Mansell J P, Bailey A J
Collagen Research Group, Division of Molecular and Cellular Biology, University of Bristol, Langford, Bristol, United Kingdom BS18 7DU.
J Clin Invest. 1998 Apr 15;101(8):1596-603. doi: 10.1172/JCI867.
Biochemical investigations into the pathogenesis of osteoarthritis have, for the last two decades, concentrated on the mechanisms involved in the destruction of the articular cartilage. Although bone changes are known to occur, the biochemistry of the collagenous matrix within osteoarthritic bone has received scant attention. We report that bone collagen metabolism is increased within osteoarthritic femoral heads, with the greatest changes occurring within the subchondral zone. Collagen synthesis and its potential to mineralize were determined by the carboxy-terminal propeptide content and alkaline phosphatase activity, respectively. These data supported elevated new matrix formation. Our finding of a three- to fourfold increase in TGF-beta in osteoarthritic bone indicates that this might represent a stimulus for the increased collagen synthesis observed. Of additional significance is the hypomineralization of deposited collagen in the subchondral zone of osteoarthritic femoral heads, supporting a greater proportion of osteoid in the diseased tissue. The cross-linking of collagen was similar to that observed for controls. In addition, the degradative potential of osteoarthritic bone was considerably higher as demonstrated by increased matrix metalloproteinase 2 activity, and again the greater activity was associated with the subchondral bone tissue. The polarization exhibited in the metabolism of bone collagen from osteoarthritic hips might exacerbate the processes involved in joint deterioration by altering joint morphology. This in turn may alter the distribution of mechanical forces to the various tissues, to which bone is a sensitive responder. Bone collagen metabolism is clearly an important factor in the pathogenesis of osteoarthritis and certainly warrants further biochemical study.
在过去二十年中,对骨关节炎发病机制的生化研究主要集中在关节软骨破坏所涉及的机制上。尽管已知会发生骨变化,但骨关节炎骨内胶原基质的生物化学却很少受到关注。我们报告称,骨关节炎股骨头内的骨胶原代谢增加,其中最大的变化发生在软骨下区域。分别通过羧基末端前肽含量和碱性磷酸酶活性来测定胶原合成及其矿化潜力。这些数据支持了新基质形成的增加。我们发现骨关节炎骨中转化生长因子-β增加了三到四倍,这表明这可能是观察到的胶原合成增加的刺激因素。另外具有重要意义的是,骨关节炎股骨头软骨下区域沉积胶原的矿化不足,这支持了病变组织中类骨质比例更高的观点。胶原的交联与对照组观察到的情况相似。此外,骨关节炎骨的降解潜力明显更高,这通过基质金属蛋白酶2活性增加得到证明,而且更高的活性再次与软骨下骨组织相关。骨关节炎髋关节骨胶原代谢中表现出的极化可能会通过改变关节形态而加剧关节退变所涉及的过程。这反过来可能会改变机械力在各种组织中的分布,而骨是对其敏感的响应者。骨胶原代谢显然是骨关节炎发病机制中的一个重要因素,当然值得进一步进行生化研究。