Tenascin C缺失会影响肩袖修复后的肌腱愈合和功能恢复

ROBERT TASHJIAN, Jared Zitnay, Nikolas Kazmers, Shivakumar Veerabhadraiah, Antonio Zelada, Matthew Honeggar, Matthew Smith, Peter Chalmers, Heath Henninger, Michael Jurynec
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摘要

影响肩袖修复术(RCR)后愈合的生物学因素尚不十分清楚。细胞外基质蛋白Tenascin C(TNC)的基因变异与肌腱愈合受损有关,它在损伤后的肩袖肌腱组织中表达,表明它可能在修复过程中发挥作用。本研究的目的是在小鼠模型中确定 TNC 对 RCR 后肌腱愈合的作用。对野生型(WT-RCR)、Tenascin C无效型(Tnc--RCR)和Tnc杂合型(Tnc+/-RCR)小鼠的左肩冈上肌腱进行横断和修复。对照组包括 WT-RCR、Tnc-RCR、Tnc+/-RCR 小鼠未手术的对侧肩部,以及年龄和基因型匹配的对照组未手术的肩部。我们进行了组织学、活动测试、RNA-seq 和生物力学分析。在肩袖修复术后8周,Tnc-和Tnc+/-小鼠在肩袖修复后出现了严重的骨和肌腱缺损。与WT-RCR相比,Tnc--RCR小鼠在肩袖修复后活动减少,包括车轮旋转次数、车轮持续时间和车轮发作平均速度减少。RCR后Tnc的缺失改变了肩部的基因表达,包括性激素和WNT通路的上调以及炎症和细胞周期通路的下调。Tnc-小鼠修复后的生物力学特性与WT小鼠相似。还需要进一步研究,以评估Tnc的组织特异性改变、Tnc与性激素和炎症途径的相互作用,以及在TNC功能降低的情况下改善内骨愈合的可能佐剂。
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Tenascin C Deletion Impairs Tendon Healing and Functional Recovery After Rotator Cuff Repair
The biological factors that affect healing after rotator cuff repair (RCR) are not well understood. Genetic variants in the extracellular matrix protein Tenascin C (TNC) are associated with impaired tendon healing and it is expressed in rotator cuff tendon tissue after injury, suggesting it may have a role in the repair process. The purpose of the current study was to determine the role of TNC on tendon healing after RCR in a murine model. The supraspinatus tendon was transected and repaired on the left shoulder of Wild-Type (WT-RCR), Tenascin C null (Tnc--RCR) and Tnc heterozygous (Tnc+/--RCR) mice. Controls included the unoperated, contralateral shoulder of WT-RCR, Tnc-RCR, Tnc+/--RCR mice and unoperated shoulders from age and genotype matched controls. We performed histologic, activity testing, RNA-seq, and biomechanical analyses. At 8-weeks post-RCR, Tnc- and Tnc+/- mice had severe bone and tendon defects following rotator cuff repair. Tnc--RCR mice had reduced activity after rotator cuff repair including reduced wheel rotations, wheel duration, and wheel episode average velocity compared with WT-RCR. Loss of Tnc following RCR altered gene expression in the shoulder, including upregulation of sex hormone and WNT pathways and a downregulation of inflammation and cell cycle pathways. Tnc- mice had similar biomechanical properties after repair as WT. Further research is required to evaluate tissue specific alterations of Tnc, the interactions of Tnc and sex hormone and inflammation pathways as well as possible adjuvants to improve enthesis healing in the setting of reduced TNC function.
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