glycosaminoglycans vary in accumulation along the neuraxis during spinal neurulation in the mouse embryo. 319 25

Hyaluronate-mediated expansion of the extracellular matrix has been suggested as an important element of growth and morphogenesis in several developing systems. In vitro, various growth factors have been shown to stimulate hyaluronate synthesis as well as cell proliferation. A similar link between proliferation and hyaluronate production during in vivo growth is difficult to demonstrate, because in most systems the source of growth-promoting factors is either not known or not amenable to experimental manipulation. During amphibian limb regeneration, cell proliferation depends upon paracrine release of factors from axons in the limb stump, and the nerve supply can be eliminated or augmented experimentally for study of growth in this system. Denervated and amputated limbs of larval salamanders do not begin to regenerate until distal areas of the limb stumps are reinnervated. We have used such limbs to examine the effect exerted by the reappearance of nerves on the amount of hyaluronate in the tissue undergoing the growth response. Hyaluronate was demonstrated by the metachromatic dye Ethyl Stains-all, which stains hyaluronate blue while sulfated glycosaminoglycans (GAGs) and proteins in the extracellular matrix stain various shades of violet, and by microspectrophotometry of alcian-blue-stained GAGs in serial sections pretreated with buffer or with Streptomyces hyaluronidase (SH) to remove hyaluronate specifically. Both methods showed little hyaluronate in the distal region of limb stumps prior to reinnervation, while reinnervated stumps had amounts of hyaluronate similar to those of control blastemas. Autoradiography of 3H-glucosamine-labeled limbs indicated that hyaluronate in the blastemas of reinnervated limb stumps included material newly synthesized by cells throughout the growing tissue.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hyaluronate accumulation and nerve-dependent growth during regeneration of larval Ambystoma limbs. 321 94

The synthesis of extracellular [35S]-SO4- and [3H]-glucosamine-labelled glycosaminoglycan (GAG) was studied in confluent human gingival fibroblast cultures in vitro. The differential synthesis of the total chondroitin sulphate/dermatan sulphate (CS/DS) and heparan-sulphate (HS) fraction was measured following chondroitinase-ABC digestion, nitrous-acid treatment and column chromatography on Sephadex G50. Control cultures synthesized a CS/DS fraction that represented 78 per cent of the total [35S]-SO4-GAG; the residual 22 per cent was heparan sulphate. Similar cultures were labelled with [3H]-glucosamine and the proportions of a high molecular-weight hyaluronic acid (HA) and proteoglycan fractions measured by gel-filtration HPLC after papain and hyaluronidase digestions. The HA fraction represented 66 per cent of the total isotope incorporated in control cultures. GAG chains released on treatment with papain (24 per cent of the total label incorporated) were of apparent molecular weight 17-20 kDa. All cultures exposed to Bacteroides gingivalis W50 outer membrane at concentrations between 2 and 50 micrograms ml-1 displayed a decrease in the CS/DS fraction and a reciprocal increase in the HS. However, the proportion of HA synthesized was slightly enhanced with a reciprocal decrease in the proteoglycan (papain-digestible) fraction. There was no alteration in the molecular weight of the papain-digestion products or the size distribution of the hyaluronic-acid fraction.
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PMID:The effect of the outer membrane fraction of Bacteroides gingivalis W50 on glycosaminoglycan metabolism by human gingival fibroblasts in culture. 325 24

The objective of this work was to identify and compare hyaluronidase activities of normal dermal and dermal wound granulation tissue fibroblasts. Direct evidence of the fibroblast as a source of tissue hyaluronidase was obtained. Fourth passage rabbit dermal fibroblasts were harvested on culture days 4, 8, 14, 18, and 22. Hyaluronidase activity and [35S]-sulfate- or [3H]-glucosamine-labeled glycosaminoglycans (GAGs) were monitored. Hyaluronidase assays were performed on medium and cellular fractions at the designated intervals. Enzyme activity of cellular fractions for both normal dermal and 14-day post-wound granulation tissue fibroblasts increased progressively through culture day 8. Thereafter (days 14-22), an eight-fold drop in cellular activity was coupled with cell death and emergence of hyaluronidase activity in medium fractions. Marked increases in degradation of secreted matrix components were concurrent with lysis-induced release of hyaluronidase. In this culture system, hyaluronidase activity was confined exclusively to cellular fractions and was released into the medium only under non-physiological conditions conducive to cellular death and lysis. Accordingly, this work suggests that previously reported skin wound hyaluronidases may be of fibroblastic origin and that susceptible GAGs are not degraded extracellularly, but, rather, must be internalized as a prerequisite to depolymerization.
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PMID:Hyaluronidase activity of rabbit skin wound granulation tissue fibroblasts. 330 34

Pseudoxanthoma elasticum is a genetic disease characterized by progressive mineralization of elastic fibers. Previous studies suggested that other components, apart from elastin, might be involved in the alterations of this connective tissue disorder (Martinez-Hernandez and Huffer, 1974; Pasquali Ronchetti et al., 1981; 1986). Evidence is presented that proteoglycan metabolism is altered in PXE-affected patient. Urinary GAGs suggests an increased degradation of glucosamine-containing GAGs in the patient. Pulse and chase experiments on in vitro skin fibroblasts indicated a decreased rate of synthesis of [35SO4] containing GAGs or an increase of their turnover rate in PXE. Moreover, when PGs produced from skin fibroblasts were identified by ultracentrifugation and gel filtration in associative conditions, PXE fibroblasts produced a significantly higher amount of the high molecular weight fraction of sulfated PGs. This high molecular weight material was present both in the medium and in the matrix and disappeared under dissociative conditions or after treatment with hyaluronidase or with pancreas elastase. By electron microscopy, PXE fibroblasts appeared to produce and secrete an enormous amount of toluidine blue 0 positive material organized as filaments and amorphous masses. These data are in agreement with previous observations of the presence of abnormal masses of microfilaments, in the dermis of PXE patients, which were sensitive to hyaluronidase and partially to trypsin and elastase (Pasquali Ronchetti et al., 1986). The results seem to confirm that at least some of the alterations of connective tissues in PXE are due to abnormal PGs metabolism and to their tendency to form abnormal aggregates in the extracellular space.
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PMID:Pseudoxanthoma elasticum (PXE): ultrastructural and biochemical study on proteoglycan and proteoglycan-associated material produced by skin fibroblasts in vitro. 334 48

Cellular response to inflammatory mediators is central to the regulation of new scar tissue formation. Fibroblasts derived from normal dermis and from 14-day old skin wound granulation tissue were compared with regard to production of non-collagenous extracellular matrix and response to interleukin-1 (IL-1). Following a serum-free 48 hour labeling with [3H]-glucosamine, the cellular, pericellular and medium fractions from the two cell types were collected, precipitated with cetylpyridinium chloride (CPC), and analyzed by cellulose acetate electrophoresis. In addition, susceptibility of precipitates to the polysaccharidases Streptomyces hyaluronidase and chondroitinase ABC was determined. Labeled conditioned medium from both cell types contained dermatan sulfate (DS) and hyaluronate (HA), although the relative amounts of these glycosaminoglycans (GAGs) were different. Medium from normal dermal fibroblasts contained more DS than HA, while 14-day granulation tissue culture medium contained a proportionately larger amount of HA. The amount of HA in the medium fraction of normal dermal fibroblasts was increased approximately 10-fold in the presence of 5 U/ml IL-1, while HA in the medium of wound-derived fibroblasts was quantitatively unaffected by addition of the mediator. Pericellular GAG consisted of heparan sulfate (HS) and chondroitin sulfate (CS), with no observable differences between the two cell types and no effect of IL-1 on this profile for either cell type. Conditioned medium from both cell types contained IL-1 activity (measured by thymocyte proliferation assay), with medium from 14-day granulation tissue fibroblasts containing 10-fold higher activity than normal dermal fibroblast medium.
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PMID:Modulation of fibroblast growth and glycosaminoglycan synthesis by interleukin-1. 350 Aug 28

Surface epithelium and submucosal glands of the ferret trachea undergo extensive postnatal development. This study examined developmental changes in rates of release and types of high molecular weight glycoconjugates secreted by explanted ferret tracheas. Digestion with bovine testicular hyaluronidase separated the high molecular weight glycoconjugates into two types, hyaluronidase-resistant mucins and hyaluronidase-susceptible glycosaminoglycans. Release rates were measured under unstimulated conditions and in the presence of known secretagogues. The unstimulated rate of release of total 3H-glycoconjugates was 4-fold higher at birth than after complete maturation. The mucin content varied from 39 to 74% of total 3H-glycoconjugates; however, no age-related pattern was observed for mucin/glycosaminoglycan ratios. The rate of release of 3H-mucins was 6-fold higher at birth than in the adult but rapidly dropped to adult levels by 28 days of age. The secretory cells in the tracheal epithelium of newborn ferrets had more abundant rough endoplasmic reticulum than did mature goblet cells, suggesting increased synthesis of secretory product. Response to methacholine and trypsin, both known stimulators of mucin release, was not observed until 28 and 54 days of age, respectively. Incorporation of 35S-sulfate into mucins relative to that for 3H-glucosamine increased with age, consistent with increasingly acidic histochemical staining properties of secretory cells. These developmental differences in rates of release, modulation of release, and relative sulfation of mucins may represent changes in secretory and synthetic mechanisms of the secretory cells.
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PMID:Developmental changes in glycoconjugate secretion by ferret tracheas. 353 88

The method of human gallbladder epithelial cell culture has been developed successfully with active mucus secretory function. Human gallbladder epithelial cells were dissociated by Dispase digestion from the specimens obtained by cholecystectomy for uncomplicated gallbladder stone cases. The dissociated cells formed a monolayer in Eagle's minimum essential medium supplemented with 10% fetal bovine serum within 24 h after the inoculation. These cells were maintained for at least 2 wk without fibroblastic overgrowth. Cultured cells contained periodic acid Schiff-positive material in cellular cytoplasm for 3 d. On transmission electron microscopy these materials were identified as mucous secretory granules. Mucous secretory function was determined by [3H]glucosamine incorporation. Sixty percent of the secreted glycoproteins labeled with [3H]glucosamine was eluted in excluded fractions of Sepharose 4B gel filtration, which were considered to be mucous glycoprotein, because they were found to be resistant to proteoglycan-specific enzymes such as hyaluronidase, chondroitinase ABC, heparitinase, and heparinase. The mucous glycoprotein secretion was maintained for 3 d and found to be inhibited in a dose-dependent manner by monensin (10(-7) to 10(-5) M) which is a known blocker of secretory function.
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PMID:Demonstration and maintenance of mucus secretion in cultured human gallbladder epithelial cells. 362 58

The process of lens regeneration in newts involves the dedifferentiation of pigmented iris epithelial cells and their subsequent conversion into lens fibers. In vivo this cell-type conversion is restricted to the dorsal region of the iris. We have examined the patterns of hyaluronate accumulation and endogenous hyaluronidase activity in the newt iris during the course of lens regeneration in vivo. Accumulation of newly synthesized hyaluronate was estimated from the uptake of [3H]glucosamine into cetylpyridinium chloride-precipitable material that was sensitive to Streptomyces hyaluronidase. Endogenous hyaluronidase activity was determined from the quantity of reducing N-acetylhexosamine released upon incubation of iris tissue extract with exogenous hyaluronate substrate. We found that incorporation of label into hyaluronate was consistently higher in the regeneration-activated irises of lentectomized eyes than in control irises from sham-operated eyes. Hyaluronate labeling was higher in the dorsal (lens-forming) region of the iris than in ventral (non-lens-forming) iris tissue during the regeneration process. Label accumulation into hyaluronate was maximum between 10 and 15 days after lentectomy, the period of most pronounced dedifferentiation in the dorsal iris epithelium. Both normal and regenerating irises demonstrated a high level of endogenous hyaluronidase activity with a pH optimum of 3.5-4.0. Hyaluronidase activity was 1.7 to 2 times higher in dorsal iris tissue than in ventral irises both prior to lentectomy and throughout the regeneration process. We suggest that enhanced hyaluronate accumulation may facilitate the dedifferentiation of iris epithelial cells in the dorsal iris and prevent precocious withdrawal from the cell cycle. The high level of hyaluronidase activity in the dorsal iris may promote the turnover and remodeling of extracellular matrix components required for cell-type conversion.
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PMID:Hyaluronic acid production and hyaluronidase activity in the newt iris during lens regeneration. 365 53

Segments of rat carotid artery were maintained in serum-free and serum-supplemented media with endothelium both present and substantially removed by air drying. At intervals of 3, 7, and 14 days the synthesis of glycosaminoglycan across the vessel walls was determined by autoradiographic detection of incorporated [3H]glucosamine. In control carotids the typical pattern of incorporation was 40% of label in the intima, consisting of endothelium and subendothelial matrix, 23, 13, and 15% in the three medial layers (M1, M2, M3, respectively), and 9% in the adventitia. During the first week in culture the proportion, and often the amount, of label in M1 increased significantly. Following air drying labeling decreased markedly in M1 but often increased in M2 and M3. By 14 days residual endothelial cells had regenerated, and the pattern of incorporation in the medial layers beneath this new endothelium was the same as for the controls with a high level of labeling in M1. In areas free of endothelium incorporation in M1 remained at a low level. Digestion with chondroitinase ABC and Streptomyces hyaluronidase showed that the changes in M1-labeling levels were due to changes in the amounts of both hyaluronic acid and sulfated glycosaminoglycan, whereas pulse and continuous labeling studies showed that the different labeling levels for the various layers and conditions were due to different rates of synthesis and not degradation. Carotids were also labeled with [3H]thymidine. Control and regenerating endothelia were active in serum-free and serum-supplemented media and had similar mitotic indices. Indices for smooth muscle cells in M1, however, were generally very low and were not affected by the presence or absence of endothelium. We conclude that endothelial removal results in decreased glycosaminoglycan synthesis in the inner media, that mitotically active endothelium correlates with increased glycosaminoglycan synthesis in the inner media, and that these changes occur independently of smooth muscle cell growth.
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PMID:Effects of endothelial removal and regeneration on smooth muscle glycosaminoglycan synthesis and growth in rat carotid artery in organ culture. 388 94


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