成骨基因表达与战伤异位骨化的发展相关。
Osteogenic gene expression correlates with development of heterotopic ossification in war wounds.
机构信息
Regenerative Medicine Department, Naval Medical Research Center, 503 Robert Grant Avenue, Silver Spring, MD, 20910, USA.
出版信息
Clin Orthop Relat Res. 2014 Feb;472(2):396-404. doi: 10.1007/s11999-013-3325-8. Epub 2013 Oct 18.
BACKGROUND
Heterotopic ossification (HO) is a frequent complication of modern wartime extremity injuries. The biological mechanisms responsible for the development of HO in traumatic wounds remain elusive.
QUESTION/PURPOSES: The aims of our study were to (1) characterize the expression profile of osteogenesis-related gene transcripts in traumatic war wounds in which HO developed; and (2) determine whether expression at the mRNA level correlated with functional protein expression and HO formation.
METHODS
Biopsy specimens from 54 high-energy penetrating extremity wounds obtained at the initial and final surgical débridements were evaluated. The levels of selected osteogenic-related gene transcripts from RNA extracts were assessed by quantitative reverse transcriptase-polymerase chain reaction (RT-PCR) analysis. As a result of its key role in osteogenesis, the concentration of BMP-2 in the effluent of 29 wounds also was determined.
RESULTS
The transcripts of 13 genes (ALPL [p = 0.006], BMP-2 [p < 0.001], BMP-3 [p = 0.06], COL2A1 [p < 0.001], COLL10A1 [p < 0.001], COL11A1 [p = 0.006], COMP [p = 0.02], CSF2 [p = 0.003], CSF3 [p = 0.012], MMP8 [p < 0.001], MMP9 [p = 0.014], SMAD1 [p = 0.024], and VEGFA [p = 0.017]) were upregulated greater than twofold in wounds in which HO developed compared with wounds in which it did not develop. Gene transcript expression of BMP-2 also correlated directly with functional protein expression in the wounds that formed HO (p = 0.029).
CONCLUSIONS
Important differences exist in the osteogenic gene expression profile of wounds in which HO developed compared with wounds in which it did not develop. The upregulation of multiple osteogenesis-related gene transcripts indicates the presence of a proosteogenic environment necessary for ectopic bone formation in traumatic wounds.
CLINICAL RELEVANCE
Understanding the osteogenic environment associated with war wounds may allow for the development of novel therapeutic strategies for HO.
背景
异位骨化(HO)是现代战争中四肢外伤的常见并发症。导致创伤后 HO 形成的生物学机制仍不清楚。
问题/目的:本研究的目的是:(1)描述 HO 形成的创伤性战争伤口中骨发生相关基因转录本的表达谱;(2)确定 mRNA 水平的表达是否与功能蛋白表达和 HO 形成相关。
方法
评估了初始和最终清创时取自 54 例高能穿透性四肢伤口的活检标本。通过定量逆转录-聚合酶链反应(RT-PCR)分析从 RNA 提取物中评估选定的成骨相关基因转录本的水平。由于其在成骨中的关键作用,还确定了 29 个伤口流出物中 BMP-2 的浓度。
结果
13 个基因的转录本(ALPL[p=0.006]、BMP-2[p<0.001]、BMP-3[p=0.06]、COL2A1[p<0.001]、COLL10A1[p<0.001]、COL11A1[p=0.006]、COMP[p=0.02]、CSF2[p=0.003]、CSF3[p=0.012]、MMP8[p<0.001]、MMP9[p=0.014]、SMAD1[p=0.024]和 VEGFA[p=0.017])在发生 HO 的伤口中上调超过两倍,与未发生 HO 的伤口相比。在形成 HO 的伤口中,BMP-2 的基因转录本表达与伤口中功能蛋白表达直接相关(p=0.029)。
结论
HO 形成的伤口与未形成 HO 的伤口之间的成骨基因表达谱存在重要差异。多个成骨相关基因转录本的上调表明存在促进创伤性伤口异位骨形成的促骨形成环境。
临床相关性
了解与战争创伤相关的成骨环境可能为 HO 的新治疗策略的发展提供依据。
Zotero 插件