Chondrocyte-mediated depletion of articular cartilage proteoglycans in vitro

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.

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Articular cartilage cultured with interleukin 1. Increased release of link protein, hyaluronate-binding region and other proteoglycan fragments

Biochemical Journal ◽

10.1042/bj2380571 ◽

1986 ◽

Vol 238 (2) ◽

pp. 571-580 ◽

Cited By ~ 103

Author(s):

A Ratcliffe ◽

J A Tyler ◽

T E Hardingham

Keyword(s):

Articular Cartilage ◽

Interleukin 1 ◽

Binding Region ◽

Rapid Loss ◽

Keratan Sulphate ◽

Link Protein ◽

The Matrix ◽

The Media ◽

Average Size

Pig articular cartilage was maintained in culture for 3 days with and without porcine interleukin 1. The proteoglycans remaining in the cartilage and those released into the medium were analysed by using radioimmunoassays for the hyaluronate-binding region, link protein and keratan sulphate. In interleukin 1-treated cultures after 3 days there was 38% release of total glycosaminoglycans into the medium, 18% release of binding region, 14% release of link protein and 20% release of keratan sulphate epitope, whereas in control cultures the proportions released were much less (16, 9, 10 and 7% respectively). Characterization of the proteoglycans in the media after 1.5 days and 3 days of culture showed that interleukin 1 promoted the release of proteoglycan of large average size and also the release of link protein and of low-Mr binding region which was unattached to proteoglycan. Both the link protein and binding region released were able to bind to exogenously added hyaluronate, whereas the proteoglycan in the medium was not. The proteoglycans extracted from cultured cartilage were similar to those from fresh cartilage: they contained a high proportion of aggregating proteoglycans and some low-Mr binding region. The proportion of this binding region extracted from the interleukin 1-treated cartilage was increased. The presence of interleukin 1 in the cultures therefore appeared to increase the rate of proteolytic degradation of proteoglycan in the matrix and to lead to a more rapid loss of intact binding region, of link protein and of large proteoglycan fragments into the medium.

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Chondrons from articular cartilage. (IV). Immunolocalization of proteoglycan epitopes in isolated canine tibial chondrons.

Journal of Histochemistry & Cytochemistry ◽

10.1177/39.9.1717545 ◽

1991 ◽

Vol 39 (9) ◽

pp. 1175-1187 ◽

Cited By ~ 71

Author(s):

C A Poole ◽

T T Glant ◽

J R Schofield

Keyword(s):

Core Protein ◽

Polyclonal Antibodies ◽

Keratan Sulfate ◽

Thin Layers ◽

Pericellular Matrix ◽

Binding Region ◽

The Core ◽

Pre Treatment ◽

Testicular Hyaluronidase

Chondrons have recently been extracted from adult articular cartilages and techniques developed to study their structure and composition in isolation. This study introduces methods to immobilize isolated canine chondrons in thin layers of agarose gel for immunohistochemistry and future in vitro studies. An antibody to Type VI collagen which stained the chondron in suspension was used to successfully validate the system and its feasibility for immunoelectron microscopy. Monoclonal and polyclonal antibodies to a variety of epitopes on the proteoglycan molecule were tested on fresh and fixed plugs cored from chondron-agarose gels. Plugs were immunolabeled with peroxidase-diaminobenzidine before or after digestion with testicular hyaluronidase or chondroitinase ABC. Trypsin/chymotrypsin were used to challenge epitopes of the core protein. The results indicate that epitopes to keratan sulfate, chondroitin sulfate, hyaluronate binding region, and core protein are localized in the chondron. Consistent staining was found in the tail and interconnecting segments between chondrons, whereas staining of the pericellular matrix and capsule adjacent to the chondrocyte varied according to the enzyme pre-treatment employed. We conclude that isolated chondrons are rich in proteoglycan monomer, which is particularly concentrated in the tail and interconnecting segments of the chondron where it could function to protect and stabilize the chondrocyte.

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Analysis of small nuclear ribonucleoproteins (RNPs) in Trypanosoma brucei: structural organization and protein components of the spliced leader RNP

Molecular and Cellular Biology ◽

10.1128/mcb.11.11.5516-5526.1991 ◽

1991 ◽

Vol 11 (11) ◽

pp. 5516-5526 ◽

Cited By ~ 2

Author(s):

M Cross ◽

A Günzl ◽

Z Palfi ◽

A Bindereif

Keyword(s):

Trypanosoma Brucei ◽

Core Protein ◽

Rnase H ◽

Spliced Leader ◽

The Core ◽

In Vitro Reconstitution ◽

U2 Snrnp ◽

Protein Components ◽

Small Nuclear Ribonucleoproteins

trans splicing in Trypanosoma brucei involves the ligation of the 40-nucleotide spliced leader (SL) to each of the exons of large, polycistronic pre-mRNAs and requires the function of small nuclear ribonucleoproteins (snRNPs). We have identified and characterized snRNP complexes of SL, U2, U4, and U6 RNAs in T. brucei extracts by a combination of glycerol gradient sedimentation, CsCl density centrifugation, and anti-m3G immunoprecipitation. Both the SL RNP and the U4/U6 snRNP contain salt-stable cores; the U2 snRNP, in contrast to other eucaryotic snRNPs, is not stable under stringent ionic conditions. Two distinct complexes of U6 RNA were found, a U6 snRNP and a U4/U6 snRNP. The structure of the SL RNP was analyzed in detail by oligonucleotide-directed RNase H protection and by in vitro reconstitution. Our results indicate that the 3' half of SL RNA constitutes the core protein-binding domain and that protein components of the SL RNP also bind to the U2 and U4 RNAs. Using antisense RNA affinity chromatography, we identified a set of low-molecular-mass proteins (14.8, 14, 12.5, and 10 kDa) as components of the core SL RNP.

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Modulation of aggrecan and link-protein synthesis in articular cartilage

Biochemical Journal ◽

10.1042/bj2880721 ◽

1992 ◽

Vol 288 (3) ◽

pp. 721-726 ◽

Cited By ~ 18

Author(s):

A J Curtis ◽

R J Devenish ◽

C J Handley

Keyword(s):

Articular Cartilage ◽

Half Life ◽

Core Protein ◽

Calf Serum ◽

Cartilage Explants ◽

Dependent Manner ◽

Link Protein ◽

The Core ◽

Explant Cultures ◽

Igf I

The addition of serum or insulin-like growth factor-I (IGF-I) to the medium of explant cultures of bovine articular cartilage is known to stimulate the synthesis of aggrecan in a dose-dependent manner. The half-life of the pool of proteoglycan core protein was measured in adult articular cartilage cultured for 6 days in the presence and absence of 20 ng of IGF-I/ml and shown to be 24 min under both sets of conditions. The half-life of the mRNA pool coding for aggrecan was also determined and shown to be approx. 4 h in cartilage maintained in culture with or without IGF-I. The pool size of mRNA coding for aggrecan core protein increased 5-6-fold in cartilage explants maintained in culture in medium containing 20% (v/v) fetal-calf serum; however, in tissue maintained with medium containing IGF-I there was no increase in the cellular levels of this mRNA. This suggests that aggrecan synthesis is stimulated by IGF-I at the level of translation of mRNA coding for the core protein of this proteoglycan and that other growth factors are present in serum that stimulate aggrecan synthesis at the level of transcription of the core-protein gene. Inclusion of serum or IGF-I in the medium of cartilage explant cultures induced increases in the amounts of mRNA coding for type II collagen and link protein, whereas only serum enhanced the amount of mRNA for the core protein of decorin.

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Biosynthesis of proteoglycan in vitro by cartilage from human osteochondrophytic spurs

Biochemical Journal ◽

10.1042/bj2060329 ◽

1982 ◽

Vol 206 (2) ◽

pp. 329-341 ◽

Cited By ~ 23

Author(s):

Charles J. Malemud ◽

Victor M. Goldberg ◽

Roland W. Moskowitz ◽

Lee L. Getzy ◽

Robert S. Papay ◽

...

Keyword(s):

Hyaluronic Acid ◽

Articular Cartilage ◽

Deae Cellulose ◽

Culture Conditions ◽

Human Articular Cartilage ◽

Guanidinium Chloride ◽

Tissue Slices ◽

Keratan Sulphate ◽

Defined Culture

Proteoglycan biosynthesis by human osteochondrophytic spurs (osteophytes) obtained from osteoarthritic femoral heads at the time of surgical joint replacement was studied under defined culture conditions in vitro. Osteophytes were primarily present in two anatomic locations, marginal and epi-articular. Minced tissue slices were incubated in the presence of [35S]sulphate or [14C]glucosamine. Osteophytes incorporated both labelled precursors into proteoglycan, which was subsequently characterized by CsCl-isopycnic-density-gradient ultracentrifugation and chromatography on Sepharose CL-2B. The material extracted with 0.5m-guanidinium chloride showed 78.1% of [35S]sulphate in the A1 fraction after centrifugation. Only 23.0% of the [35S]sulphate in this A1 fraction was eluted in the void volume of Sepharose CL-2B under associative conditions. About 60–80% of the [35S]sulphate in the tissue 4m-guanidinium chloride extract was associated with monomeric proteoglycan (fraction D1). The average partition coefficient (Kav.) of the proteoglycan monomer on Sepharose CL-2B was 0.28–0.33. Approx. 12.4% of this monomer formed stable aggregates with high-molecular-weight hyaluronic acid in vitro. Sepharose CL-2B chromatography of fractions with lower buoyant densities (fractions D2–D4) demonstrated elution profiles on Sepharose CL-2B substantially different than that of fraction D1, indicative of the polydisperse nature of the newly synthesized proteoglycan. Analysis of the composition and chain size of the glycosaminoglycans showed the following: (1) preferential elution of both [35S]sulphate and [14C]glucosamine in the 0.5m-LiCl fraction on DEAE-cellulose; (2) the predominant sulphated glycosaminoglycan was chondroitin 6-sulphate (60–70%), with 9–11% keratan sulphate in the monomer proteoglycan; (3) Kav. values of 0.38 on Sephadex G-200 and 0.48 on Sepharose CL-6B were obtained with papain-digested and NaBH4-treated D1 monomer respectively. A comparison of the synthetic with endogenous glycosaminoglycans indicated similar types. These studies indicated that human osteophytes synthesized in vitro sulphated proteoglycans with some characteristics similar to those of mature human articular cartilage, notably in the size of their proteoglycan monomer and predominance of chondroitin 6-sulphate. They differed from articular cartilage primarily in the lack of substantial quantities of keratan sulphate and aggregation properties associated with monomer interaction with hyaluronic acid.

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INCREASED FIXATION OF SULFUR35 BY CARTILAGE IN VITRO FOLLOWING DEPLETION OF THE MATRIX BY INTRAVENOUS PAPAIN

Journal of Experimental Medicine ◽

10.1084/jem.112.5.743 ◽

1960 ◽

Vol 112 (5) ◽

pp. 743-750 ◽

Cited By ~ 19

Author(s):

T. F. McElligott ◽

J. L. Potter

Keyword(s):

Articular Cartilage ◽

Chondroitin Sulfate ◽

Intravenous Injection ◽

Experimental Situation ◽

Costal Cartilage ◽

Primary Lesion ◽

Cartilage Matrix ◽

Osteoarthritic Cartilage ◽

The Matrix

The uptake in vitro of sulfur-35 by costal cartilage obtained from nine rabbits 11 days after an intravenous injection of crude papain solution was compared with that in costal cartilage from eight normal untreated rabbits. An increased fixation of the isotope was found in treated animals compared with controls. The depletion of cartilage matrix by papain provided an experimental situation to test the hypothesis that the depletion of matrix which occurs in osteoarthritic cartilage can stimulate increased synthesis of chondroitin sulfate. The results give further support to the view that the primary lesion in osteoarthritis occurs in the matrix rather than in the chondrocyte of articular cartilage.

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The core protein of the matrix-associated heparan sulfate proteoglycan binds to fibronectin.

Journal of Biological Chemistry ◽

10.1016/s0021-9258(19)38948-3 ◽

1990 ◽

Vol 265 (15) ◽

pp. 8716-8724

Author(s):

A Heremans ◽

B De Cock ◽

J J Cassiman ◽

H Van den Berghe ◽

G David

Keyword(s):

Heparan Sulfate ◽

Core Protein ◽

Heparan Sulfate Proteoglycan ◽

Sulfate Proteoglycan ◽

The Core ◽

The Matrix

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The N-terminal half of the core protein of hepatitis C virus is sufficient for nucleocapsid formation

Journal of General Virology ◽

10.1099/vir.0.79775-0 ◽

2004 ◽

Vol 85 (4) ◽

pp. 971-981 ◽

Cited By ~ 54

Author(s):

Nathalie Majeau ◽

Valérie Gagné ◽

Annie Boivin ◽

Marilène Bolduc ◽

Josée-Anne Majeau ◽

...

Keyword(s):

Hepatitis C Virus ◽

Hepatitis C ◽

Core Protein ◽

Host Cells ◽

Yeast Cells ◽

Main Function ◽

C Protein ◽

Multifunctional Protein ◽

The Core

The core (C) protein of hepatitis C virus (HCV) appears to be a multifunctional protein that is involved in many viral and cellular processes. Although its effects on host cells have been extensively discussed in the literature, little is known about its main function, the assembly and packaging of the viral genome. We have studied the in vitro assembly of several deleted versions of recombinant HCV C protein expressed in E. coli. We demonstrated that the 75 N-terminal residues of the C protein were sufficient to assemble and generate nucleocapsid-like particles (NLPs) in vitro. However, homogeneous particles of regular size and shape were observed only when NLPs were produced from at least the first 79 N-terminal amino acids of the C protein. This small protein unit fused to the endoplasmic reticulum-anchoring domain also generated NLPs in yeast cells. These data suggest that the N-terminal half of the C protein is important for formation of NLPs. Similarities between the HCV C protein and C proteins of other members of the Flaviviridae are discussed.

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Articular cartilage cultured with catabolin (pig interleukin 1) synthesizes a decreased number of normal proteoglycan molecules

Biochemical Journal ◽

10.1042/bj2270869 ◽

1985 ◽

Vol 227 (3) ◽

pp. 869-878 ◽

Cited By ~ 169

Author(s):

J A Tyler

Keyword(s):

Articular Cartilage ◽

Enzyme Inhibitors ◽

Core Protein ◽

Average Length ◽

Interleukin 1 ◽

Fold Increase ◽

Glycosaminoglycan Synthesis ◽

Intracellular Degradation ◽

Dose Dependent ◽

Homogeneous Preparation

A homogeneous preparation of catabolin from pig leucocytes caused a reversible dose-dependent (0.01-1 nM) decrease in the synthesis of proteoglycan in slices of pig articular cartilage cultured in serum-free medium. The monomers that were synthesized and secreted in the presence of catabolin had the same average hydrodynamic size and ability to aggregate as the controls, and the core protein was substituted with the same number of glycosaminoglycan chains. The chains were the same average length and charge as normal and were sulphated to the same extent as the controls. Newly synthesized extracellular proteoglycan was not preferentially degraded. A 2-3-fold increase in glycosaminoglycan synthesis occurred in control and catabolin-treated cartilage in the presence of beta-D-xyloside (1 mM), more than 80% being secreted into the medium as free chains. Decreased incorporation of sulphate was not reversed in the presence of lysosomal-enzyme inhibitors, and there was no evidence in pulse-chase experiments of increased intracellular degradation of glycosaminoglycan chains before secretion. It is concluded that catabolin-treated cartilage synthesizes a smaller number of normal proteoglycan molecules.

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Physical properties of chondroitin sulphate/dermatan sulphate proteoglycans from bovine aorta

Biochemical Journal ◽

10.1042/bj2400575 ◽

1986 ◽

Vol 240 (2) ◽

pp. 575-583 ◽

Cited By ~ 21

Author(s):

R Kapoor ◽

C F Phelps ◽

T N Wight

Keyword(s):

Uronic Acid ◽

Glucuronic Acid ◽

Core Protein ◽

Chondroitin Sulphate ◽

Polymer Concentration ◽

Dermatan Sulphate ◽

Guanidinium Chloride ◽

Structural Units ◽

The Core ◽

Covalently Linked

Bovine aortic chondroitin sulphate/dermatan sulphate proteoglycans (PG-25, PG-35 and PG-50) were differentially precipitated with ethanol and analysed by a variety of chemical and physical techniques. The glycosaminoglycan chains of PG-25 and PG-35 contained a mixture of glucuronic acid and iduronic acid, whereas the uronic acid component of PG-50 was primarily glucuronic acid. In addition, various amounts of oligosaccharides containing small amounts of mannose, a galactose/hexosamine ratio of 1:1 and an absence of uronic acid were covalently linked to the core protein of all proteoglycans. The weight-average Mr (Mw) values of the proteoglycans determined by light-scattering in 4 M-guanidinium chloride were 1.3 × 10(6) (PG-25), 0.30 × 10(6) (PG-35) and 0.88 × 10(6) (PG-50). The s0 values of the proteoglycans were distributed between 7 and 8 S, and the reduced viscosities, eta sp./c, of all proteoglycans were dependent on the shear rate and polymer concentration. Electron microscopy of spread molecules revealed that PG-25 contained small structural units that appeared to self-associate into large aggregates, whereas PG-35 and PG-50 appeared mainly as monomers consisting of a core with various numbers of side projections. Hyaluronic acid-proteoglycan complexes occurred only with a small proportion of the molecules present in PG-35, and their formation could be inhibited by oligosaccharides. These results suggest the presence in the aorta of subspecies of chondroitin sulphate and dermatan sulphate proteoglycans, which show large variations in their physicochemical and inter- and intra-molecular association properties.

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