Yufan Bu , Chang Zhao , Yewen Qian , Lingxiang Chen , Kaiyuan Zhu , Han Wu , Guoqing Liao , Haosheng Li , Lishuai Mu , Yonghua Que , Deyang Wang , Yuhong Wei , Guangyao Li , Tingli Zhang , Jiangdong Ren , Guangxin Huang , Shu Hu
{"title":"CircPAFAH1B2通过结合分子伴侣ClpB诱导软骨细胞线粒体功能障碍,促进软骨退变","authors":"Yufan Bu , Chang Zhao , Yewen Qian , Lingxiang Chen , Kaiyuan Zhu , Han Wu , Guoqing Liao , Haosheng Li , Lishuai Mu , Yonghua Que , Deyang Wang , Yuhong Wei , Guangyao Li , Tingli Zhang , Jiangdong Ren , Guangxin Huang , Shu Hu","doi":"10.1016/j.jare.2025.04.024","DOIUrl":null,"url":null,"abstract":"<div><h3>Introduction</h3><div>This study explores the role of circPAFAH1B2 in osteoarthritis (OA) by investigating its influence on nuclear-mitochondrial communication, a largely unexplored area in OA progression. By uncovering how circPAFAH1B2 regulates mitochondrial function, the study aims to identify novel therapeutic targets for OA prevention and treatment.</div></div><div><h3>Objectives</h3><div>This study aimed to identify the regulatory role of circPAFAH1B2 in nuclear-mitochondrial communication within chondrocytes and cartilage homeostasis.</div></div><div><h3>Methods</h3><div>circPAFAH1B2 expression was determined via quantitative real-time polymerase chain reaction (qRT-PCR) and <em>in situ</em> hybridization. RNA pulldown experiments, proteomic analyses, and RNA immunoprecipitation were conducted to identify the downstream targets of circPAFAH1B2. Gain- and loss-of-function assays were performed to evaluate the regulatory roles of circPAFAH1B2 and the molecular chaperone caseinolytic peptidase B protein homolog (ClpB) in mitochondrial function and chondrocyte homeostasis in cartilage. Cross-linking immunoprecipitation and sequencing were performed to identify binding sites between circPAFAH1B2 and ClpB.</div></div><div><h3>Results</h3><div>circPAFAH1B2 was upregulated in OA and localized to the cytoplasm of chondrocytes. In vivo and in vitro experiments demonstrated that increased levels of circPAFAH1B2 induced mitochondrial dysfunction and promoted cartilage degeneration. Mechanistic investigations revealed that circPAFAH1B2 bound to and restricted the mitochondrial import of the molecular chaperone ClpB, which disaggregates misfolded mitochondrial proteins, stabilizes mitochondrial homeostasis, and maintains chondrocyte homeostasis. We characterized the binding sites of circPAFAH1B2 and ClpB, and demonstrated that mutation of these sites effectively suppressed circPAFAH1B2-mediated OA phenotypes.</div></div><div><h3>Conclusions</h3><div>Our findings indicate that circPAFAH1B2 acts as a molecular decoy blocking ClpB mitochondrial translocation, driving mitochondria-dependent cartilage degradation, which may provide novel therapeutic targets for OA.</div></div>","PeriodicalId":14952,"journal":{"name":"Journal of Advanced Research","volume":"75 ","pages":"Pages 455-471"},"PeriodicalIF":13.0000,"publicationDate":"2025-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"CircPAFAH1B2 induces chondrocytes mitochondrial dysfunction and promotes cartilage degeneration through binding molecular chaperone ClpB\",\"authors\":\"Yufan Bu , Chang Zhao , Yewen Qian , Lingxiang Chen , Kaiyuan Zhu , Han Wu , Guoqing Liao , Haosheng Li , Lishuai Mu , Yonghua Que , Deyang Wang , Yuhong Wei , Guangyao Li , Tingli Zhang , Jiangdong Ren , Guangxin Huang , Shu Hu\",\"doi\":\"10.1016/j.jare.2025.04.024\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><h3>Introduction</h3><div>This study explores the role of circPAFAH1B2 in osteoarthritis (OA) by investigating its influence on nuclear-mitochondrial communication, a largely unexplored area in OA progression. By uncovering how circPAFAH1B2 regulates mitochondrial function, the study aims to identify novel therapeutic targets for OA prevention and treatment.</div></div><div><h3>Objectives</h3><div>This study aimed to identify the regulatory role of circPAFAH1B2 in nuclear-mitochondrial communication within chondrocytes and cartilage homeostasis.</div></div><div><h3>Methods</h3><div>circPAFAH1B2 expression was determined via quantitative real-time polymerase chain reaction (qRT-PCR) and <em>in situ</em> hybridization. RNA pulldown experiments, proteomic analyses, and RNA immunoprecipitation were conducted to identify the downstream targets of circPAFAH1B2. Gain- and loss-of-function assays were performed to evaluate the regulatory roles of circPAFAH1B2 and the molecular chaperone caseinolytic peptidase B protein homolog (ClpB) in mitochondrial function and chondrocyte homeostasis in cartilage. Cross-linking immunoprecipitation and sequencing were performed to identify binding sites between circPAFAH1B2 and ClpB.</div></div><div><h3>Results</h3><div>circPAFAH1B2 was upregulated in OA and localized to the cytoplasm of chondrocytes. In vivo and in vitro experiments demonstrated that increased levels of circPAFAH1B2 induced mitochondrial dysfunction and promoted cartilage degeneration. Mechanistic investigations revealed that circPAFAH1B2 bound to and restricted the mitochondrial import of the molecular chaperone ClpB, which disaggregates misfolded mitochondrial proteins, stabilizes mitochondrial homeostasis, and maintains chondrocyte homeostasis. 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CircPAFAH1B2 induces chondrocytes mitochondrial dysfunction and promotes cartilage degeneration through binding molecular chaperone ClpB
Introduction
This study explores the role of circPAFAH1B2 in osteoarthritis (OA) by investigating its influence on nuclear-mitochondrial communication, a largely unexplored area in OA progression. By uncovering how circPAFAH1B2 regulates mitochondrial function, the study aims to identify novel therapeutic targets for OA prevention and treatment.
Objectives
This study aimed to identify the regulatory role of circPAFAH1B2 in nuclear-mitochondrial communication within chondrocytes and cartilage homeostasis.
Methods
circPAFAH1B2 expression was determined via quantitative real-time polymerase chain reaction (qRT-PCR) and in situ hybridization. RNA pulldown experiments, proteomic analyses, and RNA immunoprecipitation were conducted to identify the downstream targets of circPAFAH1B2. Gain- and loss-of-function assays were performed to evaluate the regulatory roles of circPAFAH1B2 and the molecular chaperone caseinolytic peptidase B protein homolog (ClpB) in mitochondrial function and chondrocyte homeostasis in cartilage. Cross-linking immunoprecipitation and sequencing were performed to identify binding sites between circPAFAH1B2 and ClpB.
Results
circPAFAH1B2 was upregulated in OA and localized to the cytoplasm of chondrocytes. In vivo and in vitro experiments demonstrated that increased levels of circPAFAH1B2 induced mitochondrial dysfunction and promoted cartilage degeneration. Mechanistic investigations revealed that circPAFAH1B2 bound to and restricted the mitochondrial import of the molecular chaperone ClpB, which disaggregates misfolded mitochondrial proteins, stabilizes mitochondrial homeostasis, and maintains chondrocyte homeostasis. We characterized the binding sites of circPAFAH1B2 and ClpB, and demonstrated that mutation of these sites effectively suppressed circPAFAH1B2-mediated OA phenotypes.
Conclusions
Our findings indicate that circPAFAH1B2 acts as a molecular decoy blocking ClpB mitochondrial translocation, driving mitochondria-dependent cartilage degradation, which may provide novel therapeutic targets for OA.
期刊介绍:
Journal of Advanced Research (J. Adv. Res.) is an applied/natural sciences, peer-reviewed journal that focuses on interdisciplinary research. The journal aims to contribute to applied research and knowledge worldwide through the publication of original and high-quality research articles in the fields of Medicine, Pharmaceutical Sciences, Dentistry, Physical Therapy, Veterinary Medicine, and Basic and Biological Sciences.
The following abstracting and indexing services cover the Journal of Advanced Research: PubMed/Medline, Essential Science Indicators, Web of Science, Scopus, PubMed Central, PubMed, Science Citation Index Expanded, Directory of Open Access Journals (DOAJ), and INSPEC.
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