线粒体氧化磷酸化是一氧化氮对软骨细胞基质合成和矿化作用的下游调节因子。

Mitochondrial oxidative phosphorylation is a downstream regulator of nitric oxide effects on chondrocyte matrix synthesis and mineralization.

作者信息

Johnson K, Jung A, Murphy A, Andreyev A, Dykens J, Terkeltaub R

机构信息

Department of Veterans Affairs Medical Center, and University of California, San Diego 92161, USA.

出版信息

Arthritis Rheum. 2000 Jul;43(7):1560-70. doi: 10.1002/1529-0131(200007)43:7<1560::AID-ANR21>3.0.CO;2-S.

DOI:10.1002/1529-0131(200007)43:7<1560::AID-ANR21>3.0.CO;2-S

PMID:10902761

Abstract

OBJECTIVE

Increased chondrocyte nitric oxide (NO) and peroxynitrite production appears to modulate decreased matrix synthesis and increased mineralization in osteoarthritis (OA). Because NO inhibits mitochondrial respiration, this study was undertaken to directly assess the potential role of chondrocyte mitochondrial oxidative phosphorylation (OXPHOS) in matrix synthesis and mineralization.

METHODS

We studied cultured human articular chondrocytes and immortalized costal chondrocytes (TC28 cells). We also assessed the effects of antimycin A and oligomycin (inhibitors of mitochondrial complexes III and V, respectively) on chondrocyte mitochondrial respiration, ATP synthesis, and inorganic pyrophosphate (PPi) generation, and the mineralizing potential of released matrix vesicles (MV).

RESULTS

Articular chondrocytes and TC28 cells respired at comparable rates. Peroxynitrite and NO donors markedly suppressed respiration and ATP generation in chondrocytes. Because NO exerts multiple effects on chondrocytes, we investigated the primary functions of mitochondrial respiration and OXPHOS. To do so, we identified minimally cytotoxic doses of antimycin and oligomycin, which both induced intracellular ATP depletion (by 50-80%), attenuated collagen and proteoglycan synthesis, and blocked transforming growth factor beta from increasing intracellular ATP and elaboration of PPi, a critical inhibitor of hydroxyapatite deposition. Antimycin and oligomycin also abrogated the ability of the ATP-hydrolyzing enzyme plasma cell membrane glycoprotein 1 (PC-1) to increase chondrocyte PPi generation. Finally, MV from cells treated with antimycin or oligomycin contained less PPi and precipitated >50% more 45Ca.

CONCLUSION

Chondrocyte mitochondrial reserve, as NO-sensitive mitochondrial respiration-mediated ATP production, appears to support matrix synthesis and PPi elaboration and to regulate MV composition and mineralizing activity. NO-induced depression of chondrocyte respiration could modulate matrix loss and secondary cartilage mineralization in OA.

摘要

目的

骨关节炎（OA）中软骨细胞一氧化氮（NO）和过氧亚硝酸盐生成增加似乎调节了基质合成减少和矿化增加。由于NO抑制线粒体呼吸，本研究旨在直接评估软骨细胞线粒体氧化磷酸化（OXPHOS）在基质合成和矿化中的潜在作用。

方法

我们研究了培养的人关节软骨细胞和永生化肋软骨细胞（TC28细胞）。我们还评估了抗霉素A和寡霉素（分别为线粒体复合物III和V的抑制剂）对软骨细胞线粒体呼吸、ATP合成、无机焦磷酸（PPi）生成以及释放的基质小泡（MV）矿化潜力的影响。

结果

关节软骨细胞和TC28细胞以相当的速率呼吸。过氧亚硝酸盐和NO供体显著抑制软骨细胞的呼吸和ATP生成。由于NO对软骨细胞有多种作用，我们研究了线粒体呼吸和OXPHOS的主要功能。为此，我们确定了抗霉素和寡霉素的最低细胞毒性剂量，它们均诱导细胞内ATP消耗（降低50 - 80%），减弱胶原蛋白和蛋白聚糖合成，并阻止转化生长因子β增加细胞内ATP和PPi的生成，PPi是羟基磷灰石沉积的关键抑制剂。抗霉素和寡霉素还消除了ATP水解酶浆细胞膜糖蛋白1（PC - 1）增加软骨细胞PPi生成的能力。最后，用抗霉素或寡霉素处理的细胞产生的MV含有的PPi较少，且45Ca沉淀增加超过50%。

结论

软骨细胞线粒体储备，作为NO敏感的线粒体呼吸介导的ATP生成，似乎支持基质合成和PPi生成，并调节MV组成和矿化活性。NO诱导的软骨细胞呼吸抑制可能调节OA中的基质丢失和继发性软骨矿化。

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线粒体氧化磷酸化是一氧化氮对软骨细胞基质合成和矿化作用的下游调节因子。

Mitochondrial oxidative phosphorylation is a downstream regulator of nitric oxide effects on chondrocyte matrix synthesis and mineralization.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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