HE4 suppresses the expression of osteopontin in mononuclear cells and compromises their cytotoxicity against ovarian cancer cells.

Ovarian cancers are known to evade immunosurveillance and to orchestrate a suppressive immune microenvironment. Here we examine the role of human epididymis protein 4 (HE4), an ovarian cancer biomarker, in immune evasion. Through modified subtractive hybridization analyses we have characterized the gene targets of HE4 in human peripheral blood mononuclear cells (PBMCs), and established a preliminary mechanism for HE4-mediated immune failure in ovarian tumours. Upon exposure of purified PMBCs to HE4, osteopontin (OPN) and dual-specificity phosphatase 6 (DUSP6) emerged as the most suppressed and up-regulated genes, respectively. SKOV3 and OVCAR8, human ovarian carcinoma cell lines, exhibited enhanced proliferation in conditioned media from HE4-exposed PBMCs, an effect that was attenuated by the addition of recombinant OPN or OPN-inducible cytokines [interleukin (IL)-12 and interferon (IFN)-Ɣ]. Additionally, upon co-culture with PBMCs, HE4-silenced SKOV3 cells were found to be more susceptible to cytotoxic cell death. The relationship between HE4 and OPN was reinforced further through the analysis of serous ovarian cancer patient samples. In these biopsy specimens, the number of OPN+ T cells correlated positively with progression free survival (PFS) and inversely with serum HE4 level. Taken together, these findings show that HE4 enhances ovarian cancer tumorigenesis by compromising OPN-mediated T cell activation.

Open PHACTS computational protocols for in silico target validation of cellular phenotypic screens: knowing the knowns.

Phenotypic screening is in a renaissance phase and is expected by many academic and industry leaders to accelerate the discovery of new drugs for new biology. Given that phenotypic screening is per definition target agnostic, the emphasis of in silico and in vitro follow-up work is on the exploration of possible molecular mechanisms and efficacy targets underlying the biological processes interrogated by the phenotypic screening experiments. Herein, we present six exemplar computational protocols for the interpretation of cellular phenotypic screens based on the integration of compound, target, pathway, and disease data established by the IMI Open PHACTS project. The protocols annotate phenotypic hit lists and allow follow-up experiments and mechanistic conclusions. The annotations included are from ChEMBL, ChEBI, GO, WikiPathways and DisGeNET. Also provided are protocols which select from the IUPHAR/BPS Guide to PHARMACOLOGY interaction file selective compounds to probe potential targets and a correlation robot which systematically aims to identify an overlap of active compounds in both the phenotypic as well as any kinase assay. The protocols are applied to a phenotypic pre-lamin A/C splicing assay selected from the ChEMBL database to illustrate the process. The computational protocols make use of the Open PHACTS API and data and are built within the Pipeline Pilot and KNIME workflow tools.

In vitro and in vivo evidence for lack of endovascular remodeling by third trimester trophoblasts.

The placental-decidual interaction through invading trophoblasts determines whether a physiological transformation of the uterine spiral arteries is established or not. Trophoblast-orchestrated artery remodeling is central to normal placentation. Dysregulated uteroplacental interaction and vascular remodeling are thought to be associated with the molecular events underlying the pathology of late pregnancy anomalies including preeclampsia. Although the exact gestational age at which trophoblast invasion ceases is not known, it remains unclear whether late pregnancy trophoblasts retain the ability to transform the uterine arteries. Here, we have developed a dual cell, in vitro culture system that mimics the vascular remodeling events during normal pregnancy. We demonstrate that first and third trimester trophoblasts respond differentially to interactive signals from endothelial cells when cultured on matrigel. Term primary trophoblasts or immortalized third trimester extravillous TCL1 trophoblasts not only fail to respond to signals from endothelial cells but also inhibit endothelial cell tube formation. In contrast, HTR8 cells, representing a first trimester trophoblast cell line with invasive properties, undergo spontaneous migration and synchronize with the endothelial cells in a capillary network. This disparity in behavior was confirmed in vivo using a matrigel plug assay. Poor expression of VEGF C and VEGF receptors coupled with high E-cadherin expression by term primary trophoblasts and TCL1 cells contributed to their restricted interactive and migratory properties. We further show that the kinase activity of VEGF R2 is essential for proactive crosstalk by HTR8 cells. This unique behavior of first trimester trophoblasts in the presence of endothelial cells offers a potential approach to study cell-cell interactions and to decipher modulatory components in the serum samples from adverse pregnancy outcomes.

Review: Collagen markers in early arthritic diseases.

In arthritic diseases e.g. osteoarthritis (OA) and rheumatoid arthritis (RA), the stability of the collagen type II (CII) fibers, a major component of articular cartilage, is compromised with extensive proteolytic breakdown leading to cartilage erosion and joint deterioration. A clinical need for molecular markers that give instantaneous measure of rate of joint deterioration has developed, as other measurements e.g. arthroscopy, and joint space narrowing are insensitive to small changes in disease status over short periods of time. Owing to its exclusive presence in cartilaginous tissues, markers of CII synthesis and degradation have been extensively studied. Assays that measure these markers in biological fluids e.g. synovial fluid (SF), serum, and urine have been developed and applied to detect early disease onset, monitor disease progression, and response to anti-arthritic drugs. CII synthesis markers include the procollagen type II C-propeptide (PIICP) and the procollagen type IIA N-propeptide (PIIANP). CII degradation markers include CII C-telopeptide (CII-X), CII neoepitope (TIINE), helix II, C2C, CNBr 9.7, Coll 2-1, and Coll 2-1 NO(2). Most of these markers differentiate between early stages of OA, RA and reference controls. The best correlations with structural changes occur when measurements are made in SF while serum measurement frequently did not correlate with structural changes. Although the selection of an optimal marker or a set of markers is still problematic, few markers are of considerable utility in early detection and monitoring of arthritic diseases. The current challenge is to improve the discriminatory power of these markers so they can be used to guide therapeutic decisions.

Association of articular cartilage degradation and loss of boundary-lubricating ability of synovial fluid following injury and inflammatory arthritis.

OBJECTIVE: To study the relationship between the boundary-lubricating ability of synovial fluid (SF) and articular cartilage damage in a rabbit knee injury model, to correlate collagen markers of such damage with SF boundary-lubricating ability and elastase activity, and to examine the lubricating ability of SF, together with collagen markers of articular cartilage damage, under the inflammatory conditions of knee joint synovitis (KJS) and rheumatoid arthritis (RA). METHODS: SF was aspirated weekly from the affected knee joints of 10 adult rabbits following transection of the anterior and posterior cruciate ligaments. The boundary-lubricating ability of SF was determined in vitro using a previously described friction apparatus. Lubricin concentrations and type II collagen (CII) peptides were quantified by sandwich enzyme-linked immunosorbent assays (ELISAs). Levels of the C-terminal neoepitope 9A4 (derived from collagenase degradation of CI, CII, and CIII) and of epitope 5-D-4 of keratan sulfate (a marker of proteoglycan depletion) were quantified by inhibition ELISAs. Elastase activity was measured spectrophotometrically. The sensitivity of purified human lubricin to digestion by neutrophil elastase (NE) was examined by Western blotting. RESULTS: The lubricating ability of SF from injured rabbit knees was significantly decreased at weeks 2 and 3 compared with week 1 after injury. Lubricin concentrations were significantly higher at week 1 than at weeks 2 and 3. CII peptide concentrations increased significantly at weeks 2 and 3 compared with week 1, while 9A4 neoepitope concentrations increased significantly at week 3 compared with weeks 1 and 2. There were no significant differences in epitope 5-D-4 concentrations among the 3 weeks. Elastase activity in SF increased significantly at weeks 2 and 3 compared with week 1. Elastase activity correlated significantly with diminishing lubrication at weeks 1, 2, and 3. SF from patients with KJS or RA exhibited deficient lubrication and elevated levels of CII peptides compared with SF from normal controls. NE was shown to completely degrade purified human lubricin in vitro. CONCLUSION: Loss of boundary-lubricating ability of SF after injury is associated with damage to the articular cartilage matrix. This can be attributed to inflammatory processes resulting from the injury, particularly in the early phases. This association also exists in patients with acute knee injuries or progressive chronic inflammatory arthritis.

Shaping biological knowledge: applications in proteomics.

The central dogma of molecular biology has provided a meaningful principle for data integration in the field of genomics. In this context, integration reflects the known transitions from a chromosome to a protein sequence: transcription, intron splicing, exon assembly and translation. There is no such clear principle for integrating proteomics data, since the laws governing protein folding and interactivity are not quite understood. In our effort to bring together independent pieces of information relative to proteins in a biologically meaningful way, we assess the bias of bioinformatics resources and consequent approximations in the framework of small-scale studies. We analyse proteomics data while following both a data-driven (focus on proteins smaller than 10 kDa) and a hypothesis-driven (focus on whole bacterial proteomes) approach. These applications are potentially the source of specialized complements to classical biological ontologies.

Detection of collagen type II and proteoglycans in the synovial fluids of patients diagnosed with non-infectious knee joint synovitis indicates early damage to the articular cartilage matrix.

OBJECTIVE: We have sought to determine if markers of proteoglycans and collagen type II (CII) degradation can be detected at an early stage following acute knee injury in the synovial fluid (SF) from a group of patients diagnosed with non-infectious knee joint synovitis (KJS). CII, proteoglycans and elastase activity in the SF from patients with KJS were compared to SF from patients with two chronic arthritis conditions: osteoarthritis (OA) and rheumatoid arthritis (RA) as well as normal SF controls. METHODS: CII peptides were measured by sandwich ELISA using two monoclonal antibodies: 8:6:D8, a CII-specific antibody, and 14:7:D8 which binds to an amino acid sequence on CII as well as collagens type I, III and V. Epitope 9A4, a neo-epitope resulting from collagenase digestion of CI, CII, and CIII was measured by inhibition ELISA. Proteoglycans measurement included total sulfated glycosaminoglycans (sGAG) by dye-binding assay and 5-D-4 epitope, a keratan sulfate epitope, by inhibition ELISA. Elastase activity was measured colorimetircally using N-succinyl trialanine p-nitroanilide (SANA) substrate. RESULTS: The quantified CII peptide concentrations by sandwich and inhibition ELISA were significantly higher in SF from patients with KJS (P<0.05) compared to SF from patients with OA, RA and normal aspirates. 5-D-4 and sGAG concentrations were significantly lower (P<0.05) in SF from patients with KJS compared to SF from patients with OA and RA. Elastase activity in SF from patients with KJS and RA were significantly higher (P<0.05) than SF from patients with OA. A significant correlation exists between elastase activity and 9A4 epitope concentration in SF from patients with KJS. CONCLUSION: The elevated CII peptides concentrations in KJS SF compared to normal and OA aspirates indicate early signs of cartilage network damage. The low proteoglycans concentrations in SF from patients with KJS may indicate that injury is limited to the superficial zone of cartilage in the patient population studied. The high elastase activity in SF from patients with KJS and RA are linked to the high CII peptides concentration. The elastase activity in the SF from patients with KJS is due to the action of neutrophil elastase (NE) and collagenases, where both contribute to the destruction of the articular cartilage.

Heterogeneity of clara cell glutathione. A possible basis for differences in cellular responses to pulmonary cytotoxicants.

Clara-cell populations show a high degree of variation in susceptibility to injury by bioactivated cytotoxicants. Because glutathione (GSH) is critical for detoxification of electrophilic metabolites, heterogeneity in Clara cell GSH levels may lead to a wide range of cytotoxic responses. This study was designed to define the distinct GSH pools within Clara cells, characterize heterogeneity within the population, and examine whether heterogeneity contributes to susceptibility. Using fluorescent imaging combined with high-performance liquid chromatography analysis, semiquantitative measurements were obtained by evaluation of GSH using monochlorobimane and monobromobimane. In steady-state conditions, the GSH measured in isolated cells was in the femtomole range, but varied 4-fold between individual cells. Clara cells analyzed in situ and in vitro confirmed this heterogeneity. The response of these cells to compounds that modulate GSH was also variable. Diethylmaleate depleted GSH, whereas GSH monoethylester augmented it. However, both acted nonuniformly in isolated Clara cells. The depletion of intracellular GSH caused a striking decrease in cell viability upon incubation with naphthalene (NA). The sulfhydryl-binding fluorochrome BODIPY, which colocalized with tetramethylrosamine, a mitochondrial dye, demonstrated by confocal microscopy that cellular sulfhydryls are highest in the mitochondria, next-highest in cytoplasm, and lowest in the nucleus. These pools responded differently to modulators of GSH. We concluded that the steady-state intracellular GSH of Clara cells exists in distinct pools and is highly heterogeneous within the population, and that the heterogeneity of GSH levels corresponds closely to the response of Clara cells to injury by NA.

Effect of endotoxin shock on the clearance of lidocaine and indocyanine green in the perfused rat liver.

Endotoxin administration and cecal ligation and puncture produce significant hepatocellular dysfunction when studied in vivo. Specific factors that are present in vivo after endotoxin administration and cecal ligation and puncture, such as alterations in liver blood flow, circulating mediators, and hypoxia, can alter hepatic function. In this study, we used an isolated perfused liver to evaluate the effects of in vivo administration of endotoxin on hepatic function using indocyanine green (ICG) as a global marker of function and lidocaine and its metabolite, MEGX, as specific markers of the CYP450 enzyme system. Endotoxin (Escherichia coli; 45 mg/kg i.p.) was administered to rats followed by a 6-h monitoring before preparation of the isolated in situ perfused liver. Livers from control and endotoxin groups received either ICG (control, n = 6; endotoxin, n = 5) or lidocaine (control, n = 8; endotoxin, n = 8). A separate group of rats (n = 6) received cimetidine (an inhibitor of the CYP450 enzyme system) at a dose of 80 mg/kg daily for 3 days. Livers were perfused via the portal vein by using a single-pass system with a balanced salt solution 6 h after receiving either endotoxin or saline or 24 h after receiving the last dose of cimetidine. After a 40-min stabilization period, ICG or lidocaine was infused via the portal vein until steady-state concentrations were reached in the venous outflow. The total hepatic clearance and intrinsic hepatic clearance for ICG and lidocaine were unchanged in the livers obtained from endotoxin-treated rats. This model could adequately detect CYP450 inhibition because cimetidine-treated rats had significantly lower initial MEGX concentrations (0.63 +/- 0.03 mg/L) compared with control (0.77 +/- 0.03 mg/L) and endotoxin-treated (0.74 +/- 0.04 mg/L) rats. Septic livers had significantly higher initial hepatic oxygen consumption (HVO2) than did control livers (45 +/- 3 microL/min/g vs 82 +/- 9 microL/min/g). The HVO2 remained higher in the septic livers and significantly increased throughout the study, which demonstrated that the livers remained viable and functional. These data indicate that there is no detectable hepatocellular dysfunction after endotoxin shock using ICG, lidocaine, and MEGX in the isolated perfused liver; therefore the dysfunction reported from in vivo studies may be reversible when the liver is removed from the shocked environment.

Articular collagen degradation in the Hulth-Telhag model of osteoarthritis.

OBJECTIVE: This study employed immunohistochemistry to investigate the pattern of type II collagen (CII) degradation in an acute injury model of osteoarthritis. It was hypothesized, based on previous studies of primary osteoarthritis (OA), that the worst areas of CII degradation would be located in the superficial and upper middle zones of the articular cartilage, with staining extending into the deep zone as the OA became more severe. DESIGN: In this model of secondary OA, rabbits were made osteoarthritic by transecting the anterior and posterior cruciate ligaments and removing the meniscus. At various times post surgery, articular cartilage was examined for CII degradation using monoclonal antibody 18:6:D6. This antibody reacts to an epitope that is exposed when CII is degraded as the result of protease cleavage. Proteoglycans (PG) were localized using Safranin-O/Fast Green. Staining intensities were quantitated using image analysis software. RESULTS: In the joints with surgically induced OA, degradation of CII was seen as early as 3 weeks with the majority of the degradation localized in zones I and III. At 14 weeks the destruction of CII was more pronounced, but there was a surprising lack of degradation in zone II. There were also several other unexpected findings. The sham-operated joints, for example, were intended to serve as controls yet CII degradation was observed in rabbits killed 3 weeks after surgery. It was also expected that greater CII degradation would occur in cartilage from medial condyles, but after 14 weeks there was no significant difference between medial and lateral condyles. Finally, the loss of staining for PG correlated with the degradation of CII except in zone III where limited PG loss was observed. CONCLUSION: Differences were observed between the pattern of articular cartilage destruction in this model of secondary OA and that of primary OA. Further investigation of the mechanical and biochemical processes underlying the development of both types of OA needs to be conducted.

Hypoxia-inducible mammalian gene expression analyzed in vivo at a TATA-driven promoter and at an initiator-driven promoter.

We have analyzed protein-DNA interactions in vivo at transcriptional control elements for two hypoxia-inducible genes in mouse hepatoma cells. The promoter for the phosphoglycerate kinase 1 (PGK1) gene contains an initiator element, but no TATA sequence, whereas the promoter for the glucose transporter 1 (Glut1) gene contains a TATA element but no initiator sequence. Our findings reveal hypoxia-inducible, Arnt-dependent occupancy of DNA recognition sites for hypoxia-inducible factor 1 (HIF-1) upstream of both target genes. The conserved recognition motif among the five recognition sites is 5'-CGTG-3'. The PGK1 promoter exhibits constitutive occupancy of a binding site for an unknown protein(s); however, we detect no protein-DNA interaction at the initiator element, in either uninduced or induced cells. The Glut1 promoter also exhibits constitutive protein binding; in addition, the TATA element exhibits partial occupancy in uninduced cells and increased occupancy under hypoxic conditions. We find no evidence for hypoxia-induced changes in chromatin structure of either gene. Time-course analyses of the Glut1 gene reveal a temporal relationship between occupancy of HIF-1 sites and TATA element occupancy. Our findings suggest that the promoters for both hypoxia-responsive genes constitutively maintain an accessible chromatin configuration and that HIF-1 facilitates transcription by recruiting and/or stabilizing a transcription factor(s), such as TFIID, at both promoters.

Interagency collaboration in services for people with co-occurring mental illness and substance use disorder.

Historically the divisions between the mental health and substance abuse fields have been so deep that attempts to provide coordinated treatment across service sectors for people with dual diagnoses of psychiatric disorder and substance use disorder have failed. The authors describe a program in Maine designed to develop collaboratives, or communities of providers, who work together to offer coordinated mental health and substance abuse treatment and support. Surveys of provider agencies in one collaborative conducted one year and two years after the collaborative was established showed an increase in interagency referrals, joint assessments of clients, and jointly sponsored training and client services.

Chondrogenic differentiation of cultured human mesenchymal stem cells from marrow.

In the adult human, mesenchymal stem cells (MSCs) resident in bone marrow retain the capacity to proliferate and differentiate along multiple connective tissue lineages, including cartilage. In this study, culture-expanded human MSCs (hMSCs) of 60 human donors were induced to express the morphology and gene products of chondrocytes. Chondrogenesis was induced by culturing hMSCs in micromass pellets in the presence of a defined medium that included 100 nM dexamethasone and 10 ng/ml transforming growth factor-beta(3) (TGF-beta(3)). Within 14 days, cells secreted an extracellular matrix incorporating type II collagen, aggrecan, and anionic proteoglycans. hMSCs could be further differentiated to the hypertrophic state by the addition of 50 nM thyroxine, the withdrawal of TGF-beta(3), and the reduction of dexamethasone concentration to 1 nM. Increased understanding of the induction of chondrogenic differentiation should lead to further progress in defining the mechanisms responsible for the generation of cartilaginous tissues, their maintenance, and their regeneration.

[Markers of hepatic fibrogenesis in alcoholic patients]. / Marcadores de fibrogénesis hepática en pacientes alcohólicos.

BACKGROUND: An elevation of serologic markers of hepatic fibrogenesis has been reported in liver diseases of different etiologies. Among these, the N-terminal type III procollagen (P-III-P) and the P1 proteolytic fragment of laminin (P1 laminin) increase in alcoholic liver damage, in proportion to the progression of this condition. AIM: To study serum levels of P-III-P and P1 laminin in asymptomatic alcoholics with and without liver damage and decompensated alcoholic cirrhotics, compared to normal controls. METHODS: Serum P-III-P and laminin levels were measured in asymptomatic alcoholics during detoxification treatment. Liver biopsies were obtained, in order to detect liver damage, which was graded with a numeric score, considering values over 6 as severe damage. Serum fibrogenesis markers were also measured in a group of decompensated alcoholic cirrhotics. RESULTS: P-III-P levels were significantly higher in cirrhotic patients compared to alcoholics with or without liver damage and to normal controls. Laminin was not different between groups. P-III-P did not correlate with histologic score in asymptomatic patients. CONCLUSIONS: In this study P-III-P and P1 laminin were not usefull discriminators of severe liver damage among asymptomatic alcoholics; their levels were found to rise significantly only when liver disease has become clinically evident.

Immunological detection of type II collagen degradation: use in the evaluation of anti-arthritic therapies.

Propagated Swaram rat chondrosarcoma cells, rabbit chrondrocytes (from articular cartilage of knee, shoulder and hip joints), and bovine nasal cartilage explant cultures were studied. Type II collagen (CII) and its peptide fragments were quantitated in cell medium and cell layer separately, using two previously developed assays; one assay employed a monoclonal antibody, C4F6, that reacts specifically with triple helical CII and the other assay used an antibody, EIE5, that reacts specifically with a peptide of CII. A time-dependent increase in the content of CII and CII-derived peptides was observed in both rat and rabbit cultures. In both culture systems the majority of the native type II collagen is found associated with the cell layer (97% in rat cultures and 73% in rabbit cultures), while the major part of the CII peptides is found in the media (73% in rat cultures, 88% in the rabbit cultures). The concentration of peptides in the media reaches approximately 2 micrograms mL-1 in both chondrocyte monolayer cultures after 4 days. The CII peptide assay employing E1E5 was well suited to quantitate articular cartilage collagen degradation in explant culture. thus it can be used to evaluate potential therapeutic agents that can modify or inhibit cartilage degradation. The assay has the added potential that it could be used in-vivo to evaluate the effectiveness of potential metalloproteinase inhibitors in animal models of osteoarthritis or in clinical trials.

Covalent interactions of reactive naphthalene metabolites with proteins.

Naphthalene produces selective necrosis of Clara cells in the mouse but not in the rat. The pulmonary toxicity depends on cytochrome P450-mediated metabolism; however, the selective pulmonary toxicity of naphthalene in the mouse does not correspond to tissue-selective covalent binding of reactive naphthalene metabolites in vivo. These studies compare reactive metabolite binding in target and nontarget cells and in various subcompartments of mouse lung and characterize, by sodium dodecyl sulfate polyacrylamide gel electrophoresis, the proteins to which arylating metabolites are bound. Reactive metabolite binding was substantially higher in incubations of [3H]-naphthalene with distal bronchioles and isolated Clara cells than with explants of trachea or bronchus from the mouse. Likewise, binding was substantially higher in incubations of murine Clara cells than in identical incubations with mouse hepatocytes (nontarget cells) or rat trachea cells (nonsusceptible species). These data show a good correlation between cellular susceptibility to toxicity and the amount of reactive metabolite bound in vitro. Concentrations of adduct were highest in the medium and the nuclear/cell debris fraction (1000 x g pellet) of isolated Clara cells incubated with naphthalene; very small amounts of adduct were noted in pellets isolated at 20,000 or at 100,000 x g (mitochondrial and microsomal fractions) or in cytosol. These observations were consistent with the finding that adduct concentrations in bronchoalveolar lavage were substantially higher than in the lung at low doses of naphthalene and suggest that monitoring adducts in lavage may serve as a useful biomarker of exposure and effect.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of certain antiarthritic agents on the synthesis of type II collagen and glycosaminoglycans in rat chondrosarcoma cultures.

Cartilage destruction is a characteristic feature of osteoarthritis. Treatment with certain nonsteroidal anti-inflammatory drugs could exacerbate cartilage destruction by impairing the synthesis of cartilage matrix proteins, type II collagen and proteoglycan. In order to monitor the changes occurring in cartilage collagen synthesis, we developed a type II collagen specific ELISA. The effects of antiarthritic agents on type II collagen and glycosaminoglycan synthesis were examined in rat chondrosarcoma cultures. Drugs were added to the monolayer cultures and 4 days later the total type II collagen, as determined by the type II collagen ELISA, and glycosaminoglycan content, as measured by dimethyl-methylene blue dye binding assay, was measured. All drugs except tiaprofenic acid decreased type II collagen synthesis by at least 40% at 100 micrograms/ml. Tiaprofenic acid at 1 microgram/ml increased type II collagen content by 54% of the controls. Glycosaminoglycan synthesis was decreased by acetylsalicylic acid, diclofenac and tiaprofenac acid, at 50 micrograms/ml or above. Indomethacin, naproxen and dexamethasone had no effect. Interestingly, tenidap stimulated the glycosaminoglycan synthesis by 32% at 100 micrograms/ml. We show that the combination of chondrosarcoma cultures, type II collagen specific ELISA and dimethylmethylene blue dye binding assay serves as a useful model for screening the effects of agents capable of modulating type II collagen and glycosaminoglycan synthesis.