PiRNA hsa_piR_019914 Promoted Chondrocyte Anabolic Metabolism By Inhibiting LDHA-Dependent ROS Production.

IF 2.7 4区医学 Q1 ORTHOPEDICS

CARTILAGE Pub Date : 2024-09-01 Epub Date: 2023-07-11 DOI:10.1177/19476035231181094

YuXuan Gao, Wen Yan, Liangye Sun, XiaoLing Zhang

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引用次数: 0

Abstract

Objectives: Osteoarthritis (OA) is the most common joint disease. The occurrence and progression of OA are regulated by epigenetics. A large number of studies have shown the important regulatory role of noncoding RNAs in joint diseases. As the largest class of noncoding small RNAs, the importance of piRNAs in many diseases, especially cancer, has been increasingly recognized. However, few studies have explored the role of piRNAs in OA. Our study showed that hsa_piR_019914 decreased significantly in OA. This study aimed to demonstrate the role of hsa_piR_019914 as a potential biological target of OA in chondrocytes.

Design: The GEO database and bioinformatics analysis were used for a series of screenings, and the OA model using human articular chondrocytes (C28/I2 cells), SW1353 cells under inflammatory factor stimulation was used to determine that hsa_piR_019914 was significantly downregulated in OA. Overexpression or inhibition of hsa_piR_019914 in C28/I2 cells was achieved by transfecting mimics or inhibitors. The effect of hsa_piR_019914 on the biological function of chondrocytes was verified by qPCR, flow cytometry, and colony formation assays in vitro. The target gene of hsa_piR_019914, lactate dehydrogenase A (LDHA), was screened by small RNA sequencing and quantitative polymerase chain reaction (qPCR), LDHA was knocked out in C28/I2 cells by the transfection of siRNA LDHA, and the relationship between hsa_piR_019914, LDHA, and reactive oxygen species (ROS) production was verified by flow cytometry.

Results: The piRNA hsa-piR-019914 was significantly downregulated in osteoarthritis (OA). Hsa-piR-019914 reduced inflammation-mediated chondrocyte apoptosis and maintained cell proliferation and clone formation in vitro. Hsa-piR-019914 reduced the production of LDHA-dependent ROS through targeted regulation of LDHA expression, maintained chondrocyte-specific gene expression of ACAN and COL2, and inhibited the gene expression of MMP3 and MMP13.

Conclusions: Collectively, this study showed that hsa_piR_019914 was negatively correlated with the expression of LDHA, which mediates ROS production. Under the stimulation of inflammatory factors, overexpression of hsa_piR_019914 had a protective effect on chondrocytes in vitro, and the absence of hsa_piR_019914 exacerbated the negative effect of inflammation on chondrocytes. Studies on piRNAs provide new therapeutic interventions for OA.

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PiRNA hsa_piR_019914 通过抑制依赖于 LDHA 的 ROS 生成促进软骨细胞的合成代谢。

目的：骨关节炎（OA）是最常见的关节疾病。OA 的发生和发展受表观遗传学的调控。大量研究表明，非编码 RNA 在关节疾病中起着重要的调控作用。作为最大的一类非编码小 RNA，piRNA 在许多疾病（尤其是癌症）中的重要性已被越来越多的人所认识。然而，很少有研究探讨 piRNA 在 OA 中的作用。我们的研究表明，hsa_piR_019914在OA中显著下降。本研究旨在证明 hsa_piR_019914 在软骨细胞中作为 OA 潜在生物学靶点的作用：设计：利用 GEO 数据库和生物信息学分析进行一系列筛选，并利用炎症因子刺激下的人关节软骨细胞（C28/I2 细胞）、SW1353 细胞建立 OA 模型，确定 hsa_piR_019914 在 OA 中显著下调。通过转染模拟物或抑制剂，在 C28/I2 细胞中实现了 hsa_piR_019914 的过表达或抑制。通过 qPCR、流式细胞术和体外集落形成试验验证了 hsa_piR_019914 对软骨细胞生物学功能的影响。通过小 RNA 测序和定量聚合酶链反应（qPCR）筛选了 hsa_piR_019914 的靶基因乳酸脱氢酶 A（LDHA），通过转染 siRNA LDHA 敲除了 C28/I2 细胞中的 LDHA，并通过流式细胞术验证了 hsa_piR_019914、LDHA 和活性氧（ROS）产生之间的关系：结果：piRNA hsa-piR-019914在骨关节炎（OA）中显著下调。Hsa-piR-019914 可减少炎症介导的软骨细胞凋亡，维持体外细胞增殖和克隆形成。Hsa-piR-019914通过靶向调节LDHA的表达，减少了依赖于LDHA的ROS的产生，维持了ACAN和COL2的软骨细胞特异性基因表达，并抑制了MMP3和MMP13的基因表达：综上所述，本研究表明 hsa_piR_019914 与 LDHA 的表达呈负相关，而 LDHA 是 ROS 生成的介导因子。在炎症因子的刺激下，体外过表达 hsa_piR_019914 对软骨细胞有保护作用，而缺失 hsa_piR_019914 则会加剧炎症对软骨细胞的负面影响。对 piRNA 的研究为治疗 OA 提供了新的干预手段。

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来源期刊

CARTILAGE ORTHOPEDICS-

CiteScore

6.90

自引率

7.10%

发文量

期刊介绍： CARTILAGE publishes articles related to the musculoskeletal system with particular attention to cartilage repair, development, function, degeneration, transplantation, and rehabilitation. The journal is a forum for the exchange of ideas for the many types of researchers and clinicians involved in cartilage biology and repair. A primary objective of CARTILAGE is to foster the cross-fertilization of the findings between clinical and basic sciences throughout the various disciplines involved in cartilage repair. The journal publishes full length original manuscripts on all types of cartilage including articular, nasal, auricular, tracheal/bronchial, and intervertebral disc fibrocartilage. Manuscripts on clinical and laboratory research are welcome. Review articles, editorials, and letters are also encouraged. The ICRS envisages CARTILAGE as a forum for the exchange of knowledge among clinicians, scientists, patients, and researchers. The International Cartilage Repair Society (ICRS) is dedicated to promotion, encouragement, and distribution of fundamental and applied research of cartilage in order to permit a better knowledge of function and dysfunction of articular cartilage and its repair.