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1.
The biosynthesis and macromolecular organization of proteoglycans was studied in explants of adult human articular cartilage. In a series of pulse-chase experiments, labelling with (35S)sulphate, it was shown that the proteoglycan monomer is synthesized as a precursor that has a low affinity for hyaluronic acid. These findings suggest a possible mechanism by which the rate of incorporation of proteoglycans into the extraceHular matrix may be controlled.  相似文献   

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3.
Pieces of adult human articular cartilage and chondrosarcoma were incubated in the presence of [35S]sulphate. After continuous or pulse-change incorporation of radioactivity, proteoglycans were extracted with 4.0 M-guanidinium chloride, purified by equilibrium density-gradient centrifugation and fractionated by gel chromatography. A comparison of the results suggests that the formation of stable aggregates occurs at a lower rate in articular cartilage than in chondrosarcoma.  相似文献   

4.
Proteoglycans were extracted from normal human articular cartilage of various ages with 4M-guanidinium chloride and were purified and characterized by using preformed linear CsCl density gradients. With advancing age, there was a decrease in high-density proteoglycans of low protein/uronic acid weight ratio and an increase in the proportion of lower-density proteoglycans, richer in keratan sulphate and protein. Proteoglycans of each age were also shown to disaggregate in 4M-guanidinium chloride and at low pH and to reaggregate in the presence of hyaluronic acid and/or low-density fractions. Osteoarthrotic-cartilage extracts had an increased content of higher-density proteoglycans compared with normal cartilage of the same age, and results also suggested that these were not mechanical or enzymic degradation products, but were possibly proteoglycans of an immature nature.  相似文献   

5.
Non-aggregating dermatan sulphate proteoglycans can be extracted from both fetal and adult human articular cartilage. The dermatan sulphate proteoglycans appear to be smaller in the adult, this presumably being due to shorter glycosaminoglycan chains, and these chains contain a greater proportion of their uronic acid residues as iduronate. Both the adult and fetal dermatan sulphate proteoglycans contain a greater amount of 4-sulphation than 6-sulphation of the N-acetylgalactosamine residues, in contrast with the aggregating proteoglycans, which always show more 6-sulphation on their chondroitin sulphate chains. In the fetus the major dermatan sulphate proteoglycan to be synthesized is DS-PGI, though DS-PGII is synthesized in reasonable amounts. In the adult, however, DS-PGI synthesis is barely detectable relative to DS-PGII, which is still synthesized in substantial amounts. Purification of the dermatan sulphate proteoglycans from adult cartilage is hampered by the presence of degradation products derived from the large aggregating proteoglycans, which possess similar charge, size and density properties, but which can be distinguished by their ability to interact with hyaluronic acid.  相似文献   

6.
Full-depth plugs of adult human articular cartilage were cut into serial slices from the articular surface and analysed for their glycosaminoglycan content. The amount of chondroitin sulphate was highest in the mid-zone, whereas keratan sulphate increased progressively through the depth. Proteoglycans were isolated from each layer by extraction with 4M-guanidinium chloride followed by centrifugation in 0.4M-guanidinium chloride/CsCl at a starting density of 1.5 g/ml. The efficiency with which proteoglycans were extracted depended on slice thickness, and extraction was complete only when cartilage from each zone was sectioned at 20 microns or less. When thick sections (250 microns) were extracted, hyaluronic acid was retained in the tissue. Most of the proteoglycans, extracted from each layer under optimum conditions, could interact with hyaluronic acid to form aggregates, although the extent of aggregation was less in the deeper layers. Two pools of proteoglycan were identified in all layers by gel chromatography (Kav. 0.33 and 0.58). The smaller of these was rich in keratan sulphate and protein, and gradually increased in proportion through the cartilage depth. Chondroitin sulphate chain size was constant in all regions. The changes in composition and structure observed were consistent with the current model for hyaline-cartilage proteoglycans and were similar to those observed with increasing age in human articular cartilage.  相似文献   

7.
Two types of sialic acid-containing component are released from articular cartilage proteoglycan monomer (D1) treated with 0.05 M NaOH containing 1 M NaBH4. The smaller component, which has not been described before, contains galactosamine, glucosamine, galactose and sialic acid (Molar ratio 1:1:1:2). It is eluted from ECTEOLA-cellulose with low molarity (0.4 M) sodium formate and has a Kav of 0.70 on Bio-gel P30. Its presence on the proteoglycan monomer was demonstrated at all stages of foetal and adult life.  相似文献   

8.
Mesenchymal progenitor cells in adult human articular cartilage   总被引:1,自引:0,他引:1  
Hiraoka K  Grogan S  Olee T  Lotz M 《Biorheology》2006,43(3-4):447-454
The transmembrane receptor Notch-1 regulates cell fate and differentiation and was suggested to identify a cell type with progenitor characteristics in newborn bovine articular cartilage. We show that Notch-1 is expressed on > 70% of BM-MSC in early passage monolayer culture. We also demonstrate that normal articular cartilage contains Notch-1+ cells and that the frequency is increased in OA. Most Notch-1+ cells in OA cartilage are located in the clusters of proliferating cells. These findings indicate that multipotential mesenchymal progenitor cells are present in articular cartilage from adult humans and that their frequency is increased in OA. This observation has implications for understanding the intrinsic repair capacity of articular cartilage and raises the possibility that these progenitor cells might be involved in the pathogenesis of arthritis.  相似文献   

9.
Proteoglycans of the articulating and growing zones of maximum and minimum contact of bovine fetal articular cartilage were studied and compared to proteoglycans of immature calf and adult steer. During fetal maturation, localized changes were observed as early as the second trimester of fetal life but were restricted to the most superficial zones. Proteoglycans extracted from the growing zones were purified by density-gradient ultracentrifugation. The majority of proteoglycan monomers were able to interact with endogenous hyaluronate to form aggregates. Monomers had, at all fetal stages, similar elution profiles on Sepharose 2B and similar ratios of chondroitin sulfate chains/keratan sulfate chains/O-glycosidically linked oligosaccharides. Keratan sulfate chains were of similar size at all stages, but chondroitin sulfate chain size decreased markedly with fetal maturation. In the first and second trimesters of fetal life, the proteoglycans were poorly substituted with glycosaminoglycans. A major increase in the absolute number of glycosaminoglycans and oligosaccharides attached to core protein was detected during the third trimester of fetal life. No further changes in substitution occurred in early postnatal life. Enzymatic digestion of proteoglycan monomer demonstrated that the increase in substitution with keratan sulfate occurred to the same extent in the main polysaccharide attachment region and in the keratan sulfate-rich region.  相似文献   

10.
Cartilage proteoglycan was isolated from bovine nasal septum and fractionated according to buoyant density after dissociative CsCl density gradient centrifugation. Gel-exclusion chromatography showed that hyaluronic acid was present in fractions of density lower than 1.69 g/mL. The molecular weight, assessed by sedimentation equilibrium analysis, of the proteoglycan present in the fractions with density > 1.69 g/mL, which appeared chromatographically homogeneous and constituted 54% of the preparation, ranged from 1.0 to 2.6 × 106 for v = 0.55 cm3 g?1. Carbodiimide-induced modification of the carboxyl groups by methylamine resulted in a reduction of the molecular weight to 0.74 – 1.25 × 106. An analogous reduction in molecular weight was obtained after equilibration of this proteoglycan fraction with hyaluronic acid oligomers containing five disaccharide units. Since both procedures are known to cause inhibition of the interaction between proteoglycans and hyaluronic acid, it is suggested that this lower molecular-weight range represents the true degree of polydispersity of the sub-units of hyaline cartilage proteoglycan constituting this fraction, while the higher values obtained for the intact proteoglycan are the result of the presence of hyaluronic acid in the sample. The molecular-weight range of the whole proteoglycan subunit preparation, assessed after carboxyl group modification, was 0.5–1.2 × 106. Apparently normal and abnormal cartilage was excised from single human osteoarthrosic femoral heads. Proteoglycans extracted by 4M guanidine hydrochloride were isolated after dissociative density gradient centrifugation and subjected to carboxyl group modification. Preparations from normal tissue exhibited molecular-weight averages ranging from 5 to 9 × 105. A molecular-weight reduction was observed with proteoglycans isolated from abnormal areas.  相似文献   

11.
Turnover of proteoglycans in cultures of bovine articular cartilage   总被引:8,自引:0,他引:8  
Proteoglycans in cultures of adult bovine articular cartilage labeled with [35S]sulfate after 5 days in culture and maintained in medium containing 20% fetal calf X serum had longer half-lives (average 11 days) compared with those of the same tissue maintained in medium alone (average 6 days). The half-lives of proteoglycans in cultures of calf cartilage labeled after 5 days in culture and maintained in medium with serum were considerably longer (average 21 days) compared to adult cartilage. If 0.5 mM cycloheximide was added to the medium of cultures of adult cartilage, or the tissue was maintained at 4 degrees C after labeling, the half-lives of the proteoglycans were greater, 24 and greater than 300 days, respectively. Analyses of the radiolabeled proteoglycans remaining in the matrix of the tissue immediately after labeling the tissue and at various times in culture revealed two main populations of proteoglycans; a large species eluting with Kav of 0.21-0.24 on Sepharose CL-2B, of high bouyant density and able to form aggregates with hyaluronate, and a small species eluting with a Kav of 0.63-0.70 on Sepharose CL-2B, of low buoyant density, containing only chondroitin sulfate chains, and unable to form aggregates with hyaluronate. The larger proteoglycan had shorter half-lives than the smaller proteoglycan; in cartilage maintained with serum, the half-lives were 9.8 and 14.5 days, respectively. Labeling cartilage with both [3H]leucine and [35S]sulfate showed the small proteoglycan to be a separate synthetic product. The size distribution of 35S-labeled proteoglycans lost into the medium was shown to be polydisperse on Sepharose CL-2B, the majority eluting with a Kav of 0.27 to 0.35, of high buoyant density, and unable to aggregate with hyaluronate. The size distribution of glycosaminoglycans from 35S-labeled proteoglycans appearing in the medium did not differ from that associated with labeled proteoglycans remaining in the matrix.  相似文献   

12.
Monoclonal antibodies produced against chondroitinase-treated human adult cartilage proteoglycans were selected for their ability to recognize epitopes on native proteoglycans. Binding analyses revealed that four of these monoclonal antibodies (BCD-4, BCD-7, EFG-4 and KPC-190) each recognized a different epitope on the same proteoglycan molecule which represents a subpopulation of a high buoyant density (D1) fraction of human articular cartilage proteoglycans (10, 30, 50 and 60% in fetal-newborn, 1.5 years old, 15 years old and 52-56 years old cartilages, respectively). Analysis of epitope specificities revealed that BCD-7 and EFG-4 monoclonal antibodies recognized epitopes on proteoglycan monomer which are associated with the protein structure in that they are sensitive to cleavage by Pronase, papain and alkali treatment and do not include keratan sulphate, chondroitin sulphate or oligosaccharides. The BCD-4 and KPC-190 epitopes also proved to be sensitive to Pronase or papain digestion or to alkali treatment, but keratanase or endo-beta-galactosidase also reduced the immunoreactivity of these epitopes. These observations indicate that the BCD-4 and KPC-190 epitopes represent peptides substituted with keratan sulphate or keratan sulphate-like structures. The BCD-4 epitope is, however, absent from a keratan sulphate-rich fragment of human adult proteoglycan, while the other three epitopes were detected in this fragment. None of these four epitopes were detected in the link proteins of human cartilage, in the hyaluronic acid-binding region of human newborn cartilage proteoglycan, in Swarm rat chondrosarcoma proteoglycan, in chicken limb bud proteoglycan monomer and in the small dermatan sulphate-proteoglycan of bovine costal cartilage. EFG-4 and KPC-190 epitopes were not detected in human fetal cartilage proteoglycans, although fetal molecules contained trace amounts of epitopes reactive with BCD-4 and BCD-7 antibodies.  相似文献   

13.
Two types of sialic acid-containing component are released from articular cartilage proteoglycan monomer (D1) treated with 0.05 M NaOH containing 1 M NaBH4. The smaller component, which has not been described before, contains galactosamine, glucosamine, galactose and sialic acid (Molar ratio 1:1:1:2). It is eluted from ECTEOLA-cellulose with low molarity (0.4 M) sodium formate and has Kav of 0.70 on Bio-gel P30. Its presence on the proteoglycan monomer was demonstrated at all stages of foetal and adult life.  相似文献   

14.
Four bovine articular cartilages have been compared with regard to the chemical composition of the whole cartilages, the amount of proteoglycan selectively extracted with 3 M MGCl2 or with 3 M guanidine-HCl, and the compositions and physical properties of the isolated proteoglycans. The whole cartilages differ but slightly in composition. Occipital condylar cartilage, a thin cartilage from the smallest joint, contains 4% more collagen and proportionately less proteoglycan than proximal humeral, the thickest cartilage from the largest joint. Each cartilage contains a pool of proteoglycan that resists extraction with 3 M MgCl2 but is extracted with 3 M guanidine-HCl. The proteoglycan extracted from each cartilage with 3 M guanidine-HCl contains a high molecular weight proteoglycan-collagen complex demonstrated by analytical ultracentrifugation and by the turbidity of its visible and ultra-violet spectra. The four cartilages appear to differ most remarkably in the fraction of total proteoglycan extracted from each as proteoglycan-collagen complex.  相似文献   

15.
The degradation of proteoglycan was examined in cultured slices of pig articular cartilage. Pig leucocyte catabolin (10 ng/ml) was used to stimulate the chondrocytes and induce a 4-fold increase in the rate of proteoglycan loss from the matrix for 4 days. Material in the medium of both control and depleted cultures was mostly a degradation product of the aggregating proteoglycan. It was recovered as a very large molecule slightly smaller than the monomers extracted with 4M-guanidinium chloride and lacked a functional hyaluronate binding region. The size and charge were consistent with a very limited cleavage or conformational change of the core protein near the hyaluronate binding region releasing the C-terminal portion of the molecule intact from the aggregate. The 'clipped' monomer diffuses very rapidly through the matrix into the medium. The amount of proteoglycan extracted with 4M-guanidinium chloride decreased during culture from both the controls and depleted cartilage, and the average size of the molecules initially remained the same. However, the proportion of molecules with a smaller average size increased with time and was predominant in explants that had lost more than 70% of their proteoglycan. All of this material was able to form aggregates when mixed with hyaluronate, and glycosaminoglycans were the same size and charge as normal, indicating either that the core protein had been cleaved in many places or that larger molecules were preferentially released. A large proportion of the easily extracted and non-extractable proteoglycan remained in the partially depleted cartilage and the molecules were the same size and charge as those found in the controls. There was no evidence of detectable glycosidase activity and only very limited sulphatase activity. A similar rate of breakdown and final distribution pattern was found for newly synthesized proteoglycan. Increased amounts of latent neutral metalloproteinases and acid proteinase activities were present in the medium of depleted cartilage. These were not thought to be involved in the breakdown of proteoglycan. Increased release of proteoglycan ceased within 24h of removal of the catabolin, indicating that the effect was reversible and persisted only while the stimulus was present.  相似文献   

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Studies were performed to investigate the capacity of proteoglycans for being extracted by salt solutions from unchanged and degeneratively changed articular cartilage of children and people of mature and elderly age. The content of proteoglycans and capacity for extraction depend on the age and degenerative changes in the cartilage tissue.  相似文献   

18.
Proteoglycans of the articulating and growing zones of minimum- and maximum-contact areas of calf articular cartilage were studied. Material was extracted sequentially (0.15 m sodium acetate, 2 m CaCl2, and 4 m guanidinium chloride) in the presence of protease inhibitors. The very small proportion of material extracted by 0.15 m sodium acetate was poor in carbohydrates, but rich in serine, glycine, and glutamic acid, and had a Kav of 0.42 on Sepharose 2B. Proteoglycan extracted from the articulating zone was of smaller average hydrodynamic size (Kav of monomer, 0.42) than that from the growing zone (Kav of monomer, 0.32), but the attached chondroitin sulfate chains were of similar size. Proteoglycan prepared from the articulating area of minimum contact was chondroitin sulfate enriched (molar ratio of GalN:GlcN, 27) in comparison to that prepared from other regions of the articular cartilage (GalN:GlcN, 9–12). It is suggested that age-related maturation may be modified by physiological load or stress.  相似文献   

19.
Dermatan sulphate proteoglycans were purified from juvenile human articular cartilage, with a yield of about 2 mg/g wet wt. of cartilage. Both dermatan sulphate proteoglycan I (DS-PGI) and dermatan sulphate proteoglycan II (DS-PGII) were identified and the former was present in greater abundance. The two proteoglycans could not be resolved by agarose/polyacrylamide-gel electrophoresis, but could be resolved by SDS/polyacrylamide-gel electrophoresis, which indicated average Mr values of 200,000 and 98,000 for DS-PGI and DS-PGII respectively. After digestion with chondroitin ABC lyase the Mr values of the core proteins were 44,000 for DS-PGI and 43,000 and 47,000 for DS-PGII, with the smaller core protein being predominant in DS-PGII. Sequence analysis of the N-terminal 20 amino acid residues reveals the presence of a single site for the potential substitution of dermatan sulphate at residue 4 of DS-PGII and two such sites at residues 5 and 10 for DS-PGI.  相似文献   

20.
The most recently described region of alternate splicing of fibronectin mRNA results in expression of an isoform which includes the type III repeat termed ED B (EIII B). To date this isoform has been detected in transformed cells in culture, in the synovial membrane and ovary but in no other adult tissue, and in embryonic chick cartilage to a much greater extent than in other cells of mesenchymal origin. Monoclonal antibody BC-1, which recognizes an epitope within the ED B segment, was used in two different assays and provided evidence that adult human articular cartilage contains ED B fibronectin. The extent of expression of this isoform, however, was variable and less than that found in fibronectin produced by the transformed fibroblast cell line WI-38VA13.  相似文献   

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