Mechanosensitive lncRNA H19 promotes chondrocyte autophagy, but not pyroptosis, by targeting miR-148a in post-traumatic osteoarthritis

IF 5.9 3区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Non-coding RNA Research Pub Date : 2024-07-31 DOI:10.1016/j.ncrna.2024.07.005

Xuchang Zhou , Hong Cao , Tao Liao , Weizhong Hua , Ruobing Zhao , Dongxue Wang , Huili Deng , Yajing Yang , ShengYao Liu , Guoxin Ni

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引用次数: 0

Abstract

Objective

Investigating whether mechanosensitive lncRNA H19 can directly target miR-148a to alleviate cartilage damage in post-traumatic osteoarthritis (PTOA).

Methods

Thirty-two female rats were randomly divided into four groups: Sham-operated group (Sham group, n = 8), treadmill running group (R group, n = 8), anterior cruciate ligament transection (ACLT) group (ACLT group, n = 8), and ACLT + treadmill running group (ACLT + R group, n = 8). Histological evaluation was performed to observe the pathological changes in the cartilage of the rat knee. Micro-CT was performed to detect the bone morphological changes in the subchondral bone. RT-qPCR and Western-Blot were performed to detect changes in mRNA and protein levels of metabolic and inflammatory factors as well as changes in the expression of lncRNA H19 and miR-148a in cartilage. The Flexcell 5000™ Tension System was used to further validate that lncRNA H19 has mechanosensitivity in vitro. Finally, cell transfection techniques were used to knock down the expression of lncRNA H19 in chondrocytes to validate the regulatory role of lncRNA H19/miR-148a in cartilage metabolism.

Results

ACLT combined with treadmill running aggravated the abnormal hyperplasia of subchondral bone in the lateral tibial plateau of the rat knee joint, disturbed the balance of cartilage metabolism, induced cartilage inflammatory response and chondrocyte pyroptosis, which eventually led to cartilage damage and PTOA. Importantly, we found that the expression of lncRNA H19 was significantly downregulated in the cartilage of the ACLT + R group. Bioinformatics analysis revealed that miR-148a may be a direct target of lncRNA H19. Subsequently, we focused on the mechanosensitive of lncRNA H19. Subsequently, moderate-intensity mechanical tension stress reversed the expression of lncRNA H19 and autophagy-related factors in inflammatory chondrocytes, while miR-148a showed an opposite expression trend, demonstrating that mechanosensitive lncRNA H19 may be involved in regulating the chondrocyte inflammatory response by targeting miR-148a and activating autophagy. Cell transfection experiments revealed that lncRNA H19 knockdown upregulated miR-148a expression and significantly inhibited the autophagy level of chondrocytes without significant alteration of chondrocyte pyroptosis, which in turn exacerbated the inflammatory response of chondrocytes.

Conclusions

Mechanosensitive lncRNA H19 can promote chondrocyte autophagy rather than pyroptosis by targeting miR-148a, thus alleviating cartilage damage in PTOA. LncRNA H19 may be a potential therapeutic target for PTOA.

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在创伤后骨关节炎中，机械敏感性lncRNA H19通过靶向miR-148a促进软骨细胞自噬，而不是热噬

方法将32只雌性大鼠随机分为4组：方法将 32 只雌性大鼠随机分为四组：假手术组（Sham 组，n = 8）、跑步机跑步组（R 组，n = 8）、前交叉韧带横断（ACLT）组（ACLT 组，n = 8）和 ACLT + 跑步机跑步组（ACLT + R 组，n = 8）。通过组织学评估观察大鼠膝关节软骨的病理变化。显微 CT 检测软骨下骨的骨形态变化。通过 RT-qPCR 和 Western-Blot 检测软骨中代谢和炎症因子 mRNA 和蛋白质水平的变化，以及 lncRNA H19 和 miR-148a 的表达变化。使用Flexcell 5000™张力系统进一步验证了lncRNA H19在体外具有机械敏感性。最后，利用细胞转染技术敲除lncRNA H19在软骨细胞中的表达，以验证lncRNA H19/miR-148a在软骨代谢中的调控作用。结果 ACLT联合跑步加重了大鼠膝关节外侧胫骨平台软骨下骨的异常增生，扰乱了软骨代谢的平衡，诱导了软骨炎症反应和软骨细胞热解，最终导致软骨损伤和PTOA。重要的是，我们发现在 ACLT + R 组的软骨中，lncRNA H19 的表达明显下调。生物信息学分析显示，miR-148a可能是lncRNA H19的直接靶标。随后，我们重点研究了lncRNA H19的机械敏感性。随后，中等强度的机械张力应激逆转了炎性软骨细胞中lncRNA H19和自噬相关因子的表达，而miR-148a则呈现相反的表达趋势，这表明机械敏感性lncRNA H19可能通过靶向miR-148a和激活自噬参与调控软骨细胞的炎症反应。结论机械敏感性lncRNA H19可通过靶向miR-148a促进软骨细胞自噬而非自噬，从而减轻PTOA中的软骨损伤。LncRNA H19可能是PTOA的潜在治疗靶点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Non-coding RNA Research Medicine-Biochemistry (medical)

CiteScore

7.70

自引率

6.00%

发文量

审稿时长

49 days

期刊介绍： Non-coding RNA Research aims to publish high quality research and review articles on the mechanistic role of non-coding RNAs in all human diseases. This interdisciplinary journal will welcome research dealing with all aspects of non-coding RNAs-their biogenesis, regulation and role in disease progression. The focus of this journal will be to publish translational studies as well as well-designed basic studies with translational and clinical implications. The non-coding RNAs of particular interest will be microRNAs (miRNAs), small interfering RNAs (siRNAs), small nucleolar RNAs (snoRNAs), U-RNAs/small nuclear RNAs (snRNAs), exosomal/extracellular RNAs (exRNAs), Piwi-interacting RNAs (piRNAs) and long non-coding RNAs. Topics of interest will include, but not limited to: -Regulation of non-coding RNAs -Targets and regulatory functions of non-coding RNAs -Epigenetics and non-coding RNAs -Biological functions of non-coding RNAs -Non-coding RNAs as biomarkers -Non-coding RNA-based therapeutics -Prognostic value of non-coding RNAs -Pharmacological studies involving non-coding RNAs -Population based and epidemiological studies -Gene expression / proteomics / computational / pathway analysis-based studies on non-coding RNAs with functional validation -Novel strategies to manipulate non-coding RNAs expression and function -Clinical studies on evaluation of non-coding RNAs The journal will strive to disseminate cutting edge research, showcasing the ever-evolving importance of non-coding RNAs in modern day research and medicine.