Taken together, inhibition of TNF induced MEK ERK or downstream transcription factors may rescue cartilage ECM gene expression and promote articular cartilage regen eration through continued macrophage Csf 1 expression. In immortalized chondrocytes, NFB DNA binding activity is dependent on TNF induced MEKERK signalling, con sistent with studies in other immortalized cells such as B cell lymphoma cell lines. In our present study using primary chondroctyes, however, both TNF regulated NFB reporter activity and NFB DNA binding were unaltered by MEKERK inhibition. Immortalized cells may therefore have altered signal ling that activates NFB in a MEKERK dependent manner by TNF. Furthermore, we showed that pretreatment of primary chondrocytes with DMSO or DMSO soluble inhibitors, such as U0124, U0126 and PD153035, reduced TNF activated NFB DNA binding activity.
The regulation of NFB DNA binding in primary cells can therefore be explained by the non specific effect of DMSO on NFB activation. In the present study we determined that, in addition to NFB, TNF regulated reductions in Sox9 activity were also inde pendent of MEKERK signalling. Previous studies from our lab oratory small molecular inhibitors screening have shown that reductions in Sox9 activity by TNF are dependent on NFB nuclear translocation, a mechanism probably involving reductions in p300 histone acetylase activity associated with Sox9. MEKERK inde pendent reductions in Sox9 activity could therefore explain the inability of U0126 to completely reverse the TNF induced reductions in cartilage ECM gene transcript levels observed in this study.
We showed that Egr 1 DNA binding was selleck chemical NSC319726 increased by TNF in a U0126 sensitive fashion. Moreover, competitive inhibition of Egr 1 binding to genomic targets attenuated decreases in cartilage ECM genes in response to TNF. These results sug gest that TNF can modify gene expression in chondrocytes via MEKERK through the induction of Egr 1 DNA binding activity. Treatment of chondrocytes with IL 1 increases the Egr 1 protein and DNA binding, leading to decreased human type II collagen promoter activity through competition of Egr 1 for the Sp1 binding sites. Previous studies have also iden tified that there are putative Sp1 binding sites in the aggrecan promoter of the chick, mouse and rat. In this study, we identified putative overlapping binding sites for Sp1 and Egr 1 in both the rat COL2A1 and AGC1 promoters proximal to the transcriptional start site.
Although beyond the scope of our current report, Col2a1 and Agc1 transcription are probably regulated by inhibitory actions of Egr 1 in competition for Sp1 binding sites. Collectively, these data suggest that, in chondrocytes, alterations in Egr 1 DNA binding activity by TNF induced MEKERK signalling is necessary for the tran scriptional regulation of downstream cartilage ECM genes.