转录分析揭示 FHL1/JAK-STAT 通路参与了小鼠急性软骨损伤的过程

IF 2.7 4区医学 Q1 ORTHOPEDICS

CARTILAGE Pub Date : 2025-03-21 DOI:10.1177/19476035251323601

Jian Lu, Zhenhua Shi, Lindan Geng, Dong Ren, Haowei Hou, Guowei Ren, Shuangquan Yao, Pengcheng Wang

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The groove model exhibited 255 DEGs (13 up-regulated, 23 down-regulated), with Gm14648 and Gm35438 showing the (222 up-regulated, 33 down-regulated). Six overlapping genes were identified between the non-invasive and groove models, including up-regulated genes (Igfn1, Muc6, Hmox1) and down-regulated genes (Pthlh, Cyp1a1, Gm13490), validated by RT-qPCR. Gene ontology (GO) analysis highlighted involvement in environmental information processing and cartilage organ system function, while Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis implicated the JAK-STAT signaling pathway. RT-qPCR and immunohistochemistry confirmed downregulation of Fhl1 in the non-invasive model, supported by Western blotting of p-JAK2/t-JAK2 levels.ConclusionsThis study identifies DEGs (13 up-regulated, 23 down-regulated), with Gm14648 and Gm35438 showing the in acute cartilage injury, suggesting potential therapeutic targets. 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Transcriptional Analysis Reveals That the FHL1/JAK-STAT Pathway is Involved in Acute Cartilage Injury in Mice.

ObjectiveThis study aimed to identify genes and signaling pathways associated with acute cartilage injury using RNA sequencing (RNA-seq).MethodsKnee joint cartilage samples were collected from normal mice and 2 models of acute cartilage injury (non-invasive and groove models) within an 8-hour time limit. RNA-seq revealed differential gene expression between the injury models and controls, with subsequent validation using real-time quantitative polymerase chain reaction (RT-qPCR) for 9 representative genes.ResultsCompared to controls, the non-invasive model showed 36 differentially expressed genes (DEGs) (13 up-regulated, 23 down-regulated), with Gm14648 and Gm35438 showing the most significant upregulation and downregulation, respectively. The groove model exhibited 255 DEGs (13 up-regulated, 23 down-regulated), with Gm14648 and Gm35438 showing the (222 up-regulated, 33 down-regulated). Six overlapping genes were identified between the non-invasive and groove models, including up-regulated genes (Igfn1, Muc6, Hmox1) and down-regulated genes (Pthlh, Cyp1a1, Gm13490), validated by RT-qPCR. Gene ontology (GO) analysis highlighted involvement in environmental information processing and cartilage organ system function, while Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis implicated the JAK-STAT signaling pathway. RT-qPCR and immunohistochemistry confirmed downregulation of Fhl1 in the non-invasive model, supported by Western blotting of p-JAK2/t-JAK2 levels.ConclusionsThis study identifies DEGs (13 up-regulated, 23 down-regulated), with Gm14648 and Gm35438 showing the in acute cartilage injury, suggesting potential therapeutic targets. The role of Fhl1 in cartilage protection via the JAK-STAT pathway warrants further investigation in acute cartilage injury research.

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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.