Effects of shear stress on mesenchymal stem cells of patients with osteogenesis imperfecta.

IF 2.3 3区 医学 Q2 ORTHOPEDICS Orthopaedics & Traumatology-Surgery & Research Pub Date : 2024-11-22 DOI:10.1016/j.otsr.2024.104067
Agathe Bedoux, Pauline Lallemant-Dudek, Morad Bensidhoum, Esther Potier, Nathanael Larochette, Pierre Mary, Raphaël Vialle, Thierry Hoc, Manon Bachy
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引用次数: 0

Abstract

Introduction: Osteogenesis imperfecta (OI) is a rare genetic bone disorder, mainly caused by autosomal dominant mutations of the COL1A1 or COL1A2 genes that encode the alpha chains of type 1 collagen. In severe forms and in nonambulatory patients, for whom physical exercise is difficult, exposing the bone to mechanical stimuli by promoting movement, especially with physiotherapy and mobility aids, is an essential part of clinical practice. However, the effects of mechanical stimulation at the cellular level remain unknown for this disease.

Hypothesis: The study hypothesis was that human mesenchymal stem cells (hMSCs) from patients with OI were as sensitive to mechanical stimulation as those from healthy patients, validating the current clinical practice.

Materials and methods: hMSCs were harvested from 3 healthy control subjects and 3 patients with OI during an elective osteotomy of a long bone of the lower limb. The healthy and OI hMSCs were then exposed to mechanical stimuli, such as intermittent shear stress of 0, 0.7, 1.5, and 3 Pascal (Pa) at a frequency of 2.8 Hertz (Hz) for 30 minutes using a commercial ibidi system. The immediate early gene expression of themechanosensitive prostaglandin-endoperoxide synthase 2 (PTGS2) was examined 1 hour after stimulation to determine the best level of mechanical stimulation. The expression of 7 other mechanosensitive genes was also examined for this level of mechanical stimulation after applying intermittent shear stress at 1.5 Pa.

Results: In all hMSCs, mechanical stimulation induced PTGS2 gene overexpression with a maximum after exposure to intermittent shear stress of 1.5 Pa and without significant differences between OI and healthy donors. Except for fibroblast growth factor 2, gene expression in OI donors was found to be significantly different from that in hMSCs not exposed to shear stress. Moreover, the relative expression associated with mechanical stimulation was not significantly different between healthy and OI donors for most other genes.

Discussion: This is the first study to demonstrate that hMSCs from patients with OI are as sensitive to mechanical shear stress as those from healthy donors. The mechanical stress that resulted in the greatest change in the expression of PTGS2 in patients with OI was similar to that previously reported in the literature for healthy subjects. These findings are an important step toward further fundamental research aimed at confirming the effects of mechanical stress at the cellular level over the long term and, more importantly, toward developing clinical protocols for delivering mechanical stimuli to these patients.

Level of evidence: III; comparative case-control study.

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剪切应力对成骨不全症患者间充质干细胞的影响
简介成骨不全症(OI)是一种罕见的遗传性骨骼疾病,主要由编码 1 型胶原蛋白α链的 COL1A1 或 COL1A2 基因的常染色体显性突变引起。对于严重的骨质疏松症患者和行动不便的患者(他们很难进行体育锻炼),通过促进运动(尤其是物理治疗和移动辅助工具)使骨骼受到机械刺激是临床实践中不可或缺的一部分。然而,机械刺激在细胞水平上对这种疾病的影响仍然未知:研究假设:OI患者的人间充质干细胞(hMSCs)与健康患者的人间充质干细胞一样对机械刺激敏感,从而验证了当前的临床实践。材料与方法:在下肢长骨选择性截骨术中,从3名健康对照组受试者和3名OI患者身上采集了人间充质干细胞。然后使用商用 ibidi 系统将健康和 OI hMSCs 暴露于 0、0.7、1.5 和 3 帕斯卡(Pa)、频率为 2.8 赫兹(Hz)的间歇剪切应力等机械刺激下 30 分钟。在刺激 1 小时后检测主题机械敏感性前列腺素内过氧化物合成酶 2(PTGS2)的早期基因表达,以确定最佳机械刺激水平。在施加 1.5 Pa 的间歇剪切应力后,还检测了该机械刺激水平下其他 7 个机械敏感基因的表达:结果:在所有 hMSCs 中,机械刺激都会诱导 PTGS2 基因的过表达,在暴露于 1.5 Pa 的间歇剪切应力后,PTGS2 基因的表达达到最大值,而且 OI 供体和健康供体之间没有显著差异。除成纤维细胞生长因子 2 外,OI 供体中的基因表达与未暴露于剪切应力的 hMSCs 中的基因表达有显著差异。此外,与机械刺激相关的大多数其他基因的相对表达在健康供体和 OI 供体之间没有显著差异:讨论:这是第一项证明OI患者的hMSCs与健康供体的hMSCs一样对机械剪切应力敏感的研究。导致 OI 患者 PTGS2 表达变化最大的机械应力与之前文献中报道的健康人的应力相似。这些发现为进一步开展基础研究迈出了重要一步,这些研究旨在确认机械应力对细胞水平的长期影响,更重要的是,为这些患者制定提供机械刺激的临床方案:证据等级:III;病例对照比较研究。
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来源期刊
CiteScore
5.10
自引率
26.10%
发文量
329
审稿时长
12.5 weeks
期刊介绍: Orthopaedics & Traumatology: Surgery & Research (OTSR) publishes original scientific work in English related to all domains of orthopaedics. Original articles, Reviews, Technical notes and Concise follow-up of a former OTSR study are published in English in electronic form only and indexed in the main international databases.
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