NiTi Alloys Exposure Alters miR-124 Expression in Physiological and Osteoarthritic Osteoblasts.

IF 0.4 4区医学 Q4 ORTHOPEDICS

Acta chirurgiae orthopaedicae et traumatologiae Cechoslovaca Pub Date : 2022-10-15 DOI:10.55095/achot2022/059

M. Štefančík, L. Válková, J. Veverková, A. Weiser, A. Dlouhý, L. Ryba, M. Pávková Goldbergová

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引用次数: 0

Abstract

PURPOSE OF THE STUDY Nitinol (NiTi) is a biomaterial widely used in medicine based on super-elastic and shape memory properties. miR-124 has a key role in inflammatory process, osteoblasts differentiation, and mineralization. The aim of study was evaluating the differences in gene expression of miR-124 of human physiological osteoblasts (HOB) and human osteoarthritic osteoblasts (OSBA) as a response to NiTi alloy in different heat treatments. MATERIAL AND METHODS The cells were cultivated with NiTi discs with/without addition of bacterial lipopolysaccharide (LPS) for 72 hours. MicroRNAs were isolated, underwent reverse transcription and were analyzed by RT-PCR. RESULTS As a response to LPS, HOB overexpressed miR-124, while in OSBA expression change did not occur. Overexpression was also observed in both cell lines as a response to hydrogen and helium treated NiTi discs. HOB expressed significantly higher amount of miR-124 than OSBA as a response to hydrogen treatment of NiTi discs. In addition, hydrogen treatment caused significantly higher expression in HOB than LPS. The combination of NiTi disc and LPS treatment in HOB didn't cause any expression changes. Comparing to LPS-only treatment, the expression in HOB with combination of LPS and alloy was significantly lower. In OSBA, the expression was increased by the combination of LPS and hydrogen disc, in case of helium disc, the expression was decreased. CONCLUSIONS In conclusion, human physiological and osteoarthritic osteoblasts respond to NiTi alloy with both surface (hydrogen and helium atmosphere) treatment by overexpression of miR-124. The effect of LPS as inflammatory modulator suggests the presence of an "anti-inflammatory preconditioning" in osteoarthritic osteoblasts, as physiological osteoblasts overexpression was significantly higher. Key words: nitinol, osteoblast, miR-124, lipopolysaccharide.

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NiTi合金暴露改变miR-124在生理性和骨关节炎成骨细胞中的表达。

镍钛诺(NiTi)是一种基于超弹性和形状记忆特性的生物材料，广泛应用于医学。miR-124在炎症过程、成骨细胞分化和矿化中起关键作用。本研究的目的是评估人生成骨细胞(HOB)和人骨关节炎成骨细胞(OSBA)在不同热处理条件下对NiTi合金的miR-124基因表达差异。材料与方法将细胞用添加/不添加细菌脂多糖(LPS)的镍钛培养皿培养72小时。分离microrna，逆转录，RT-PCR分析。结果:作为对LPS的反应，HOB过表达miR-124，而在OSBA中未发生表达变化。在两种细胞系中也观察到过表达，作为对氢和氦处理的NiTi盘的反应。作为对NiTi椎间盘氢处理的反应，HOB表达的miR-124量明显高于OSBA。此外，氢处理导致HOB的表达显著高于LPS。在HOB中，NiTi椎间盘与LPS联合处理未引起任何表达变化。与单纯LPS处理相比，LPS与合金联合处理的HOB中表达量显著降低。在OSBA中，LPS与氢盘联合使表达量增加，氦盘联合使表达量减少。总之，人生理性和骨关节炎成骨细胞对表面(氢和氦气氛)处理的NiTi合金都有过表达miR-124的反应。LPS作为炎症调节剂的作用表明骨关节炎成骨细胞中存在“抗炎预处理”，因为生理性成骨细胞过表达明显升高。关键词:镍钛醇，成骨细胞，miR-124，脂多糖。

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来源期刊

Acta chirurgiae orthopaedicae et traumatologiae Cechoslovaca ORTHOPEDICS-

CiteScore

0.70

自引率

25.00%

发文量

期刊介绍： Editorial Board accepts for publication articles, reports from congresses, fellowships, book reviews, reports concerning activities of orthopaedic and other relating specialised societies, reports on anniversaries of outstanding personalities in orthopaedics and announcements of congresses and symposia being prepared. Articles include original papers, case reports and current concepts reviews and recently also instructional lectures.