人正常及骨关节炎软骨细胞体外培养的对照研究

摘要目的：研究人正常软骨细胞及骨关节炎软骨细胞的体外分离、培养及鉴定方法,对其生物学特性进行对照并评价其生物学活性。方法：取人创伤性截肢与骨关节炎全膝置换的无菌膝关节软骨,采用两步酶消化法分离培养人关节软骨细胞,并进行传代培养。通过倒置相差显微镜下观察细胞形态,绘制生长曲线,测细胞增殖,甲苯胺蓝染色及Ⅱ型胶原免疫组织化学染色对细胞进行对照研究。结果：骨关节炎软骨细胞形态似成纤维细胞,生长速度明显较正常软骨细胞慢。MTT测细胞增殖显示,第2．4、6代骨关节炎软骨细胞在相同时间点大都比同代正常软骨细胞增殖速度慢（P〈0．05）。甲苯胺蓝及Ⅱ型胶原免疫组化染色显示,骨关节炎软骨细胞染色较正常软骨细胞浅,经多次传代后基本无着色。结论：正常软骨细胞5代以内细胞生长良好,生物学特性明显,5代以后出现去分化现象。骨关节炎软骨细胞增殖慢,生物学特征退变旱,符合软骨细胞退变的表现。这为骨关节炎在软骨细胞水平的研究提供了实验基础。     

Jagged1蛋白在膝关节骨性关节炎软骨组织中的表达

目的:研究Jagged1蛋白在膝关节骨性关节炎关节软骨中表达的特点,探讨Jagged1蛋白的表达对关节软骨病理改变的影响。方法:选取宁夏医科大学总医院骨科2018年11月1日至2019年10月31日34例因膝关节骨性关节炎行全膝关节置换的患者,取术中去除的股骨髁软骨组织,磨损较重的一侧为负重区(实验组),磨损较轻的一侧为非负重区(对照组)。通过番红、HE染色观察软骨组织形态学变化,通过免疫组织化学检测Jagged1蛋白在不同软骨组织中的表达强度,对比分析Jagged1蛋白表达的差异对关节软骨病变的影响。结果:外观照可见实验组软骨面色泽暗淡,表面粗糙,有大量软骨缺失,对照组软骨面较平整,呈白色,未见软骨明显缺失;HE染色可见实验组软骨面不整,软骨细胞排列紊乱,呈簇状分布,对照组软骨面平整,软骨细胞数量多,胞质丰富;番红染色见实验组软骨组织残留较少,软骨层结构模糊不清,软骨细胞较少,对照组软骨层次结构清晰,软骨细胞及软骨下骨细胞排列整齐;免疫组化可见Jagged1蛋白实验组软骨中有较多阳性表达,在对照组中表达较少,差异有统计学意义(P0.05)。结论:Jagged1蛋白在软骨中的表达强度与关节软骨的磨损程度呈正相关,在膝关节骨性关节炎的病理变化过程中有着重要的作用。     

高脂饮食诱导C57BL/6J肥胖小鼠骨关节炎模型的建立

目的通过高脂饮食诱导C57BL/6J小鼠肥胖来建立骨关节炎模型并观察其病理特征,为肥胖相关骨关节炎研究中动物模型的建立提供实验依据。方法 C57BL/6J雄鼠20只随机分为对照组和高脂组,分别喂饲基础饲料和高脂饲料。每周测体重及摄食量,16周后收集血清,ELISA法检测血清Ⅱ型胶原C端肽水平;取小鼠左下肢膝关节,固定、脱钙、石蜡包埋,切片后行HE及番红O染色并进行修改后的Mankin评分;TUNEL法检测软骨细胞凋亡。结果与对照组相比,高脂组小鼠体重、血清Ⅱ型胶原C端肽水平显著升高,而摄食量方面则无明显差异。HE及番红O染色结果显示,高脂组小鼠的膝关节软骨细胞减少,排列混乱,基质染色不均匀,可出现潮线部分缺失,颜色变浅等;且高脂组的修改后的Mankin评分也显著高于对照组。TUNEL检测结果显示,高脂组小鼠关节软骨凋亡细胞数增多,但与对照组相比差异不显著。结论利用高脂饮食诱导C57BL/6J小鼠肥胖的方法可以建立骨关节炎模型,该模型可用于肥胖相关骨关节炎的研究。     

液泡分选蛋白4B对骨关节炎软骨细胞凋亡的调控作用

目的:探讨液泡分选蛋白4B(VPS4B)对骨关节炎软骨细胞凋亡的调控作用。方法:通过内侧半月板部分切除加前交叉韧带切断的方法建立骨关节炎SD大鼠模型,通过RT-PCR和免疫组化检测VPS4B在大鼠关节软骨中的表达。番红O/固绿染色方法检测大鼠膝关节软骨组织形态变化。通过用10 ng/mL的IL-1β诱导人软骨肉瘤细胞SW1353 24 h来模拟骨关节炎样软骨细胞损伤,Western blot检测SW1353细胞中VPS4B、凋亡相关因子(cleaved caspase-3和cleaved PARP)和磷酸化p38的表达。转染si-RNA敲低SW1353细胞中VPS4B表达,并评估其对IL-1β诱导的SW1353细胞凋亡标记和p38 MAPK信号通路的影响。膜联蛋白V (Annexin V)和碘化丙啶(PI)染色用于检测软骨细胞凋亡。结果:VPS4B在模型组大鼠的关节软骨中明显上调(P0.05)。IL-1β诱导24 h后,SW1353细胞中的VPS4B、cleaved caspase-3、cleaved PARP和p-p38蛋白表达水平均明显增加。而转染VPS4B-si RNA敲低VPS4B的表达后,cleaved caspase-3、cleaved PARP和p-p38蛋白表达水平均被抑制,并且抑制了IL-1β诱导细胞的凋亡率。结论:VPS4B在骨关节炎发病过程中明显上调,VPS4B的上调通过激活p38 MAPK信号通路来促进软骨细胞凋亡。     

以可注射性纤维蛋白封闭剂为支架体内构建组织工程软骨

目的: 研究以纤维蛋白封闭剂（FS）为载体复合人胚关节软骨细胞体内构建可注射性组织工程软骨的可行性。方法:常规分离消化,体外单层培养胎儿关节软骨细胞,观察软骨细胞的生物学特性。分别将1×107、2×107、3×107第4代软骨细胞与FS混合接种于裸鼠皮下, 并于第10周取材判断体内形成软骨的能力。结果: 3~4代软骨细胞保持了很高的增殖和分泌基质的能力。软骨细胞与FS的复合物体内接种后各组均可形成软骨样组织块,其湿重、GAG含量随着接种细胞数量的增多而增高,各组之间差异具有显著性（p<0.05）。3×107细胞组GAG含量与正常人胚关节软骨没有差异（p>0.05）。组织切片显示软骨细胞位于类似正常软骨组织的陷窝中,阿尔新蓝染色及II型胶原表达阳性,细胞内富含高尔基体、粗面内质网及大量分泌泡。结论: FS和人胚关节软骨细胞可以作为理想的支架材料和种子细胞应用于可注射软骨组织的构建。     

生物钟和细胞周期在膝骨关节炎软骨中的相关性研究

目的：本研究的目的主要是探讨生物钟、细胞周期相关基因在膝骨关节炎（Knee Osteoarthritis,KOA）和正常软骨中的表达差异、相关性和作用。方法：选取KOA接受膝关节置换手术治疗的患者60例,收集术后胫骨平台和股骨内外侧髁软骨,将肉眼观察明显受损和宏观上正常的关节软骨,分为骨关节炎组（Osteoarthritis,OA）和相对正常组（Normal）。采用H.E.染色和番红固绿法染色,观察软骨组织病理变化。逆转录聚合酶链反应法检测BMAL1、PER1、CDK1、CCNB1、MMP13的m RNA表强度,分析它们在OA组和Normal之间的表达差异,并分析它们之间的相关性。免疫组织化学和蛋白免疫印迹法检测BMAL1、PER1、CDK1、CCNB1、MMP13蛋白的表达水平,进一步验证它们在OA组和Normal之间的表达差异。结果：相对于Normal组,OA组软骨表面不光滑,软骨变薄,基质破坏,蛋白聚糖丢失明显,软骨厚度降低。BMAL1在OA组表达量下降,CDK1、CCNB1、PER1、MMP13的m RNA表达量和蛋白表达水平明显增加,差异明显,P<0.05。相关性分析显...     

人膝骨关节炎软骨下骨OPN的表达及其意义

目的：通过检测人膝骨关节炎裸露软骨下骨中OPN的表达,探讨OPN在OA发病及病情进展中的意义。方法：选取接受膝关节置换手术的膝关节骨关节炎患者软骨下骨标本50例,采用综合评分法对OA患者进行严重程度分级,分为轻、中、重度三组,取正常膝关节软骨下骨（股骨髁关节面）10例作为正常软骨下骨对照;对标本进行免疫组织化学染色,用SPSS17．0统计软件包分析各组间OPN表达的差异及OA患者OPN表达与综合评分、K-L分期的相关性。结果：人膝骨关节炎裸露软骨下骨OPN表达明显高于正常软骨下骨组,差异有统计学意义（P〈0．01）;OPN在轻、中、重度膝骨关节炎裸露软骨下骨的表达差异有统计学意义（P〈0．05）;膝骨关节炎裸露软骨下骨OPN的表达与骨关节炎的综合评分、K—L分期呈正相关。结论：OA患者膝关节软骨下骨OPN表达与疾病严重程度呈正相关,提示OPN在骨关节炎发病及病情进展中可能起作用。     

多种特殊染色法在骨关节炎组织形态学研究中的应用比较

目的探讨多种特殊染色法在骨关节组织中的染色规律及其在骨关节炎形态学研究中的应用价值。方法 6月龄健康新西兰大白兔20只,随机分为正常组和造模组各10只,根据改良Hulth法造模,6周后膝关节取材。对标本固定、脱钙后进行石蜡包埋和切片。分别采用HE、番红-固绿、AB-PAS、甲苯胺蓝、Van Gieson染色和Mallory染色,观察骨关节组织的形态学变化,并对几种染色方法进行比较。结果 HE染色显示关节一般组织形态结构,可见模型组关节软骨和软骨下骨发生骨性关节炎病理变化;番红-固绿染色法中软骨和软骨下骨的界限（黏合线）以及潮线显示清晰,软骨基质中糖胺聚糖含量减少,纤维成分增多;AB-PAS染色显示骨关节炎软骨基质糖胺聚糖尤其是酸性糖胺聚糖含量减少;甲苯胺蓝染色显示骨关节炎软骨的酸性糖胺聚糖减少;Van Gieson染色和Mallory染色可显示骨关节组织中的胶原纤维,但组织结构界限不够清晰。结论在骨性关节炎的组织形态学研究中,通过常规HE染色,结合番红-固绿染色法和AB-PAS染色法,能较客观全面地获得关节组织形态学相关信息。     

苦参碱对IL-1β诱导的小鼠体外骨关节炎的作用研究

目的探讨苦参碱对IL-1β诱导小鼠软骨细胞退行性变修复作用。方法提取3～5 dC 57乳鼠软骨细胞,分为空白对照组,骨关节炎(OA)组,骨关节炎加苦参碱(OA+Mat)组,分别处理24 h后,行HE染色,观察各组小鼠的细胞形态及数量,并提取各组小鼠的总RNA,RT-qPCR反应检测炎症及软骨标志基因的表达。结果与OA组相比,OA+Mat组细胞形态与空白对照组一样良好,细胞数量与空白对照组相近,且比OA组多,炎症及软骨标志基因的表达均比OA组高(P0.05)。结论苦参碱能降低白介素1诱导的小鼠体外骨关节炎症标志基因的表达,对小鼠关节炎有治疗作用,且能上调关节炎细胞中软骨标志基因COL2a1的表达。     

Proteoglycan 4 downregulation in a sheep meniscectomy model of early osteoarthritis

Osteoarthritis is a disease of multifactorial aetiology characterised by progressive breakdown of articular cartilage. In the early stages of the disease, changes become apparent in the superficial zone of articular cartilage, including fibrillation and fissuring. Normally, a monolayer of lubricating molecules is adsorbed on the surface of cartilage and contributes to the minimal friction and wear properties of synovial joints. Proteoglycan 4 is the lubricating glycoprotein believed to be primarily responsible for this boundary lubrication. Here we have used an established ovine meniscectomy model of osteoarthritis, in which typical degenerative changes are observed in the operated knee joints at three months after surgery, to evaluate alterations in proteoglycan 4 expression and localisation in the early phases of the disease. In normal control joints, proteoglycan 4 was immunolocalised in the superficial zone of cartilage, particularly in those regions of the knee joint covered by a meniscus. After the onset of early osteoarthritis, we demonstrated a loss of cellular proteoglycan 4 immunostaining in degenerative articular cartilage, accompanied by a significant (p < 0.01) decrease in corresponding mRNA levels. Early loss of proteoglycan 4 from the cartilage surface in association with a decrease in its expression by superficial-zone chondrocytes might have a role in the pathogenesis of osteoarthritis.     

Quercetin attenuates oxidative stress-induced apoptosis via SIRT1/AMPK-mediated inhibition of ER stress in rat chondrocytes and prevents the progression of osteoarthritis in a rat model

Apoptosis of chondrocytes are the main initiator of osteoarthritis (OA) and can be explained by oxidative stress and endoplasmic reticulum (ER) stress, thus the pharmacological interventions aimed at inhibiting of these pathways may be a promising approach for the management of OA. Quercetin is a member of the flavonoid family and has antioxidant and anti-inflammatory properties in degenerative diseases. However, its effects and potential mechanisms on the pathological process of OA are not very clear. The present study aimed to investigate the protective effects of quercetin on OA and the underlying mechanisms. The tert-butyl hydroperoxide (TBHP)-stimulated rat chondrocytes and destabilization of the medial meniscus OA rat model was used to explore the protective effects of quercetin. Our results showed that quercetin treatment can attenuate oxidative stress, ER stress, and associated apoptosis. Moreover, quercetin inhibited ER stress through activating the sirtuin1/adenosine monophosphate-activated protein kinase (SIRT1/AMPK) signaling pathway. The protective effects of quercetin were also observed in OA rat model which is evidenced by abolished cartilage degeneration and decreased chondrocytes apoptosis in the knee joints. Our results suggested that quercetin is a promising treatment for OA.     

EGR1 promotes the cartilage degeneration and hypertrophy by activating the Krüppel-like factor 5 and β-catenin signaling

Osteoarthritis is one of the most common orthopedic diseases in elderly people who have lost their mobility. In this study,we observed abnormally high EGR1 expression in the articular cartilage of patients with osteoarthritis. We also found significantly high EGR1 expression in the articular cartilage of mice with destabilized medial meniscus (DMM)-induced osteoarthritis and 20-month-old mice. In vitro experiments indicated that IL-1β could significantly enhance EGR1 expression in primary mouse chondrocytes. EGR1 over-expression in chondrocytes using adenovirus could inhibit COl2A1 expression and enhance MMP9 and MMP13 expression. And silencing EGR1, using RNAi, had the opposite effects. Moreover, EGR1 over-expression accelerated chondrocyte hypertrophy in vitro, and EGR1 knockdown reversed this effect. We then explored the underlying mechanism. EGR1 over-expression increased Kruppel-Like Factor 5 (KLF5) protein level without influencing its synthesis. Enhanced EGR1 expression induced its integration with KLF5, leading to suppressed ubiquitination of KLF5. Moreover, EGR1 prompted β-catenin nuclear transportation to control chondrocyte hypertrophy. Ectopic expression of EGR1 in articular cartilage aggravated the degradation of the cartilage matrix in vivo. The EGR1 inhibitor, ML264, protected chondrocytes from IL-1β-mediated cartilage matrix degradation in vitro and DMM-induced osteoarthritis in vivo. Above all, we demonstrate the effect and mechanisms of EGR1 on osteoarthritis and provide evidence that the ML264 might be a potential drug for treating osteoarthritis in the future.     

microRNA-15a模拟物对人关节软骨细胞增殖与凋亡的影响

目的：近年来研究表明,关节软骨细胞凋亡在骨关节炎发病过程中起到了重要的作用,本文旨在探讨microma-15a模拟物对于原代人膝关节软骨细胞增殖与凋亡的影响。方法：取人外伤性截肢后的膝关节软骨,采用双酶消化法分离获得人膝关节软骨细胞,并进行体外培养,通过甲苯胺蓝染色和II型胶原免疫细胞化学染色进行软骨细胞鉴定。将培养的软骨细胞传代后取第l代细胞,分为实验组和对照组,实验组采用mir．15a模拟物（has．mir-15amimics）转染软骨细胞,上调软骨细胞内mir-15a的表达量;对照组分为阴性对照组、空白对照组。采用MTT法测定细胞增殖曲线,流式细胞仪测定细胞凋亡率。结果：原代细胞中细胞呈多角形、圆形与梭型,贴壁生长;甲苯胺蓝染色胞质呈深蓝色,II型胶原染色胞质呈黄褐色,为特异性染色。经统计学分析,实验组与对照组相比增殖速率明显下降（P〈0．05）。实验组凋亡率（7．13％±0．57）与阴性对照组凋亡率（2．66％±0．15）相比明显增高（P〈0．05）。结论：采用双酶消化法成功分离并培养具有生物学特性的原代人膝关节软骨细胞,通过转染mir-15a模拟物外源性增加关节软骨细胞内mir．15a表达量可显著促进其凋亡并抑制其增殖,为阐明骨关节炎发病机制提供了新的理论依据,为’临床治疗提供了新的靶点。     

Comparison of nonlinear mechanical properties of bovine articular cartilage and meniscus

Nonlinear, linear and failure properties of articular cartilage and meniscus in opposing contact surfaces are poorly known in tension. Relationships between the tensile properties of articular cartilage and meniscus in contact with each other within knee joints are also not known. In the present study, rectangular samples were prepared from the superficial lateral femoral condyle cartilage and lateral meniscus of bovine knee joints. Tensile tests were carried out with a loading rate of 5 mm/min until the tissue rupture. Nonlinear properties of the toe region, linear properties in larger strains, and failure properties of both tissues were analysed. The strain-dependent tensile modulus of the toe region, Young's modulus of the linear region, ultimate tensile stress and toughness were on average 98.2, 8.3, 4.0 and 1.9 times greater (p<0.05) for meniscus than for articular cartilage. In contrast, the toe region strain, yield strain and failure strain were on average 9.4, 3.1 and 2.3 times greater (p<0.05) for cartilage than for meniscus. There was a significant negative correlation between the strain-dependent tensile moduli of meniscus and articular cartilage samples within the same joints (r=−0.690, p=0.014). In conclusion, the meniscus possesses higher nonlinear and linear elastic stiffness and energy absorption capability before rupture than contacting articular cartilage, while cartilage has longer nonlinear region and can withstand greater strains before failure. These findings point out different load carrying demands that both articular cartilage and meniscus have to fulfil during normal physiological loading activities of knee joints.     

The low permeability of healthy meniscus and labrum limit articular cartilage consolidation and maintain fluid load support in the knee and hip

The knee meniscus and hip labrum appear to be important for joint health, but the mechanisms by which these structures perform their functions are not fully understood. The fluid phase of articular cartilage provides compressive stiffness and aids in maintaining a low friction articulation. Healthy fibrocartilage, the tissue of meniscus and labrum, has a lower fluid permeability than articular cartilage. In this study we hypothesized that an important function of the knee meniscus and the hip labrum is to augment fluid retention in the articular cartilage of a mechanically loaded joint. Axisymmetric hyperporoelastic finite element models were analyzed for an idealized knee and an idealized hip. The results indicate that the meniscus maintained fluid pressure and inhibited fluid exudation in knee articular cartilage. Similar, but smaller, effects were seen with the labrum in the hip. Increasing the fibrocartilage permeability relative to that of articular cartilage gave a consolidation rate and loss of fluid load support comparable to that predicted by meniscectomy or labrectomy. The reduced articular cartilage fluid pressure that was calculated for the joint periphery is consistent with patterns of endochondral ossification and osteophyte formation in knee and hip osteoarthritis. High articular central strains and loss of fluid load support after meniscectomy could lead to fibrillation. An intact low-permeability fibrocartilage is important for limiting fluid exudation from articular cartilage in the hip and knee. This may be an important aspect of the role of fibrocartilage in protecting these joints from osteoarthritis.     

Hypoxia-inducible factor-2α regulates Fas-mediated chondrocyte apoptosis during osteoarthritic cartilage destruction

Apoptosis of articular chondrocytes is associated with the pathogenesis of osteoarthritis (OA). Recently, we demonstrated that hypoxia-inducible factor (HIF)-2α, encoded by Epas1, causes OA cartilage destruction by regulating the expression of various matrix-degrading enzymes. Here, we investigated the involvement of HIF-2α in chondrocyte apoptosis and OA cartilage destruction. HIF-2α levels in human and mouse OA chondrocytes were markedly elevated in association with increased apoptosis of articular chondrocytes. Overexpression or knockdown of HIF-2α alone did not cause chondrocyte apoptosis. However, HIF-2α expression markedly increased chondrocyte apoptosis in the presence of an agonistic anti-Fas (CD95) antibody. HIF-2α enhanced Fas expression and potentiated downstream signaling pathways, increasing the activity of initiator and executioner caspases. Overexpression of HIF-2α in mouse cartilage tissue, either by intra-articular injection of Epas1 adenovirus (Ad-Epas1) or in the context of chondrocyte-specific Epas1 transgenic mice, increased chondrocyte apoptosis and cartilage destruction. In contrast, chondrocyte-specific knockout of Epas1 in mice suppressed DMM (destabilization of the medial meniscus)-induced chondrocyte apoptosis and inhibited OA cartilage destruction. Moreover, Fas-deficient mice exhibited diminished chondrocyte apoptosis and OA cartilage destruction in response to Ad-Epas1 injection or DMM surgery. Taken together, our results demonstrate that HIF-2α potentiates Fas-mediated chondrocyte apoptosis, which is associated with OA cartilage destruction.     

Chondroprotection of PPARα activation by WY14643 via autophagy involving Akt and ERK in LPS‐treated mouse chondrocytes and osteoarthritis model

Autophagy maintains cellular homoeostasis. The enhancement of autophagy in chondrocytes could prevent osteoarthritis (OA) progression in articular cartilage. Peroxisome proliferator‐activated receptor α (PPARα) activation may also protect articular chondrocytes against cartilage degradation in OA. However, whether the protective effect of activated PPARα is associated with autophagy induction in chondrocytes is not determined. In this study, we investigated the effect of PPARα activation by its agonist, WY14643, on the protein expression level of Aggrecan and ADAMTS5, and the protein expression level of autophagy biomarkers, including LC3B and P62, using Western blotting analysis in isolated mouse chondrocytes pre‐treated with lipopolysaccharides (LPS, mimicking OA chondrocytes) with or without the autophagy inhibitor chloroquine diphosphate salt. Furthermore, Akt and ERK phosphorylation was detected in LPS‐treated chondrocytes in response to WY14643. In addition, the effect of intra‐articularly injected WY14643 on articular cartilage in a mouse OA model established by the destabilization of the medial meniscus was assessed using the Osteoarthritis Research Society International (OARSI) histopathology assessment system, along with the detection of Aggrecan, ADAMTS5, LC3B and P62 protein levels using immunohistochemistry assay. The results indicated that PPARα activation by WY14643 promoted proteoglycan synthesis by autophagy enhancement in OA chondrocytes in vivo and in vitro concomitant with the elevation of Akt and ERK phosphorylation. Therefore, autophagy could contribute to the chondroprotection of PPARα activation by WY14643, with the implication that PPARα activation by WY14643 may be a potential approach for OA therapy.