Thyroxine stimulates transglutaminase activity in articular chondrocytes

OBJECTIVES: Thyroid hormones induce features of the hypertrophic phenotype in mature articular chondrocytes as well as in growth plate chondrocytes. Hypertrophic chondrocytes are responsible for extracellular matrix mineralization, with formation of bone mineral in growth plate cartilage and pathologic calcium crystals in aging articular cartilage. Elevated activity levels of the two transglutaminase (Tgase) enzymes (type II Tgase and Factor XIIIA (FXIIIA)) have recently been described as additional features of hypertrophic growth plate chondrocytes. Because Tgases may participate in pathologic mineralization in aging cartilage, we explored the effects of thyroid hormones on Tgase activity in articular chondrocytes. METHODS: Adult porcine articular chondrocytes were incubated with or without 250-750nM L-thyroxine (T4) or 10-100 nM 3,3',5-tri-iodothyronine (T3). Tgase activity was measured with a standard radiometric assay. The effects of thyroid hormones on protein and mRNA levels of type II Tgase and FXIIIA were determined. As Tgase activity can be stimulated by proteases, endoproteinase levels were also measured. The mechanisms of these effects were explored. RESULTS: T4 (750 nM) or T3 (100 nM) stimulated Tgase activity by twofold in articular chondrocytes at 4h and increased the percentage of Tgase activity in the extracellular matrix. Chondrocytes rapidly converted T4 to T3, but the time course suggests similar mechanisms for T4 and T3. T4-induced Tgase activity was suppressed with cycloheximide and protein kinase C inhibitors. The effects of T4 on type II Tgase and FXIIIA levels were modest, but T4 strongly induced endoproteinase activity in chondrocytes. CONCLUSIONS: We report in this study that thyroid hormones increase Tgase activity in articular chondrocytes via a non-genomic mechanism, which may involve increased endoproteinase secretion.     

Growth differentiation factor-5 stimulates the growth and anabolic metabolism of articular chondrocytes

Objective： To observe the effect of growth differentiation factor-5 （GDF-5） on the growth and anabolic metabolism of articular chondrocytes. Methods： The articular chondrocytes isolated from rats were treated with various concentrations of rmGDF-5, and the growth of chondrocytes measured by MTT assay, the cellular cartilage matrices formation detected sulfated glycosaminoglycan by Alcian blue staining and type Ⅱ collagen by RT-PCR, the collagen phenotypic expression of chondrocytes detected by immunofluorescence. Results： After 7 days culture, MTT assay showed that GDF-5 enhanced the growth of chondrocytes in a dose-dependent manner, RT-PCR showed that GDF-5 clearly induced the synthesis of type Ⅱcollagen because of the col2al mRNA band more and more strong in a dose-dependent. Chondrocytes were cultured with GDF-5 for 14 days, the intensity of Alcian blue staining was greatly enhanced, especially, at a high concentration of 1000ng/ml, and GDF-5 enhanced the accumulation of the Alcian blue-stainable material in a concentration-dependent manner and in a does-dependent manner. Chondrocytes were cultured with GDF-5 for 21 days, immunofluorescent staining of type Ⅱ collagen was clear, the type Ⅰ and Ⅹ collagen were negative. Conclusion： GDF-5 enhanced the growth of mature articular chondrocytes, and stimulated the cellular cartilage matrices formation, but did not change the collagen phenotypic expression of chondrocytes in mono-layer culture.     

AG-041R, a novel indoline-2-one derivative, stimulates chondrogenesis in a bipotent chondroprogenitor cell line CL-1

OBJECTIVE: To examine the chondrogenic activity of AG-041R and its mode of action in a bipotent chondroprogenitor cell line CL-1. DESIGN: Chondrogenic activity of AG-041R in CL-1 was examined by histology, alcian blue pH 1.0 intensity and mRNA expression of cartilage matrix proteins (collagen type II, aggrecan). Chondrogenic activities of other CCK2/gastrin receptor antagonists were also examined. Since TGF-beta1 induces dominant chondrogenesis and suppressed adipogenesis in CL-1, induction of TGF-beta by AG-041R was examined by enzyme linked immunosorbent assay. Involvement of MAP kinases in the chondrogenic effect of AG-041R in CL-1 was examined by Western blotting and MAP kinase inhibitors. RESULTS: AG-041R induced dominant chondrogenesis and marked suppression of adipogenesis in CL-1. Neither of the other CCK2/gastrin receptor antagonists tested showed chondrogenic activity in CL-1. AG-041R increased alcian blue pH 1.0 intensity and mRNA expression of collagen type II and aggrecan. TGF-beta1 and -beta2 proteins were increased by AG-041R. The chondrogenic activity of AG-041R in CL-1 was blocked by TGF-beta neutralizing antibody or inhibitors for activation of latent TGF-beta. AG-041R activated both Erk (p44/42) and p38 MAP kinases in CL-1. Inhibition of Erk (p44/42) by PD98059 canceled the adipogenesis suppression by AG-041R in CL-1. Inhibition of p38 by SB202190 completely canceled the chondrogenic activity of AG-041R in CL-1. CONCLUSION: AG-041R has chondrogenic activity in CL-1 not related to CCK2/gastrin receptor antagonism. It is suggested that TGF-beta induction and the activation of MAP kinases mediate the chondrogenic activity of AG-041R in CL-1.     

Induction of apoptosis of articular chondrocytes and suppression of articular cartilage proteoglycan synthesis by heat shock

We investigated cellular and matrix responses of articular cartilage to heat shock. Rat articular cartilage was pretreated at 37 degrees C for 24 h before being exposed to 48 degrees C for 10 min and subsequently incubated at 37 degrees C for 1, 2, 4, 7, 10, and 14 days. Following heat shock, a terminal deoxynucleotidyl transferase nick end labeling assay showed that articular chondrocyte apoptosis appeared at day 1, peaked at day 7, and declined by day 14. Analysis by transmission electron microscopy confirmed that the chondrocytes had characteristic morphological features of apoptosis; immunohistochemical staining revealed that caspase-3 activity in chondrocytes increased, 3-B-3-positive articular chondrocytes decreased in number, and the expression of 3-B-3 native epitope in articular chondrocytes was reduced. Safranin-O staining revealed that depletion of proteoglycans in the matrix was not found in any group. Morphological and biochemical evidence from this study suggested that heat shock at 48 degrees C induced articular chondrocyte apoptosis and suppressed proteoglycan synthesis of articular cartilage in vitro. This study thus provides evidence of the onset of osteoarthritis induced by heat shock and a basis for choosing a temperature at which malignant bone tumor cells can be killed with minimal damage to articular cartilage.     

The effects of hydrostatic pressure on matrix synthesis in articular cartilage

The direct effects of hydrostatic pressure on matrix synthesis in articular cartilage can be studied independently of the other factors that change during loading. We have found that the influence of hydrostatic pressure on incorporation rates of 35SO4 and [3H]proline into adult bovine articular cartilage slices in vitro depends on the pressure level and on the time at pressure. Pressures in the "physiological" range (5-15 MPa) applied for 20 s or for 5 min could stimulate tracer incorporation (30-130%) during the following 2 h, but higher pressures (20-50 MPa) had no effect on incorporation rates. The degree of stimulation in cartilage obtained from different animals was found to vary; in some animals none was seen. Stimulation also varied with position along the joint. Physiological pressures (5-10 MPa) applied continuously for the 2-h incubation period also stimulated incorporation rates, but pressures greater than 20 MPa always produced a decrease that was related to the applied pressure and that was reversible. These results suggests that the hydrostatic pressure that occurs during loading is a signal that can stimulate matrix synthesis rates in articular cartilage.     

Expression of a stable articular cartilage phenotype without evidence of hypertrophy by adult human articular chondrocytes in vitro

Chondrocytes that were isolated from adult human articular cartilage changed phenotype during monolayer tissue culture, as characterized by a fibroblastic morphology and cellular proliferation. Increased proliferation was accompanied by downregulation of the cartilage-specific extracellular matrix proteoglycan, aggrecan, by cessation of type-II collagen expression, and by upregulation of type-I collagen and versican. This phenomenon observed in monolayer was reversible after the transfer of cells to a suspension culture system. The transfer of chondrocytes to suspension culture in alginate beads resulted in the rapid upregulation of aggrecan and type-II collagen and the downregulation of expression of versican and type-I collagen. Type-X collagen and osteopontin, markers of chondrocyte hypertrophy and commitment to endochondral ossification, were not expressed by adult articular chondrocytes cultured in alginate, even after 5 months. In contrast, type-X collagen was expressed within 2 weeks in a population of cells derived from a fetal growth plate. The inability of adult articular chondrocytes to express markers of chondrocyte hypertrophy has underscored the fundamental distinction between the differentiation pathways that lead to articular cartilage or to bone. Adult articular chondrocytes expressed only hyaline articular cartilage markers without evidence of hypertrophy.     

Endogenously produced adenosine regulates articular cartilage matrix homeostasis: enzymatic depletion of adenosine stimulates matrix degradation

OBJECTIVE: Enhanced extracellular levels of adenosine have been shown to inhibit experimentally induced cartilage degradation. The objective of this study was to investigate the role of adenosine and A(2)adenosine receptors in regulating cartilage homeostasis in the absence of inflammatory stimuli. METHODS: Cartilage explants were exposed to adenosine deaminase (ADA) to deplete extracellular adenosine, and conditioned medium was collected for evaluation of glycosaminoglycan (GAG), prostaglandin E(2)(PGE(2)), nitric oxide (NO), and matrix metalloproteinases-3 and -13 (MMP-3, MMP-13) levels. In a second set of experiments, cartilage incubated with ADA was simultaneously exposed to the adenosine kinase inhibitor 5'-iodotubercidin (ITU) to inhibit adenosine breakdown, or to the A(2A)adenosine receptor agonist N(6)-[2-(3,5-dimethoxyphenyl)-ethyl]adenosine (DPMA). Finally, explants were incubated with the adenosine receptor antagonists ZM241385, CGS15943, theophylline or caffeine to block normal receptor activation by endogenous adenosine. RESULTS: Exposure to ADA induced a concentration-dependent increase in GAG release and production of total MMP-3, MMP-13, PGE(2), and NO. Both ITU and DPMA inhibited the ADA-mediated increases in GAG release and PGE(2), and NO production, but only ITU inhibited MMP-13 release. Exposure to ZM 241385 increased GAG, MMP-3 and MMP-13 release. Additionally, CGS 15943 increased MMP-3 production while theophylline increased GAG, PGE(2), and NO release. CONCLUSIONS: Endogenous adenosine levels appear to regulate cartilage matrix homeostasis even in the absence of inflammation. Regulation occurs, at least in part, through activation of cell surface receptors. This study suggests that autocrine and paracrine responses to adenosine release are important for maintenance of healthy articular cartilage.     

Cryopreserved articular chondrocytes grow in culture, maintain cartilage phenotype, and synthesize matrix components

For osteochondral allograft transplantation to be successful, chondrocytes must survive preservation and retain their capacity to produce normal matrix components: proteoglycans and Type II collagen. Clinical success with osteochondral allograft transplantation has created an increased demand for supplies of suitable cartilage-bearing grafts. This demand has stimulated attempts to find successful methods for low temperature storage of cartilage for "banking" and heightened interest in cartilage cryobiology. In order to achieve the maximum viability of cryopreserved articular cartilage, previous comprehensive studies have focused on rates and temperatures of freezing, cryoprotective agents, and methods and influences of thawing. This study presents evidence that cryopreserved articular chondrocytes maintain their ability to grow in tissue culture following thawing and to produce normal matrix components. Chondrocytes isolated from Japanese white rabbits were divided into groups of fresh controls and experimental cryopreserved cells. Cells were incubated in dimethylsulfoxide, frozen at a rate of -1 degrees C/min, stored at -79 degrees C, rapidly thawed, and plated for culture. Growth rates were comparable in all groups. In all groups, typical chondroid characteristics were maintained throughout 14 days of culture. Typical cartilage phenotypic characteristics included maintenance of polygonal and rhomboidal cells, cell aggregation, proteoglycan production, and Type II collagen synthesis. This investigation strongly indicates that articular chondrocyte cryopreservation yields viable, functional cells and although these results cannot be directly extrapolated to intact adult articular cartilage, they do give further support for low temperature banking of cartilage-bearing allografts for transplantation.     

Homeostasis of the extracellular matrix of normal and osteoarthritic human articular cartilage chondrocytes in vitro

OBJECTIVE: In normal articular cartilage cells, the IGFRI/insulin-like growth factor 1 (IGF-1) autocrine pathway was shown to overrule the catabolic effects of the IL-1/IL-1RI pathway by up-regulation of the IL-1RII decoy receptor. The activity of the IGF-1/IGFR1 and IL-1/IL-1R pathways, and of the IL-1RII control mechanism in the synthesis and turnover of the extracellular matrix (ECM) by chondrocytes from normal and osteoarthritic (OA) articular cartilage was compared in order to identify possible therapeutic targets of this disease. METHODS: Phenotypically stable human articular cartilage cells were obtained from normal and OA cartilage of the same knee showing focal OA. The cells were cultured in alginate beads over 1 week to re-establish the intracellular cytokine and growth factors, to reexpress the respective plasma membrane receptors and to reach equilibrium in accumulated cell-associated matrix (CAM) compounds. Following liberation of the cells from the alginate beads, the levels of cell-associated matrix (CAM) aggrecan, type II collagen and fibronectin, of intracellular IGF-1, IL-1alpha and beta and of their respective plasma membrane-bound receptors, IGFR1, IL-1RI and the decoy receptor IL-1RII, were assayed using flow cytometry. RESULTS: Coordinated production and accumulation of CAM aggrecan and type II collagen under the effect of the IGFR1/IGF-1 autocrine pathway-as documented for chondrocytes from healthy controls-was absent when the chondrocytes had been obtained from OA joints. When compared with cells obtained from normal tissues, chondrocytes from fibrillated OA cartilage expressed significantly higher intracellular IGF-1 levels and plasma membrane-bound IGFR1. At the same time, significantly higher intracellular IL-1alpha and beta levels and upregulated plasma membrane-bound IL-1RI were observed. Plasma membrane-bound IL-1RII decoy receptor was downregulated in OA chondrocytes. The levels of CAM aggrecan, type II collagen and fibronectin were significantly reduced in the chondrocytes obtained from pathological tissue. CONCLUSION: Paired analysis of normal and OA chondrocytes from the same knee joint has shown an enhanced capacity of chondrocytes from OA cartilage to produce ECM macromolecules. However, the same cells have increased catabolic signalling pathways. As a consequence of this increased IL-1 activity and the reduced amounts of IL-1RII decoy receptor, less of the produced ECM macromolecules may persist in the CAM of the OA chondrocytes.     

Comparison of gene expression patterns in articular cartilage and dedifferentiated articular chondrocytes

During monolayer culture, articular chondrocytes dedifferentiate into fibroblast‐like cells. The mechanisms underlying this process are poorly understood. We sought to further characterize dedifferentiation by identifying an extended panel of genes that distinguish articular cartilage from dedifferentiated chondrocytes. Thirty‐nine candidate marker‐genes were identified from previous studies on articular‐cartilage gene‐expression. Real‐time PCR was used to evaluate the mRNA levels for these candidates in calf articular cartilage and dedifferentiated articular chondrocytes. Twenty‐two of the candidate marker genes exhibited at least a two‐fold difference in gene expression in the two cell types. Twelve of these genes had at least a ten‐fold difference in gene expression. Tenascin C (TNC), type I collagen (COL1A1), and hypoxia‐inducible factor 1 alpha (HIF1α) showed the highest relative expression levels in dedifferentiated chonodrocytes. Type II collagen (COL2A1), type XI collagen (COL11A2), and superficial zone protein (SZP) showed the highest relative expression levels in articular cartilage. In contrast to previous findings, fibromodulin mRNA, and protein levels were higher in dedifferentiated chondrocytes. Compared to smaller subsets of markers, this panel of 12 highly differentially expressed genes may more precisely distinguish articular cartilage from dedifferentiated chondrocytes. Since many of the genes up‐regulated in dedifferentiated chondrocytes are also expressed during cartilage development, dedifferentiated chondrocytes may possess features of cartilage precursor cells. © 2011 Orthopaedic Research Society Published by Wiley Periodicals, Inc. J Orthop Res 30:234–245, 2012     

重组腺病毒介导外源性SOX9在正常关节软骨细胞中诱导软骨基质合成的体外表达

背景：关节软骨损害是临床一种常见的损伤,软骨形成转录因子SOX9是一种调控Ⅱ型胶原合成的关键因子。 目的：观察以表达外源性SOX9的腺病毒体外成功感染关节软骨细胞后对Ⅱ型胶原和蛋白聚糖（Aggrecan）合成的影响,探讨软骨损伤后修复软骨缺损的基因治疗方法。 方法：体外构建腺病毒载体AdSOX9和AdGFP,成功感染培养的人关节软骨细胞,分别以逆转录聚合酶链式反应（RT-PCR）技术检测了病毒感染前后SOX9、II型胶原和蛋白聚糖基因mRNA的表达,同时以免疫组化技术检测了病毒感染前后关节软骨细胞中Ⅱ型胶原的表达。 结果：应用AdEasy腺病毒构建专利技术体外成功构建了能高效表达外源性SOX9的腺病毒AdSOX9和只表达绿色荧光蛋白GFP的腺病毒AdGFP;以腺病毒AdSOX9和AdGFP体外成功感染人关节软骨细胞后48h,未感染对照组和AdGFP感染组,均检测到了Ⅱ型胶原和蛋白聚糖的表达;而AdSOX9感染组的细胞中,检测到了SOX9基因mRNA的表达明显增高,与未感染对照组和AdGFP感染组相比有显著性差异（P〈0．05）,同时,Ⅱ型胶原和蛋白聚糖的表达也较未感染对照组和AdGFP感染组明显增高,差异显著（P〈0．05）。 结论：以外源性SOX9为目的基因的腺病毒介导基因治疗方法,在促进关节软骨细胞Ⅱ型胶原和蛋白聚糖合成方面得出了初步满意的结果,SOX9可能是关节软骨缺损基因治疗研究领域一个新的理想靶点,值得继续深入研究。     

Expression of vitamin D receptors and matrix metalloproteinases in osteoarthritic cartilage and human articular chondrocytes in vitro

OBJECTIVES: To examine the in situ distributions of vitamin D receptors (VDR) and matrix metalloproteinases (MMPs) in osteoarthritic cartilage for comparison with non-arthritic, normal cartilage; and to assess the in vitro effects of 1alpha,25 dihydroxyvitaminD(3)(1alpha,25(OH)(2)D(3)) on MMPs-1, -3 and -9 and prostaglandin E(2)(PGE(2)) production by cultures of human articular chondrocytes (HAC) shown to be VDR-positive. METHODS: Using immunohistochemistry VDR expression in different specimens of osteoarthritic cartilage (N=11) was compared to that in normal cartilage (N=6), along with the immunodetection of MMPs-1, -3 and -9. The effects of 1alpha25(OH)(2)D(3)on MMP and PGE(2)production by HAC in vitro, with and without stimulation by TNFalpha or phorbol myristate acetate (PMA), was evaluated using ELISA methodology. RESULTS: VDR was demonstrated in HAC of all specimens of osteoarthritic cartilage, especially the superficial zone, whereas only two of five normal cartilage specimens were VDR(+)for a minor proportion of HAC. Immunolocalization of MMPs-1, -3 and -9 was often seen in areas where chondrocytes were VDR(+), and dual immunolocalization has demonstrated individual chondrocytes positive for both VDR and MMP-3 in situ. In vitro, 1alpha25(OH)(2)D(3)alone had no effect on MMP-1, -9 and PGE(2)production by HAC, but MMP-3 production was up-regulated by 1alpha25(OH)(2)D(3)either with or without stimulation with TNFalpha or PMA. By contrast the increased production of MMP-9 and PGE(2)induced by PMA was significantly suppressed by concomitant treatment with 1alpha25(OH)(2)D(3). CONCLUSIONS: The demonstration of VDR expression by HAC in osteoarthritic cartilage was often associated with sites where MMP expression was prevalent, observations in contrast to their virtual absence in normal age-matched cartilage. Together with HAC in vitro studies, the data suggests that 1alpha25(OH)(2)D(3)contributes to the regulation of MMP and PGE(2)production by HAC in osteoarthritic cartilage.     

Interaction of chondrocytes,extracellular matrix and growth factors: relevance for articular cartilage tissue engineering

The abundant extracellular matrix of articular cartilage has to be maintained by a limited number of chondrocytes. Vice versa, the extracellular matrix has an important role in the regulation of chondrocyte function. OBJECTIVE: In this review we discuss the role of the extracellular matrix in the regulation of chondrocyte function and the relevance for cartilage tissue engineering. To reach this goal the international literature on this subject has been searched with a major focus on the last 5 years. RESULTS: Structural matrix macromolecules (e.g. collagen, hyaluronate), but also growth factors (e.g. IGF-I, TGF beta) entrapped in the matrix and released under specific conditions affect chondrocyte behavior. These factors communicate with the chondrocyte via specific membrane receptors. In this way there is a close interaction between the extracellular and intracellular milieu. Articular cartilage has a limited capacity of intrinsic repair, which has resulted in the development of tissue engineering approaches to repair damaged cartilage. Successful application of scaffolds has to take into account the important role of both soluble and insoluble matrix-derived factors in cartilage homeostasis. CONCLUSION: Functional tissue engineering will only be realized when the scaffolds used will provide cartilage cells with the correct extracellular signals.     

Allograft of cultured chondrocytes into articular cartilage defects in rabbits--experimental study of the repair of articular cartilage injuries

Articular cartilage defects were created by dill holes, 2 mm wide and 3 mm deep, through the articular cartilage into the subchondral bone in the patellar groove of the femur in mature rabbits. The defects received graft of cultured chondrocytes and the matrix obtained from the primary culture of chondrocytes isolated from the articular cartilage or auricular cartilage in immature rabbits. The isolated cells were cultured for 10 to 14 days. For graft, the cultured chondrocytes together with the matrix were detached from the culture chamber using rubber policemen and centrifuged. The repair of the grafted defects or defects without graft (control) was histologically studied 2 to 12 weeks after operation. The defects without the graft were progressively filled with fibrous tissue containing spindle shaped cells, fibers perpendicular to the surface, and matrix showing weak metachromasia with toluidin blue at 8 weeks. The defects received articular cartilage cell graft were occupied by new cartilage tissue consisting colonylike crumps of chondrocytes 2 weeks after operation. The crumps showed strong metachromasia with toluidin blue and strong stainability for safranin-O. By 4-8 weeks, the defects were filled with homogeneous cartilage. At 12 weeks, arrangement of the chondrocytes of the superficial layer of the new cartilage became columnar as seen in the normal articular cartilage. The defects received elastic cartilage cell graft were filled by reformed cartilage with chondrocytes surrounded by elastic fibers 2-12 weeks after operation. The results indicate that allograft of cultured chondrocytes with matrix into the articular cartilage defects accerated the repair process of the defects by formation of the new cartilage derived from the grafted chondrocytes.     

Repair of articular cartilage defects with cultured chondrocytes in Atelocollagen gel

We attempted to repair full-thickness articular cartilage defects in rabbit knee joints with allogeneic cultured chondrocytes embedded in Atelocollagen gel. An articular cartilage defect was created on the patellar groove of the femur. The defect was filled with chondrocytes cultured in the collagen gel and covered with periosteal flap (G group). In three other experimental groups, the same defects were transplanted with chondrocytes in monolayer culture with periosteal flap (M group), periosteal graft only (P group), or left empty (E group). At 4, 12, and 24 weeks after operation, the reparative tissue was analyzed macroscopically and histologically. At 4 weeks after operation, the surfaces of the reparative tissue were smooth, and the defects were filled with reparative tissues that resembled hyaline cartilage in all four groups. However, the reparative tissues degenerated gradually with time in the M, P, and E groups. In contrast, in the G group, the reparative tissue retained its thickness, and there was a steady integration of the grafted tissue into the adjacent normal cartilage at 24 weeks after operation. The results suggest that transplantation of allogeneic chondrocytes cultured in Atelocollagen gel is effective in repairing an articular cartilage defect.     

血管内皮生长因子对关节软骨细胞基质金属蛋白酶-13表达的影响

目的 观察血管内皮生长因子(VEGF)对体外培养的关节软骨细胞基质金属蛋白酶-13(MMP-13)表达的影响.方法 体外培养SD乳鼠关节软骨细胞,分为4组,每组加入不同处理因素进行干预,A组:(对照组)不加任何处理因素;B组:10 μg/L VEGF;C组:10 μg/L白细胞介素(IL)-1β;D组:10 μg/L VEGF+ 10 μg/L IL-1β.采用实时荧光定量聚合酶链反应(PCR)检测MMP-13 mRNA的表达,蛋白免疫印迹法检测MMP-13蛋白的表达.结果 B组(0.88±0.47)、C组(3.69 ±0.45)及D组(3.85 ±0.48)的MMP-13 mRNA表达水平均显著高于A组(0.73±0.56),D组软骨细胞MMP-13的mRNA表达水平明显高于B组(P＜0.01)及C组(P＜0.05).与A组(0.36 ±0.17)比较,B组(0.63±0.21)、C组(0.76±0.24)及D组(0.99±0.26)的MMP-13蛋白表达水平显著升高,D组MMP-13的蛋白表达水平明显高于B组(P＜0.05)及C组(P＜0.05).结论 在骨关节炎的发病过程中VEGF可能通过上调软骨细胞MMP-13的表达发挥重要作用.     

补肾行气活血法在骨髓基质干细胞诱导软骨细胞修复兔关节软骨缺损中的作用

[目的]探讨补肾行气活血法在骨髓基质于细胞诱导软骨细胞修复兔关节软骨缺损中的作用. [方法]将胶原凝胶包埋的骨炎定含药血清培养的骨髓基质干细胞诱导的软骨细胞和异体软骨细胞接种CPPf/PLLA支架构建的复合物体外培养3周,行倒置显微镜和扫描电镜观察,并将复合物异体移植入兔关节软骨缺损,术后4、8、12周取材,从大体、组织学和Ⅱ型胶原免疫组织化学分别对再生软骨组织进行评价. [结果]诱导软骨细胞组在支架内分布均匀、透明软骨样组织的形成、表面光滑度、与周围组织整合程度及基质内有Ⅱ型胶原分布等方面明显优于软骨细胞组. [结论]补肾行气活血法在关节软骨缺损修复的作用中较传统的方法有其优越性.     

Low-intensity ultrasound stimulates proteoglycan synthesis in rat chondrocytes by increasing aggrecan gene expression.

We evaluated the effect of low intensity-pulsed ultrasound stimulation on rat chondrocytes in vitro using two different 1.0-MHz ultrasound signals with spatial and temporal average intensities of 50 or 120 mW/cm2. The pulses had a duration of 200 microseconds and were repeated every millisecond, with corresponding average peak-pressure amplitudes of 230 or 360 kPa, respectively. Cells were stimulated one, three, or five times for 10 minutes each day starting the third day after plating. One group of cells was exposed to sham ultrasound as a control. The cultures were evaluated for cell proliferation (by [3H]thymidine incorporation and DNA measurement), steady-state mRNA levels of alpha1(I) and alpha1(II) procollagens and aggrecan (by Northern blotting), and proteoglycan synthesis (by [35S]sulfate incorporation). The results revealed that ultrasound causes increases in the level of aggrecan mRNA (p < 0.05) and in proteoglycan synthesis (p < 0.03) after three and five treatments. Expression of mRNA for alpha1(II) procollagen increased over time, but ultrasound had no stimulatory effect. Expression of mRNA for alpha1(I) procollagen was initially low and remained unchanged with time. Although cell proliferation increased with time in both groups, there was no statistically significant difference between the cultures treated with ultrasound and the controls (p = 0.1). The in vitro results support our previous in vivo findings that low-intensity ultrasound stimulates aggrecan mRNA expression and proteoglycan synthesis by chondrocytes, which may explain the role of ultrasound in advancing endochondral ossification, increasing the mechanical strength of fractures, and facilitating fracture repair.     

Isolation and differential secretion of metalloproteinase by superficial chondrocytes in articular cartilage

Summary. Chondrocytes from superficial layers of articular cartilage have distinct phenotypic properties which are different from those of cells obtained from the deeper areas. We describe a method that isolates highly purified articular cartilage chondrocytes from the superficial layers. When the superficial cells are stimulated in vitro with a source of cytokines, they secrete greater amounts of metalloproteinase compared to chondrocytes obtained from a deeper area.

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Résumé. Des études récentes ont démontré que les chondrocytes originaires des couches superficielles du cartilage articulaire possèdent des caracteristiques phénotypiques differentes des caracteristiques des cellules provenant de la région profonde du tissu. Nous décrivons une nouvelle méthode qui permet l’isolement d’une population des chondrocytes superficiels de haute pureté. Nous montrons aussi que quand les chondrocytes superficiels sont stimulés in vitro avec des cytokines, on peut constater une sécrétion plus importance de caséinase par rapport au niveau de sécrétion des cellules profondes.

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Accepted: 22 April 1997