Comparison of the bioactivity and apoptotic responses of hyaline cartilage chondrocytes and fibrocartilage chondrocytes obtained by bone marrow stimulation in rats.

Hakan Cicek, Umit Tuhanioglu, Figen Cicek
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引用次数: 0

Abstract

Objective: The microfracture technique is often considered the standard therapy for treating cartilage defects. The aim of the treatment is the migration of mesenchymal stem cells from the bone marrow into the defect area. However, this regeneration process often results in the formation of fibrocartilage instead of natural hyaline cartilage, due to cellular mechanisms whose causes are not well understood. Therefore, in this study, the differences in bioactivity and apoptosis of fibrocartilage tissue-derived chondrocytes (FCh) obtained by bone marrow stimulation and natural hyaline cartilage tissue-derived chondrocytes (HCh) in the knee joint of rats were compared.

Methods: A total of 24 Wistar albino rats were used in this study, and one hind leg of each animal was operated on, while the other served as a control. A 2-step surgical procedure was performed: First, a microfracture was generated at a 2 mm × 2 mm cartilage defect area in the medial condyle of the femur after a left knee arthrotomy. Second, 6 weeks later, after a double knee arthrotomy, fibrocartilage from the microfracture area of the left knee and 2 × 2 mm of hyaline cartilage from the medial femoral condyle of the right knee were harvested. Chondrocytes were isolated and grouped as HCh or FCh, and cell viability and apoptosis were determined by MTT (4,5-dimethylthiazol -2-yl)-2,5-diphenyltetrazolium bromide) and caspase-3 assays using enzyme-linked immunosorbent assay (ELISA) kits.

Results: Fibrocartilage tissue-derived chondrocytes showed similar bioactivity and apoptotic response as HCh under physiological conditions. However, low-dose H2O2 decreased viability (bioactivity) and increased apoptosis in FCh without affecting HCh. High-dose H2O2 reduced the bioactivity of both cell types and induced apoptosis, while the response of FCh to oxidative stress was more aggressive than that of HCh.

Conclusion: The different response patterns in oxidative stress may provide a basis for understanding the limited survival time of bone marrow-derived fibrocartilage tissue induced by microfractures.

Level of evidence: N/A.

比较大鼠骨髓刺激获得的透明软骨软骨细胞和纤维软骨软骨细胞的生物活性和凋亡反应
目的:微骨折技术通常被认为是治疗软骨缺损的标准疗法。治疗的目的是将骨髓中的间充质干细胞迁移到缺损区域。然而,这种再生过程往往会形成纤维软骨,而不是天然透明软骨,其细胞机制的原因尚不十分清楚。因此,本研究比较了大鼠膝关节中通过骨髓刺激获得的纤维软骨组织衍生软骨细胞(FCh)和天然透明软骨组织衍生软骨细胞(HCh)在生物活性和凋亡方面的差异:本研究共使用了 24 只 Wistar 白化大鼠,每只大鼠的一条后腿接受手术,另一条后腿作为对照。手术分为两个步骤:首先,在左膝关节切开术后,在股骨内侧髁 2 mm × 2 mm 的软骨缺损区进行微骨折。其次,6 周后,在双膝关节切开术后,从左膝关节微骨折区域采集纤维软骨,并从右膝关节股骨内侧髁采集 2 × 2 毫米的透明软骨。通过 MTT(4,5-二甲基噻唑-2-基)-2,5-二苯基溴化四氮唑)和酶联免疫吸附试验(ELISA)试剂盒进行细胞活力和凋亡测定:结果:在生理条件下,来源于纤维软骨组织的软骨细胞表现出与 HCh 相似的生物活性和凋亡反应。然而,低剂量 H2O2 会降低 FCh 的存活率(生物活性)并增加细胞凋亡,而对 HCh 没有影响;高剂量 H2O2 会降低两种细胞的生物活性并诱导细胞凋亡,而 FCh 对氧化应激的反应比 HCh 更强烈:结论:氧化应激的不同反应模式可为理解微骨折诱导的骨髓源性纤维软骨组织存活时间有限提供依据:不适用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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