Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.6.4 (chondroitinase)
 2,039 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pig knee menisci were dissected into three zones of equal width representing inner, i.e. medial (zone 1), middle (zone 2) and outer, i.e. lateral (zone 3) tissue. Proteoglycans (PGs) were extracted with guanidinium chloride, isolated by ion-exchange chromatography and separated into two groups ('small' and 'large') by gel filtration. The small PGs were further fractionated by hydrophobic-interaction chromatography on Octyl-Sepharose. The PG eluting earliest from Octyl-Sepharose was identified as decorin on the basis of the size of the protein core produced by digestion with chondroitinase ABC, its recognition by monoclonal antibodies raised against bovine decorin and its N-terminal sequence, 23 of 24 amino acids of which were identified. Decorin represented about 23%, 28% and 32% of the total small PG recovered from Octyl-Sepharose from zones 1, 2 and 3, respectively. The major small PG in the meniscus, eluting from Octyl-Sepharose after decorin, was identified as biglycan by the size of core, recognition by a polyclonal antiserum raised against bovine biglycan and sequence of the N-terminal 26 amino acids. Biglycan accounted for approximately 53%, 52% and 38% of PG recovered from zones 1, 2 and 3, respectively. The glycosaminoglycan chains on both decorin and biglycan were identified as dermatan sulphate by their susceptibility to chondroitinase-B. Stains-All staining of SDS gels of Octyl-Sepharose eluates revealed the presence of a third small PG eluting slightly later than biglycan. This PG was purified by a further cycle of chromatography on Octyl-Sepharose and identified as fibromodulin on the basis of its amino acid composition and the N-terminal sequence obtained after digestion with pyroglutamate aminopeptidase. It was obtained in highest amounts from the inner (zone 1) tissue, which also yielded more biglycan and less decorin. Fibromodulin from the meniscus was shown to inhibit the formation of fibrils from a solution of type I collagen, independently of the effects of decorin. These results support the concept that the distributions and characteristics of the small PGs in knee meniscus reflect regional adaptation to functional demands.
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PMID:Isolation and characterization of small proteoglycans from different zones of the porcine knee meniscus. 930 97

Porous collagen matrices with defined physical, chemical and biological characteristics are interesting materials for tissue engineering. Attachment of glycosaminoglycans (GAGs) may add to these characteristics and valorize collagen. In this study, porous type I collagen matrices were crosslinked using dehydrothermal (DHT) treatment and/or 1-ethyl-3-(3-dimethyl aminopropyl)carbodiimide (EDC), in the presence and absence of chondroitin sulphate (CS). EDC covalently attaches CS to collagen. DHT crosslinking preserved a porous matrix structure. However, attachment of CS to DHT-treated matrices using EDC, resulted in collapsed surfaces, CS located only at the matrix exterior. EDC crosslinking resulted in a partial matrix collapse. This could be prevented if crosslinking was carried out in the presence of ethanol. Matrix porosity was then preserved. The presence of CS during EDC crosslinking resulted in covalent immobilization of CS throughout the matrix. The amount of CS incorporated was increased if crosslinking was performed in the presence of ethanol. EDC-crosslinked matrices, with and without CS, had increased denaturation temperatures and decreased free amine group contents. The susceptibility of these matrices towards degradation by proteolytic enzymes was diminished. Immobilized CS increased the water-binding capacity and decreased the denaturation temperature and tensile strength. Immobilized CS bound anti-CS antibodies and was susceptible to chondroitinase ABC digestion, demonstrating its bioavailability. The modified matrices were not cytotoxic as was established using human myoblast and fibroblast culture systems. It is concluded that the use of ethanol during EDC crosslinking, offers an elegant means for the preparation of defined porous collagenous matrices containing bioavailable, covalently attached CS.
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PMID:Preparation and characterization of porous crosslinked collagenous matrices containing bioavailable chondroitin sulphate. 1022 11

Working with Mel-85 (a human melanoma cell line), we have been able to detect a laminin-binding molecule with an apparent molecular mass of 100/110 kDa (Mel-85-LBM). Reduction with beta-mercaptoethanol decreases its molecular mass but does not affect its ability to bind laminin. This laminin interaction seems to be very specific since Mel-85-LBM binds laminin, but not fibronectin, vitronectin or type I collagen in affinity chromatography experiments. The molecule has a negative net charge at physiological pH and binds laminin in a divalent cation dependent way. Mel-85-LBM was metabolically radiolabeled with sodium [35S]-sulfate and chemical beta-elimination of purified Mel-85-LBM releases chondroitin sulfate chains. Mel-85-LBM is also sensitive to chondroitinase ABC digestion. These findings show that this molecule is a chondroitin sulfate proteoglycan. The location of this proteoglycan at the cell surface is evidenced by experiments using a polyclonal antiserum raised against purified Mel-85-LBM, that specifically reacts with just one molecule by western blotting among Mel-85 total cell extract as well as produces a positive signal by flow cytometry and a fluorescence profile of Mel-85 cells adhered on laminin.
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PMID:Presence of a laminin-binding chondroitin sulfate proteoglycan at the cell surface of a human melanoma cell Mel-85. 1048 22

We developed a method to purify decorin core protein from tissue with the goal of preserving its native structure and biological function. Currently, most procedures rely on the use of denaturing reagents potentially altering the biological activity. Decorin was purified from corneal stromas without the use of detergents or chaotropic reagents. Proteoglycans isolated using anion exchange chromatography on Q-Sepharose were treated with chondroitinase ABC. Decorin was isolated by a second Q-Sepharose chromatography with affinity chromatographies on heparin-Sepharose and concanavalin A-Sepharose. SDS-PAGE revealed a 98.4% pure 44kDa protein identified as decorin with a yield of 35mg per 100 bovine corneas. Identification was confirmed by NanoESI and MALDI qTOF. The novel inclusion of 20% propylene glycol in extraction and column buffers resulted in recoveries of proteoglycans comparable with those observed with detergents and urea. Purified decorin did alter the rate of fibrillogenesis of type I collagen and inhibited the lateral fusion of collagen fibrils. It also bound to [125I]TGF-beta1 with an apparent K(d) of 40nM. Circular dichroism spectroscopy of decorin displayed the spectra of alpha-helices and beta-pleated sheets consistent with those obtained from recombinant decorin. Urea-induced unfolding was cooperative and reversible while thermal denaturation caused irreversible unfolding. Native decorin can be purified from tissue in quantity and quality for biophysical, biochemical, and biological assays.
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PMID:Extraction and purification of decorin from corneal stroma retain structure and biological activity. 1218 18

This study has investigated the interaction of recombinant chondroitin sulphate (CS)-substituted decorin and biglycan on collagen fibrillogenesis, their interaction with hydroxyapatite (HAP), and HAP-induced crystal growth. The core proteins of the recombinant decorin and biglycan were obtained following chondroitinase ABC digestion and their influence on the above physical mechanisms were investigated in parallel. CS-decorin promoted collagen fibrillogenesis, with the interaction mediated principally through the core protein. Both decorin and biglycan demonstrated a strong association for HAP, predominately facilitated through the glycosaminoglycan chains. HAP-induced crystal growth was inhibited by decorin and biglycan, although the degree of inhibition was reduced when these proteoglycans were complexed with type I collagen. Thus, this study has highlighted potentially differing roles for decorin and biglycan, as both promoters and inhibitors in the regulation of the mineralization process.
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PMID:Molecular interaction of recombinant decorin and biglycan with type I collagen influences crystal growth. 1295 96

Highly porous, type I collagen-chondroitin-6-sulfate (collagen-GAG) scaffolds, produced by freeze-drying techniques, have proven to be of value as implants to facilitate the regeneration of certain tissues. The objective of this project was to evaluate changes in the microstructure and mechanical properties of selected collagen-GAG scaffolds as they degrade in an in vitro model system. Environmental scanning electron microscopy and video imaging demonstrated that collagenase degradation caused strut erosion through the creation of 1-3 microm diameter micropits within a 2-h period, leading to eventual removal of strut material and strut breakage. Loss of microstructural topography may have been due to gelatinization when collagen was cleaved by collagenase. Chondroitinase degradation of GAG resulted in swelling of the struts, causing the pores to become smaller and rounder. The compressive modulus of the collagen-GAG matrix decreased when degraded by collagenase, but remained unchanged when degraded by chondroitinase. Carbodiimide-cross-linked matrices were found to have a higher cross-link density, a higher compressive stiffness and a greater resistance to collagenase and chondroitinase, compared to non-cross-linked controls and matrices that were cross-linked by the dehydrothermal process. This investigation provides information that can be used to design collagen-GAG scaffolds with desired compressive stiffness and degradation rate to collagenase and chondroitinase.
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PMID:Degradation of a collagen-chondroitin-6-sulfate matrix by collagenase and by chondroitinase. 1458 96

Tendon is composed of type I collagen fibers, interspersed with proteoglycan matrix and cells. Glycosaminoglycans may play a role in maintaining the structural integrity of tendon, preventing excessive shearing between collagen components. This study tests the hypothesis that tendon extension mechanisms can be altered by modifying the composition of noncollagenous matrix. Tendon explants were treated with phosphate buffered saline (PBS) or PBS + 0.5 U ml(-1) chondroitinase ABC. Structural changes were examined using TEM and biochemical analysis, while strain response was examined using confocal microscopy and gross mechanical characterization. Chondroitinase ABC removed 90% of glycosaminoglycans from the matrix. Results demonstrated significant swelling of fibrils and surrounding matrix when incubated in either solution. In response to applied strain, PBS incubated samples demonstrated significantly less sliding between adjacent fibers than nonincubated, and a 33% reduction in maximum force. By contrast, fascicles incubated in chondroitinase ABC demonstrated a similar strain response to nonincubated. Data indicate that collagen-proteoglycan binding characteristics can be influenced by incubation and this, in turn, can influence the preferred extension mechanisms adopted by fascicles. This highlights the importance of maintaining fascicles within their natural environment to prevent structural or mechanical changes prior to subsequent analysis.
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PMID:The influence of noncollagenous matrix components on the micromechanical environment of tendon fascicles. 1613 17

The structural integrity of fibrillar type I collagen is critical for effective dentin bonding. Since most noncollagenous matrix components in dentin are closely associated with collagen, we hypothesized that they may also contribute to dentin bonding. To test this hypothesis, bovine dentin was acid-etched, treated with chondroitinase ABC (C-ABC), endo-beta-galactosidase (Endo-beta), or trypsin. Controls were prepared in the same manner but without the enzymes. All control and experimental specimens were then bonded with One-Step. Bond strength data were analyzed by one-way ANOVA and Fisher's PLSD test (p < 0.05). When dentin was treated with C-ABC or trypsin, bond strengths significantly decreased for the rewetted groups (p < 0.05). The treatment with Endo-beta showed no effects on bond strengths (p > 0.05). When the treated dentin surfaces were observed under SEM, the C-ABC and trypsin treated groups revealed significant loss of collagen fibril architecture. The results indicate that chondroitin sulfate glycosaminoglycans and trypsin-digestible noncollagenous proteins play roles in maintaining the open dimensions of the collagen fibril scaffold, which is essential for optimal dentin bonding.
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PMID:Removal of noncollagenous components affects dentin bonding. 1668 Jun 89

We evaluated the effects of chondroitinase ABC on axonal regeneration across peripheral nerve gaps. We compared axonal regeneration after 15-mm tibial nerve resection and repair with a silicone tube filled with type I collagen gel (negative control group), with a silicone tube filled with type I collagen gel containing chondroitinase ABC at three different concentrations (2.5 units/mL, 5 units/mL, 10 units/mL) (chondroitinase ABC groups), and with an autologous nerve segment (nerve autograft group). Electrophysiological and histological assessments were carried out 12 weeks after surgery. In the electrophysiological study, compound muscle action potentials (CMAPs) and nerve conduction velocities (NCVs) were recorded in all groups except the negative control group. Although both CMAPs and NCVs were highest in the nerve autograft group, there were no significant differences among the three chondroitinase ABC groups in either parameter. Histological findings were consistent with electrophysiological results. Based on these findings, we conclude that topical injection of chondroitinase ABC can significantly increase the critical length of nerve gap repair by tubulization or artificial nerve placement.
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PMID:Chondrotinase ABC enhances axonal regeneration across nerve gaps. 1807 54

Dentin bonding relies on complete resin impregnation throughout the demineralised hydrophilic collagen mesh. Chondroitin sulphate-glycosaminoglycans are claimed to regulate the three-dimensional arrangement of the dentin organic matrix and its hydrophilicity. The aim of this study was to investigate bond strength of two etch-and-rinse adhesives to chondroitinase ABC treated dentin. Human extracted molars were treated with chondroitinase ABC and a double labeling immunohistochemical technique was applied to reveal type I collagen and chondroitin 4/6 sulphate distribution under field emission in-lens scanning electron microscope. The immunohistochemical technique confirmed the effective removal of chondroitin 4/6 sulphate after the enzymatic treatment. Dentin surfaces exposed to chondroitinase ABC and untreated specimens prepared on untreated acid-etched dentin were bonded with Adper Scotchbond Multi-Purpose or Prime and Bond NT. Bonded specimens were submitted to microtensile testing and nanoleakage interfacial analysis under transmission electron microscope. Increased mean values of microtensile bond strength and reduced nanoleakage expression were found for both adhesives after chondroitinase ABC treatment of the dentin surface. Adper Scotchbond Multi-Purpose increased its bond strength about 28%, while bonding made with Prime and Bond NT almost doubled (92% increase) compared to untreated specimens. This study supports the hypothesis that adhesion can be enhanced by removal of chondroitin 4/6 sulphate and dermatan sulphate, probably due to a reduced amount of water content and enlarged interfibrillar spaces. Further studies should validate this hypothesis investigating the stability of chondroitin 4/6 and dermatan sulphate-depleted dentin bonded interface over time.
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PMID:Adhesion to chondroitinase ABC treated dentin. 1816 9


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