FrzB-2: a human secreted frizzled-related protein with a potential role in chondrocyte apoptosis

OBJECTIVE: To characterize a novel secreted frizzled-related protein (SFRP) and determine its tissue distribution at the mRNA and protein level. METHODS: The FrzB-2 gene was identified by expressed sequence tag (EST) analysis of human tissue-derived libraries. Tissue distribution of FrzB-2 mRNA was determined by Northern blot analysis and in situ hybridization. FrzB-2 protein reactivity was localized in human OA articular cartilage by immunocytochemistry, using a polyclonal antibody against a peptide sequence unique to FrzB-2. Apoptosis was detected in articular cartilage sections using Tunel staining. RESULTS: ESTs corresponding to FrzB-2 were found in osteoblast, chondrosarcoma, osteosarcoma, osteoclastoma and synovial fibroblast libraries. FrzB-2 mRNA is expressed in a number of tissues and cell types including bone-related cells and tissues such as primary human osteoblasts and osteoclastoma. In situ hybridization studies showed strong FrzB-2 mRNA expression in human chondrocytes in human osteoarthritic (OA) cartilage but negligible levels in normal cartilage chondrocytes. The FrzB-2 cDNA encodes a secreted 40 kDa protein consisting of 346 amino acids. FrzB-2 is 92. 5% identical to the rat orthologue, DDC-4, which has been shown to be associated with physiological apoptosis. FrzB-2 protein was selectively detected in human OA articular cartilage by immunocytochemistry, using a polyclonal antibody. Consistent with its potential role in apoptosis, positive FrzB-2 staining and Tunel positive nuclei staining were detected in chondrocyte clones in sections of human OA cartilage. CONCLUSION: These data suggest that FrzB-2 may play a role in apoptosis and that the expression of this protein may be important in the pathogenesis of human OA.     

Prevalence and consequences of musculoskeletal symptoms in symphony orchestra musicians vary by gender: a cross-sectional study

Background

Tenascin-C (TN-C) is an extracellular matrix glycoprotein that is involved in tissue injury and repair processes. We analyzed TN-C expression in normal and osteoarthritic (OA) human cartilage, and evaluated its capacity to induce inflammatory and catabolic mediators in chondrocytes in vitro. The effect of TN-C on proteoglycan loss from articular cartilage in culture was also assessed.

Methods

TN-C in culture media, cartilage extracts, and synovial fluid of human and animal joints was quantified using a sandwich ELISA and/or analyzed by Western immunoblotting. mRNA expression of TN-C and aggrecanases were analyzed by Taqman assays. Human and bovine primary chondrocytes and/or explant culture systems were utilized to study TN-C induced inflammatory or catabolic mediators and proteoglycan loss. Total proteoglycan and aggrecanase -generated ARG-aggrecan fragments were quantified in human and rat synovial fluids by ELISA.

Results

TN-C protein and mRNA expression were significantly upregulated in OA cartilage with a concomitant elevation of TN-C levels in the synovial fluid of OA patients. IL-1 enhanced TN-C expression in articular cartilage. Addition of TN-C induced IL-6, PGE₂, and nitrate release and upregulated ADAMTS4 mRNA in cultured primary human and bovine chondrocytes. TN-C treatment resulted in an increased loss of proteoglycan from cartilage explants in culture. A correlation was observed between TN-C and aggrecanase generated ARG-aggrecan fragment levels in the synovial fluid of human OA joints and in the lavage of rat joints that underwent surgical induction of OA.

Conclusions

TN-C expression in the knee cartilage and TN-C levels measured in the synovial fluid are significantly enhanced in OA patients. Our findings suggest that the elevated levels of TN-C could induce inflammatory mediators and promote matrix degradation in OA joints.     

Clusterin expression in adult human normal and osteoarthritic articular cartilage

OBJECTIVE: To characterize the expression pattern of clusterin in adult human normal and osteoarthritic cartilage. METHODS: Clusterin mRNA expression in adult human normal and osteoarthritic cartilage was investigated by analysis of cDNA libraries, TaqMan quantitative RT-PCR, microarray and in situ hybridization. RESULTS: Sequence analysis of ESTs from adult human normal and osteoarthritic cartilage cDNA libraries demonstrated that the abundance of clusterin in these libraries was equivalent to genes which have been more commonly associated with cartilage. To examine tissue distribution, TaqMan Quantitative PCR analysis was performed using RNA from a panel of individual normal tissues. Clusterin was expressed at significant levels in cartilage, brain, liver, and pancreas. The expression of clusterin mRNA was up-regulated in early osteoarthritic vs normal cartilage when analysed by microarray analysis. Using in situ hybridization, chondrocytes of normal cartilage expressed moderate levels of clusterin. Upper mid-zone chondrocytes in cartilage with early stages of osteoarthritic disease expressed high levels of clusterin mRNA. In advanced osteoarthritic cartilage, the overall expression of clusterin was reduced. CONCLUSION: The induction of clusterin has been associated with a variety of disease states where it appears to provide a cytoprotective effect. The increased expression of clusterin mRNA in the early stages of osteoarthritis (OA) may reflect an attempt by the chondrocytes to protect and repair the tissue. In contrast, the decrease in clusterin mRNA in the advanced osteoarthritic cartilage accompanies the final degenerative stages of the disease. An understanding of the expression of clusterin in osteoarthritis may allow consideration of this protein as a marker for cartilage changes in this chronic degenerative condition.     

Semiquantitative reverse transcription-polymerase chain reaction analysis of syndecan-1 and -4 messages in cartilage and cultured chondrocytes from osteoarthritic joints

OBJECTIVE: To determine the steady-state of messenger RNA (mRNA) levels of syndecan-1 and syndecan-4 in cartilage samples and chondrocytes derived from human osteoarthritic knee joints. METHODS: Steady-state levels of gene-specific mRNA (relative to beta-actin) were measured by semiquantitative polymerase chain reaction (PCR). RESULTS: RT-PCR allowed detection of syndecan-1 (for the first time) and syndecan-4 in both cartilage samples and articular chondrocytes cultured as primary monolayers. The mRNA levels of syndecan-1 were reduced in cartilage tissue from heavily damaged compared to normal-looking areas whereas those of syndecan-4 were significantly increased. In contrast, the expression of syndecan-1 was higher in cultured chondrocytes derived from the fibrillated osteoarthritic cartilage than in cells obtained from intact cartilage, while the syndecan-4 message levels did not differ between the two sites. CONCLUSION: The expression of the cell-surface syndecans 1 and 4 is altered during the osteoarthritic degradative process of the knee joint. The discoordinate syndecan gene expression, which is probably related to the chondrocyte proliferation and clustering, may contribute to the disorganization of the cartilage and the development of OA processes. Isolation and culturing the chondrocytes as monolayers dramatically change the expression of these genes and cannot reflect the in situ condition.     

过氧化物酶Ⅰ在骨关节炎软骨组织中的表达与分布及意义

目的观察过氧化物酶Ⅰ（PrxⅠ）在正常和骨关节炎（OA）膝关节软骨组织中的表达和分布特点,探讨PrxⅠ与活性氧歧化物和凋亡等在OA软骨表层聚集现象之间的关联。方法分别从正常膝关节提取正常软骨（NC,n=21）和接受膝关节表面置换术的OA患者提取OA软骨（OA,n=21）,应用Westernblot技术检测PrxⅠ在正常软骨细胞和OA软骨细胞中表达水平的总体差异,并用免疫组织化学技术观察PrxⅠ蛋白在正常与OA软骨表/中/深各层组织表达和分布的特点。结果 Western blot证实PrxⅠ在OA软骨组织中的表达水平较正常软骨组织显著提高2.89倍（t=18.34,P〈0.01）。免疫组织化学显示PrxⅠ在正常软骨组织的表层、中层和深层呈现较均一的表达,但是,在OA软骨组织中,PrxⅠ的表达水平存在显著层间差异。PrxⅠ在软骨组织深层表达水平显著升高,但在浅层细胞中,PrxI的表达水平反而显著减低甚至缺如。结论虽然总体表达水平升高,但PrxⅠ在OA软骨组织表层的表达缺如,可能与OA软骨组织表层活性氧歧化物蓄积和细胞凋亡聚集现象相关。     

Cell proliferation in human arthrotic joint cartilage

OBJECTIVE: Osteoarthritic (OA) cartilage is histologically characterized by the appearance of cell clusters, which are probably generated by mitotic cell division. The aim of this study was to analyze the distribution and amount of proliferating chondrocytes in healthy and osteoarthritic cartilage systematically. MATERIALS AND METHODS: 6 normal and 43 osteoarthritic cartilage/bone samples were obtained during autopsies or total knee replacements. The cartilage specimens were stained with safranin-o and scored according to the Mankin-System. Proliferating chondrocytes were identified by immunohistochemical detection of the antigen PCNA. The number of proliferating chondrocytes was determined by counting 100 chondrocytes in each cartilage layer. RESULTS: In normal and osteoarthritic human cartilage, proliferating chondrocytes were detected. The amount of proliferating chondrocytes increased during the progression of OA cartilage changes. Expression of PCNA was determined in single chondrocytes and clustered chondrocytes. Chondrocyte cell division was activated specifically in cartilage with severe OA changes. CONCLUSIONS: Osteoarthritic chondrocytes, which are known to increase the synthesis of different matrix proteins, show the phenomenon of mitotic cells division. Whether the increased amount of proliferating chondrocytes fails to compensate the rate of apoptotic chondrocytes, or whether the generation of cell clusters represents only a fruitless repair effort is a subject of recent research. However, the induction of chondrocyte proliferation is a potential target in the treatment of OA.     

骨关节炎软骨细胞凋亡调控基因的研究

目的　比较分析正常人及老年性骨关节炎患者软骨细胞bax和bcl 2的表达及细胞凋亡状况。　方法　取 9例骨关节炎患者的关节软骨做实验标本 ,以 6例无骨关节炎病史的意外死亡者关节软骨作为正常对照 ;采用逆转录 /聚合酶链反应 (RT PCR)方法检测bax和bcl 2mRNA表达 ,免疫组化检测bax和bcl 2蛋白 ;应用TUNEL方法进行凋亡细胞原位检测。　结果　骨关节炎患者和正常对照软骨细胞都能表达bax和bcl 2mRNA ;骨关节炎关节软骨细胞baxmRNA表达量较正常对照显著增高 (P <0 0 1) ,bcl 2mRNA表达量也高于正常对照组 (P <0 0 5 ) ,两组间bax/bcl 2表达量的比值差异无显著性意义 (P >0 0 5 ) ;免疫组化可检测到相应表达水平的蛋白 ;骨关节炎软骨细胞凋亡 (4%～ 14% )多于正常对照 (0～ 2 % )。　结论　软骨细胞凋亡受bax和bcl 2共同调节 ;bax和bcl 2的共同调节结果可能是OA患者软骨细胞凋亡增加 ,但凋亡率不高、病理过程进展缓慢的一个重要的原因     

Human cartilage glycoprotein 39 (HC gp-39) mRNA expression in adult and fetal chondrocytes, osteoblasts and osteocytes by in-situ hybridization

OBJECTIVE: To examine the expression pattern of human cartilage glycoprotein 39 (HC gp-39) mRNA in human cartilage and bone. DESIGN: In-situ hybridization analysis was used to examine the expression pattern of human cartilage glycoprotein 39 (HC gp-39) mRNA in adult human osteoarthritic articular cartilage from various stages of disease, as well as in human osteophytic tissue and in human fetal bone. RESULTS: In cartilage from patients with mild osteoarthritic cartilage degeneration, HC gp-39 was expressed at moderate to high levels only in chondrocytes of the superficial zone. In advanced OA cartilage, cloning chondrocytes of the superficial zone expressed high levels of HC gp-39 and chondrocytes of the mid- and deep zones were also positive. HC gp-39 was undetectable in the chondrocytes of normal articular cartilage. In osteophytic tissue, the expression of HC gp-39 mRNA was intense in flattened, end-stage osteoblasts and in primary osteocytes in both endochondral and intramembranous bone formation. Proliferating osteoblasts expressed low to moderate levels. Notably, mature osteocytes were negative for HC gp-39 expression. Chondrocytes in the secondary ossification center of developing fetal cartilage demonstrated high expression while growth plate and mineralized cartilage chondrocytes had lower expression. Osteoblasts at sites of endochondral and intramembranous bone formation were positive for expression of HC gp-39. CONCLUSIONS: The stage-specific expression of HC gp-39 in fetal development and adult remodelling bone and cartilage provides evidence for a specific functional or structural role for HC gp-39 in bone and cartilage tissue. HC gp-39 is expressed in diseased human osteoarthritic cartilage and osteophyte, but not in non-diseased tissue, and its distribution within the tissue changes as disease progresses. OA is characterized not only by cartilage degeneration, but by increased subchondral bone formation and osteophytosis. The results from this study indicate that the increased HC gp-39 expression in OA serum and synovial fluid may reflect not only cartilage degeneration but increased osteogenesis.     

Chondrocyte Differentiation in Human Osteoarthritis: Expression of Osteocalcin in Normal and Osteoarthritic Cartilage and Bone

Osteocalcin (OC), which is a marker of the mature osteoblasts, can also be found in posthypertrophic chondrocytes of the epiphyseal growth plate, but not in chondrocytes of the resting zone or in adult cartilage. In human osteoarthritis (OA), chondrocytes can differentiate to a hypertrophic phenotype characterized by type X collagen. The protein- and mRNA-expression pattern of OC was systematically analyzed in decalcified cartilage and bone sections and nondecalcified cartilage sections of human osteoarthritic knee joints with different stages of OA to investigate the differentiation of chondrocytes in OA. In severe OA, we found an enhanced expression of the OC mRNA in the subchondral bone plate, demonstrating an increased osteoblast activity. Interestingly, the OC protein and OC mRNA were also detected in osteoarthritic chondrocytes, whereas in chondrocytes of normal adult cartilage, both the protein staining and the specific mRNA signal were negative. The OC mRNA signal increased with the severity of OA and chondrocytes from the deep cartilage layer, and proliferating chondrocytes from clusters showed the strongest signal for OC mRNA. In this late stage of OA, chondrocytes also stained for alkaline phosphatase and type X collagen. Our results clearly show that the expression of OC in chondrocytes correlates with chondrocyte hypertrophy in OA. Although the factors including this phenotypic shift in OA are still unknown, it can be assumed that the altered microenvironment around osteoarthritic chondrocytes and systemic mediators could be potential inducers of this differentiation. Received: 20 May 1999 / Accepted: 10 February 2000     

Anti-interleukin-1 effects of diacerein and rhein in human osteoarthritic synovial tissue and cartilage cultures.

OBJECTIVE: The etiology of osteoarthritis (OA) is still a matter of debate. Several factors are known to be involved in the destruction of the articular cartilage. Interleukin-1 (IL-1) plays an important role in the pathogenesis of osteoarthritis (OA) either directly or through the stimulation of catabolic factors, such as nitric oxide (NO). The objective of this study was to evaluate the effect of diacerein, a new anti-OA agent and its active metabolite, rhein, on the production and function of IL-1beta, nitric oxide (NO) and receptor agonist (IL-1ra) in human OA cartilage and synovial tissue cultures. DESIGN: Synovial tissue and cartilage derived from OA patients were kept in culture for 48-72 hours in the presence of 1 microg/ml of lipopolysaccharide (LPS) with or without diacerein (10(-7)-10(-5) M), rhein (10(-7)-10(-5) M) and hydrocortisone (5 microg/ml). IL-1beta, IL-1ra, NO productions and 35S uptake were measured in culture media. In some experiments the resulting supernatants from synovial tissue cultures were added to cartilage. RESULTS: Diacerein and rhein, as well as hydrocortisone, significantly inhibited LPS-induced IL-1beta production by synovial tissue and cartilage. They also significantly reversed the inhibitory effect of LPS on cartilage 35S uptake. Culture media from synovial tissue containing LPS+diacerein (10(-6) M) or +rhein (10(-6) M) had a significantly less inhibitory effect on cartilage synthesis than culture media containing LPS only. Diacerein and rhein decreased NO release in synovial tissue and cartilage media and increased IL-1ra levels in cartilage culture media. CONCLUSION: An inhibitory effect of diacerein and rhein at therapeutic concentrations on both IL-1beta secretion and function in human synovial tissue and cartilage is suggested. Diacerein and rhein effects on NO production by LPS-stimulated OA synovial tissue and cartilage may both contribute and elucidate their anti-OA properties.     

Tumor necrosis factor alpha can contribute to focal loss of cartilage in osteoarthritis

OBJECTIVE; To evaluate the potential for tumor necrosis factor alpha (TNFalpha)-induced focal loss of cartilage in osteoarthritic (OA) knee joints. DESIGN: Fresh cartilage from specified regions of OA joints was immunostained for TNF-receptor (R) bearing chondrocytes. Cartilage explants from the same regions were cultured with or without small amounts of TNFalpha and cumulative GAG release into supernatants measured. Concentrations of TNFalpha, p55 and p75 soluble (s) TNF-R in supernatants from cultured OA and non-arthritic (NA) synovium were measured by ELISA. RESULTS: TNF-R bearing chondrocytes were identified in OA cartilage; more specimens contained p55 TNF-R- than p75 TNF-R-bearing chondrocytes and differences in TNF-R distribution were apparent in cartilage from different regions of the same knees. TNFalpha at 5, 1, 0.5 and 0.25 ng/ml (but not 0.1 ng/ml) significantly increased glycosaminoglycans (GAG) release from cartilage explants in a dose-dependent manner. Variation in susceptibility to TNFalpha was observed in explants from different sites. TNFalpha and p75 sTNF-R, but not p55 sTNF-R, concentrations were significantly higher in OA, as compared with NA, supernatants. A significant correlation between TNFalpha and p75 sTNF-R measurements was apparent only in NA supernatants. CONCLUSIONS: Variations in chondrocyte TNF-R expression occur in OA cartilage in vivo. TNFalpha at concentrations produced by OA synovium in vitro, can degrade cartilage matrix. In most OA supernatants sTNF-R concentrations were insufficient to abrogate the effects of TNFalpha. Thus conditions exist in some OA knees for TNFalpha to contribute to focal loss of cartilage.     

Subchondral bone osteoblasts induce phenotypic changes in human osteoarthritic chondrocytes

OBJECTIVE: To determine the influence of osteoarthritic (OA) phenotype of subchondral osteoblasts on the phenotype of human chondrocytes. METHODS: Human chondrocytes were isolated from OA cartilage and cultured in alginate beads for 4 or 10 days in the absence or in the presence of osteoblasts in monolayer. The osteoblasts were either isolated from non-sclerotic (N) or sclerotic (SC) zones of human subchondral bone. Before co-culture, osteoblasts were incubated for 72 h with or without 1.7 ng/ml interleukin (IL)-1beta, 100 ng/ml IL-6 with its soluble receptor (50 ng/ml) or 10 ng/ml oncostatin M. SOX9, type I, II and X collagen (COL1, COL2, COL10), osteoblasts-stimulating factor (OSF)-1, bone alkaline phosphatase (ALP), parathyroid hormone related peptide (PTHrP) and its receptor (PTH-R) messenger RNA (mRNA) levels in chondrocytes were quantified by real-time polymerase chain reaction. RESULTS: In comparison with chondrocytes cultured alone in alginate beads, chondrocytes after 4 days in co-culture with N or SC osteoblasts expressed significantly less SOX9 and COL2 mRNA. The decrease of SOX9 and COL2 gene expression was significantly more pronounced in the presence of SC than in the presence of N osteoblasts (P<0.001). OSF-1 mRNA level in chondrocyte was increased by both N and SC osteoblasts, but to a larger extent by SC osteoblasts (P<0.001). PTHrP expression in chondrocytes was 21-fold increased by N osteoblasts but four-fold inhibited by SC osteoblasts. PTHrP secretion was also increased by N but reduced by SC osteoblasts. SC, but not N osteoblasts, induced a significant decrease of PTH-R gene expression in chondrocyte. In our experimental conditions, chondrocytes did not express COL1, COL10 or ALP, even after 10 days of co-culture with osteoblasts. CONCLUSIONS: In co-culture, SC subchondral osteoblasts decrease SOX9, COL2, PTHrP and PTH-R gene expression by chondrocytes but increase that of OSF-1. These findings suggest that SC osteoblasts could initiate chondrocyte phenotype shift towards hypertrophic differentiation and subsequently further matrix mineralization.     

Expression and localization of connective tissue growth factor (CTGF/Hcs24/CCN2) in osteoarthritic cartilage

OBJECTIVE: The investigation of the expression and localization of connective tissue growth factor/hypertrophic chondrocyte-specific gene product 24/CCN family member 2 (CTGF/Hcs24/CCN2) in normal and osteoarthritic (OA) cartilage, and quantification of CTGF/Hcs24-positive cells. METHODS: Cartilage samples of patients (n=20) with late stage OA were obtained at total joint replacement surgery. Morphologically normal cartilage was harvested for comparison purposes from the femoral heads of 6 other patients with femoral neck fracture. Paraffin-embedded sections were stained by Safranin O. The severity of the OA lesions was divided into four stages (normal, early, moderate, and severe). The localization of protein and mRNA for CTGF/Hcs24 was investigated by immunohistochemistry and in situ hybridization, respectively. The population of CTGF/Hcs24-positive chondrocytes in OA cartilage and chondro-osteophyte was quantified by counting the number of the cells under light microscopy. RESULTS: Signals for CTGF/Hcs24 were detected in a small percentage of chondrocytes throughout the layers of normal cartilage. In early stage OA cartilage, the CTGF/Hcs24-positive chondrocytes were localized mainly in the superficial layer. In moderate to severe OA cartilage, intense staining for CTGF/Hcs24 was observed in proliferating chondrocytes forming cell clusters next to the cartilage surface. In chondro-osteophyte, strong signals were found in the chondrocytes of the proliferative and hypertrophic zones. CONCLUSION: CTGF/Hcs24 expression was detected in both normal and OA chondrocytes of human samples. The results of the current study suggested that expression of CTGF/Hcs24 was concomitant with development of OA lesions and chondrocyte differentiation in chondro-osteophyte.     

Activation of stress-activated protein kinase in osteoarthritic cartilage: evidence for nitric oxide dependence

OBJECTIVE: We have demonstrated in bovine chondrocytes that nitric oxide (NO) mediates IL1 dependent apoptosis under conditions of oxidant stress. This process is accompanied by activation of c-Jun NH2-terminal kinase (JNK; also called stress-activated protein kinase). In these studies we examined activation of JNK in explant cultures of human osteoarthritic cartilage obtained at joint replacement surgery and we characterized the role of peroxynitrite to act as an upstream trigger. DESIGN: A novel technique to isolate chondrocyte proteins (<10% of total cartilage protein) from cartilage specimens was developed. It was used to analyse JNK activation by a western blot technique. To examine the hypothesis that chondrocyte JNK activation is a result of increased peroxynitrite, in vitro experiments were performed in which cultured chondrocytes were incubated with this oxidant. RESULTS: Activated JNK was detected in the cytoplasm of osteoarthritis (OA) affected chondrocytes but not in that of controls. In vitro, chondrocytes produce NO and superoxide anion. IL-1 (48 h), which induces nitric oxide synthase, resulted in an activation of JNK; this effect was reversed by N-monomethylarginine (NMA). TNFalpha treated chondrocytes at 48 h produce superoxide anion (EPR method). Exposure of cells to peroxynitrite led to an accumulation of intracellular oxidants, in association with JNK activation and cell death by apoptosis. CONCLUSION: We suggest that JNK activation is among the IL-1 elicited responses that injure articular chondrocytes and this activation of JNK is dependent on intracellular oxidant formation (including NO peroxynitrite). In addition, the extraction technique here described is a novel method that permits the quantitation and study of proteins such as JNK involved in the signaling pathways of chondrocytes within osteoarthritic cartilage.     

髋关节骨关节炎与股骨颈骨折患者滑液对去分化软骨细胞VEGF表达的影响

目的 研究髋关节骨关节炎(osteoarthritis,OA)及股骨颈骨折(femoral neck fracture,FNF)患者软骨细胞血管内皮生长因子(vascular endothelial growth factor,VEGF)表达,同时对比分析OA滑膜液及创伤后滑膜液对去分化软骨细胞分泌VEGF的影响,从而探索炎性因子致去分化软骨细胞异常的VEGF表达变化.方法 取12例髋关节OA与8例FNF患者的软骨进行HE和番红O-固绿染色后行Mankin评分.将OA组及FNF组软骨组织分别粉碎后富集软骨细胞进行单层培养,取细胞换液时遗弃的上清液作为检测标本,以cathepsin B作为检测OA组软骨细胞去分化程度的指标,并且动态检测VEGF水平,并各培养基于传代培养时分别加入OA滑膜液、DMEM及创伤后滑膜液以观察其对软骨细胞VEGF分泌的影响.数据统计分析使用SPSS 11.0统计软件.结果 OA组软骨Mankin评分明显较骨折组升高,随着培养时间延长软骨细胞逐渐丧失其原有细胞形态并伴显著的cathepsin B上调和VEGF下凋;OA滑膜液可促使软骨细胞特别是OA组软骨细胞上调分泌VEGF,但刺激所产生的VEGF较原代培养初期明显减少,而FNF滑膜液对VEGF上调影响不大.结论 OA软骨损害Mankin评分与原代培养初期VEGF成正相关;软骨细胞体外原代培养后迅速表现为去分化特性;OA较FNF滑膜液可以促使软骨细胞特别是OA组细胞表达更多的VEGF,提示OA滑膜液参与病程进展,并且OA组软骨细胞病理表型更倾向于表达较多VEGF;而FNF滑膜液则相对有利于维持软骨细胞的原有表型.     

髋关节骨关节炎与股骨颈骨折患者滑液对去分化软骨细胞VEGF表达的影响

目的 研究髋关节骨关节炎(osteoarthritis,OA)及股骨颈骨折(femoral neck fracture,FNF)患者软骨细胞血管内皮生长因子(vascular endothelial growth factor,VEGF)表达,同时对比分析OA滑膜液及创伤后滑膜液对去分化软骨细胞分泌VEGF的影响,从而探索炎性因子致去分化软骨细胞异常的VEGF表达变化.方法 取12例髋关节OA与8例FNF患者的软骨进行HE和番红O-固绿染色后行Mankin评分.将OA组及FNF组软骨组织分别粉碎后富集软骨细胞进行单层培养,取细胞换液时遗弃的上清液作为检测标本,以cathepsin B作为检测OA组软骨细胞去分化程度的指标,并且动态检测VEGF水平,并各培养基于传代培养时分别加入OA滑膜液、DMEM及创伤后滑膜液以观察其对软骨细胞VEGF分泌的影响.数据统计分析使用SPSS 11.0统计软件.结果 OA组软骨Mankin评分明显较骨折组升高,随着培养时间延长软骨细胞逐渐丧失其原有细胞形态并伴显著的cathepsin B上调和VEGF下凋;OA滑膜液可促使软骨细胞特别是OA组软骨细胞上调分泌VEGF,但刺激所产生的VEGF较原代培养初期明显减少,而FNF滑膜液对VEGF上调影响不大.结论 OA软骨损害Mankin评分与原代培养初期VEGF成正相关;软骨细胞体外原代培养后迅速表现为去分化特性;OA较FNF滑膜液可以促使软骨细胞特别是OA组细胞表达更多的VEGF,提示OA滑膜液参与病程进展,并且OA组软骨细胞病理表型更倾向于表达较多VEGF;而FNF滑膜液则相对有利于维持软骨细胞的原有表型.