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Smad8/BMP2 工程化间充质干细胞诱导跟腱生物力学性能的快速恢复。

Smad8/BMP2-engineered mesenchymal stem cells induce accelerated recovery of the biomechanical properties of the Achilles tendon.

机构信息

Skeletal Biotech Laboratory, The Hebrew University - Hadassah Faculty of Dental Medicine, Ein Kerem, Jerusalem, Israel.

出版信息

J Orthop Res. 2012 Dec;30(12):1932-9. doi: 10.1002/jor.22167. Epub 2012 Jun 13.

DOI:10.1002/jor.22167
PMID:22696396
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3479351/
Abstract

Tendon tissue regeneration is an important goal for orthopedic medicine. We hypothesized that implantation of Smad8/BMP2-engineered MSCs in a full-thickness defect of the Achilles tendon (AT) would induce regeneration of tissue with improved biomechanical properties. A 2 mm defect was created in the distal region of murine ATs. The injured tendons were then sutured together or given implants of genetically engineered MSCs (GE group), non-engineered MSCs (CH3 group), or fibrin gel containing no cells (FG group). Three weeks later the mice were killed, and their healing tendons were excised and processed for histological or biomechanical analysis. A biomechanical analysis showed that tendons that received implants of genetically engineered MSCs had the highest effective stiffness (>70% greater than natural healing, p < 0.001) and elastic modulus. There were no significant differences in either ultimate load or maximum stress among the treatment groups. Histological analysis revealed a tendon-like structure with elongated cells mainly in the GE group. ATs that had been implanted with Smad8/BMP2-engineered stem cells displayed a better material distribution and functional recovery than control groups. While additional study is required to determine long-term effects of GE MSCs on tendon healing, we conclude that genetically engineered MSCs may be a promising therapeutic tool for accelerating short-term functional recovery in the treatment of tendon injuries.

摘要

肌腱组织再生是矫形医学的一个重要目标。我们假设在跟腱(AT)全层缺损处植入 Smad8/BMP2 工程 MSC 会诱导具有改善的生物力学特性的组织再生。在鼠 AT 的远端区域创建 2 毫米的缺损。然后将受伤的肌腱缝合在一起,或植入基因工程 MSC(GE 组)、非工程 MSC(CH3 组)或不含细胞的纤维蛋白凝胶(FG 组)。3 周后处死小鼠,取出其愈合的肌腱进行组织学或生物力学分析。生物力学分析表明,接受基因工程 MSC 植入的肌腱具有最高的有效刚度(比自然愈合高>70%,p<0.001)和弹性模量。在处理组之间,最终载荷或最大应力均无显着差异。组织学分析显示在 GE 组中主要有伸长的细胞的肌腱样结构。与对照组相比,植入 Smad8/BMP2 工程干细胞的 AT 显示出更好的材料分布和功能恢复。虽然需要进一步研究来确定 GE MSC 对肌腱愈合的长期影响,但我们得出结论,基因工程 MSC 可能是加速肌腱损伤治疗中短期功能恢复的有前途的治疗工具。

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本文引用的文献

1
Mesenchymal stem cell-dependent formation of heterotopic tendon-bone insertions (osteotendinous junctions).间质干细胞依赖性形成异位肌腱-骨插入(骨腱结合)。
Stem Cells. 2010 Sep;28(9):1590-601. doi: 10.1002/stem.487.
2
Repair of full-thickness tendon injury using connective tissue progenitors efficiently derived from human embryonic stem cells and fetal tissues.利用源自人胚胎干细胞和胎儿组织的结缔组织祖细胞高效修复全层肌腱损伤。
Tissue Eng Part A. 2010 Oct;16(10):3119-37. doi: 10.1089/ten.TEA.2009.0716.
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Collagen fibril morphology and mechanical properties of the Achilles tendon in two inbred mouse strains.两种近交系小鼠跟腱胶原纤维形态及力学性能
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Evidence against proteoglycan mediated collagen fibril load transmission and dynamic viscoelasticity in tendon.证据表明蛋白聚糖不能传递胶原纤维的负载,也不能改变肌腱的动态粘弹性。
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In vitro and in vivo bioluminescent quantification of viable stem cells in engineered constructs.在体外用和体内生物发光定量工程化构建中的活干细胞。
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Tibial fixation of anterior cruciate ligament allograft tendons: comparison of 1-, 2-, and 4-stranded constructs.前交叉韧带同种异体肌腱的胫骨固定:单股、双股和四股结构的比较。
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Local strain measurement reveals a varied regional dependence of tensile tendon mechanics on glycosaminoglycan content.局部应变测量揭示了拉伸肌腱力学对糖胺聚糖含量的不同区域依赖性。
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Mesenchymal stem cells and insulin-like growth factor-I gene-enhanced mesenchymal stem cells improve structural aspects of healing in equine flexor digitorum superficialis tendons.间充质干细胞和胰岛素样生长因子-I基因增强的间充质干细胞可改善马浅屈肌腱愈合的结构方面。
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Expression of Brachyury in mesenchymal progenitor cells leads to cartilage-like tissue that is resistant to the destructive effect of rheumatoid arthritis synovial fibroblasts.间充质祖细胞中Brachyury的表达会导致形成类似软骨的组织,该组织对类风湿性关节炎滑膜成纤维细胞的破坏作用具有抗性。
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Bone marrow stromal cells in a liquid fibrin matrix improve the healing process of patellar tendon window defects.处于液体纤维蛋白基质中的骨髓基质细胞可改善髌腱窗缺损的愈合过程。
Tissue Eng Part A. 2009 May;15(5):1019-30. doi: 10.1089/ten.tea.2008.0046.