Department of Surgery, University Hospital Basel, Hebelstrasse 20, Basel, 4031, Switzerland.
Arthritis Res Ther. 2010;12(2):R34. doi: 10.1186/ar2942. Epub 2010 Mar 2.
Oxygen is a critical parameter proposed to modulate the functions of chondrocytes ex-vivo as well as in damaged joints. This article investigates the effect of low (more physiological) oxygen percentage on the biosynthetic and catabolic activity of human articular chondrocytes (HAC) at different phases of in vitro culture.
HAC expanded in monolayer were cultured in pellets for two weeks (Phase I) or up to an additional two weeks (Phase II). In each Phase, cells were exposed to 19% or 5% oxygen. Resulting tissues and culture media were assessed to determine amounts of produced/released proteoglycans and collagens, metalloproteinases (MMPs), collagen degradation products and collagen fibril organization using biochemical, (immuno)-histochemical, gene expression and scanning electron microscopy analyses. In specific experiments, the hypoxia-inducible factor-1alpha (HIF-1alpha) inhibitor cadmium chloride was supplemented in the culture medium to assess the involvement of this pathway.
Independent from the oxygen percentage during expansion, HAC cultured at 5% O(2) (vs 19% O(2)) during Phase I accumulated higher amounts of glycosaminoglycans and type II collagen and expressed reduced levels of MMP-1 and MMP-13 mRNA and protein. Switching to 19% oxygen during Phase II resulted in reduced synthesis of proteoglycan and collagen, increased release of MMPs, accumulation of type II collagen fragments and higher branching of collagen fibrils. In contrast, reducing O(2) during Phase II resulted in increased proteoglycan and type II collagen synthesis and reduced expression and release of MMP-13 mRNA and protein. Supplementation of cadmium chloride during differentiation culture at 5% O(2) drastically reduced the up-regulation of type II collagen and the down-regulation of MMP-1 mRNA.
The application of more physiologic oxygen percentage during specific phases of differentiation culture enhanced the biosynthetic activity and reduced the activity of catabolic enzymes implicated in cartilage breakdown. Modulation of the oxygen percentage during HAC culture may be used to study pathophysiological events occurring in osteoarthritis and to enhance properties of in vitro engineered cartilaginous tissues.
氧气是一个关键参数,被提出可以调节体外和受损关节中软骨细胞的功能。本文研究了低(更接近生理)氧百分比对体外培养不同阶段的人关节软骨细胞(HAC)的合成代谢和分解代谢活性的影响。
在单层中扩增的 HAC 被培养在微球体中两周(第一阶段)或最多另外两周(第二阶段)。在每个阶段,细胞都暴露于 19%或 5%的氧气中。使用生化、(免疫)组织化学、基因表达和扫描电子显微镜分析评估产生/释放的蛋白聚糖和胶原、金属蛋白酶(MMPs)、胶原降解产物和胶原纤维组织的量。在特定的实验中,在培养基中补充缺氧诱导因子-1alpha(HIF-1alpha)抑制剂氯化镉,以评估该途径的参与。
无论在扩展过程中氧气百分比如何,在第一阶段培养于 5% O(2)(与 19% O(2)相比)的 HAC 积累了更多的糖胺聚糖和 II 型胶原,并且表达了较低水平的 MMP-1 和 MMP-13 mRNA 和蛋白质。在第二阶段切换到 19%氧气导致蛋白聚糖和胶原合成减少,MMP 释放增加,II 型胶原片段积累和胶原纤维分支增加。相比之下,在第二阶段降低 O(2)导致蛋白聚糖和 II 型胶原合成增加,MMP-13 mRNA 和蛋白质表达和释放减少。在 5% O(2)的分化培养过程中补充氯化镉大大降低了 II 型胶原的上调和 MMP-1 mRNA 的下调。
在分化培养的特定阶段应用更接近生理的氧百分比增强了合成代谢活性并降低了参与软骨分解的分解代谢酶的活性。在 HAC 培养过程中调节氧百分比可能用于研究骨关节炎中发生的病理生理事件,并增强体外工程化软骨组织的特性。
Zotero 插件
