Inhibition of CDK9 prevents mechanical injury-induced inflammation, apoptosis and matrix degradation in cartilage explants
Autor: | Z Hu, JHN Yik, DD Cissell, PV Michelier, KA Athanasiou, DR Haudenschild |
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Jazyk: | angličtina |
Rok vydání: | 2012 |
Předmět: |
which promote chondrocyte apoptosis and degrade cartilage to potentiate PTOA development. Recent studies show that the rate-limiting step for transcriptional activation of injury response genes is controlled by cyclin-dependent kinase 9 (CDK9)
and thus it is an attractive target for limiting the injury response. Here we determined the effects of CDK9 inhibition in suppressing the injury response in mechanically-injured cartilage explants. Bovine cartilage explants were injured by a single compressive load of 30 % strain at 100 %/s and then treated with the CDK9 inhibitor Flavopiridol. To assess acute injury responses we measured the mRNA expression of pro-inflammatory cytokines catabolic enzymes and apoptotic genes by RT-PCR and chondrocyte viability and apoptosis by TUNEL staining. For long-term outcome cartilage matrix degradation was assessed by soluble glycosaminoglycan release and by determining the mechanical properties with instantaneous and relaxation moduli. Our data showed CDK9 inhibitor markedly reduced injury-induced inflammatory cytokine and catabolic gene expression. CDK9 inhibitor also attenuated chondrocyte apoptosis and reduced cartilage matrix degradation. Lastly the mechanical properties of the injured explants were preserved by CDK9 inhibitor. Our results provide a temporal profile connecting the chain of events from mechanical impact acute injury responses to the subsequent induction of chondrocyte apoptosis and cartilage matrix deterioration. Thus CDK9 Flavopiridol inflammatory cytokines chondrocytes Diseases of the musculoskeletal system RC925-935 Orthopedic surgery RD701-811 |
Zdroj: | European Cells & Materials, Vol 30, Pp 200-209 (2012) |
Druh dokumentu: | article |
ISSN: | 1473-2262 |
DOI: | 10.22203/eCM.v030a14 |
Popis: | Joint injury often leads to post-traumatic osteoarthritis (PTOA). Acute injury responses to trauma induce production of pro-inflammatory cytokines and catabolic enzymes, which promote chondrocyte apoptosis and degrade cartilage to potentiate PTOA development. Recent studies show that the rate-limiting step for transcriptional activation of injury response genes is controlled by cyclin-dependent kinase 9 (CDK9), and thus it is an attractive target for limiting the injury response. Here, we determined the effects of CDK9 inhibition in suppressing the injury response in mechanically-injured cartilage explants. Bovine cartilage explants were injured by a single compressive load of 30 % strain at 100 %/s, and then treated with the CDK9 inhibitor Flavopiridol. To assess acute injury responses, we measured the mRNA expression of pro-inflammatory cytokines, catabolic enzymes, and apoptotic genes by RT-PCR, and chondrocyte viability and apoptosis by TUNEL staining. For long-term outcome, cartilage matrix degradation was assessed by soluble glycosaminoglycan release, and by determining the mechanical properties with instantaneous and relaxation moduli. Our data showed CDK9 inhibitor markedly reduced injury-induced inflammatory cytokine and catabolic gene expression. CDK9 inhibitor also attenuated chondrocyte apoptosis and reduced cartilage matrix degradation. Lastly, the mechanical properties of the injured explants were preserved by CDK9 inhibitor. Our results provide a temporal profile connecting the chain of events from mechanical impact, acute injury responses, to the subsequent induction of chondrocyte apoptosis and cartilage matrix deterioration. Thus, CDK9 is a potential disease-modifying agent for injury response after knee trauma to prevent or delay PTOA development. |
Databáze: | Directory of Open Access Journals |
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