COL9A2基因的Trp2等位基因表达与人类椎间盘力学性能的改变有关。
Expression of the Trp2 allele of COL9A2 is associated with alterations in the mechanical properties of human intervertebral discs.
作者信息
Aladin Darwesh M K, Cheung Kenneth M C, Chan Danny, Yee Anita F Y, Jim Jeffrey J T, Luk Keith D K, Lu William W
机构信息
Department of Orthopaedics and Traumatology, University of Hong Kong, Hong Kong, China.
出版信息
Spine (Phila Pa 1976). 2007 Dec 1;32(25):2820-6. doi: 10.1097/BRS.0b013e31815b75c5.
STUDY DESIGN
Biomechanical study into the association between genetic polymorphism in COL9A2 and mechanical properties of human nucleus pulposus.
OBJECTIVE
To examine whether there is an association between genetic polymorphism in a structural gene, and alterations in the mechanical properties of the intervertebral discs that may predispose to disc degeneration.
SUMMARY OF BACKGROUND DATA
Genetic studies have demonstrated that a polymorphism (Trp2 allele) in COL9A2 coding for alpha2 chain of collagen IX predisposes the individual to disc degeneration. The mechanism of this predisposition is not known.
METHODS
Blood and whole disc samples were retrieved from adolescents and young adults during scoliosis surgery, degenerated discs were retrieved from patients with back pain during anterior spinal fusion. Anulus fibrosus and nucleus pulposus from a set of the scoliosis discs were used to perform immunohistochemistry to demonstrate the presence of collagen IX in the scoliosis discs. For the remaining samples, DNA was extracted from blood to determine the Trp2 status by sequencing. Nondegenerated (Trp2-), nondegenerated (Trp2+), and degenerated (Trp2-) nucleus pulposus samples were tested in confined compression. Swelling pressure and compressive modulus were measured and compared between groups.
RESULTS
Positive staining of collagen IX was detected in both anulus fibrosus and nucleus pulposus sections confirming its presence in the scoliosis discs. The mean swelling pressure and compressive modulus values of 6 nondegenerated (Trp2+) samples (swelling pressure = 0.0019 MPa, compressive modulus = 0.97 MPa) were significantly lower (P < 0.05) than those of the 6 nondegenerated (Trp2-) samples (swelling pressure = 0.015 MPa; compressive modulus = 1.89 MPa).
CONCLUSION
This is the first study to demonstrate an association between the Trp2 allele and disc mechanics, thus relating genetic variations and debilitating mechanical alterations that may ultimately result in intervertebral disc degeneration.
研究设计
关于COL9A2基因多态性与人类髓核力学性能之间关联的生物力学研究。
目的
探讨结构基因中的基因多态性与椎间盘力学性能改变之间是否存在关联,而这种改变可能易导致椎间盘退变。
背景资料总结
基因研究表明,编码胶原蛋白IXα2链的COL9A2基因中的一种多态性(Trp2等位基因)使个体易患椎间盘退变。这种易感性的机制尚不清楚。
方法
在脊柱侧弯手术期间从青少年和年轻成年人中获取血液和整个椎间盘样本,从前路脊柱融合手术期间患有背痛的患者中获取退变椎间盘。使用一组脊柱侧弯椎间盘的纤维环和髓核进行免疫组织化学,以证明脊柱侧弯椎间盘中存在胶原蛋白IX。对于其余样本,从血液中提取DNA,通过测序确定Trp2状态。对未退变(Trp2-)、未退变(Trp2+)和退变(Trp2-)的髓核样本进行受限压缩测试。测量并比较各组之间的肿胀压力和压缩模量。
结果
在纤维环和髓核切片中均检测到胶原蛋白IX的阳性染色,证实其在脊柱侧弯椎间盘中存在。6个未退变(Trp2+)样本的平均肿胀压力和压缩模量值(肿胀压力 = 0.0019 MPa,压缩模量 = 0.97 MPa)显著低于(P < 0.05)6个未退变(Trp2-)样本(肿胀压力 = 0.015 MPa;压缩模量 = 1.89 MPa)。
结论
这是第一项证明Trp2等位基因与椎间盘力学之间存在关联的研究,从而将基因变异与可能最终导致椎间盘退变的衰弱性力学改变联系起来。
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