A transcriptional program associated with cell cycle regulation predominates in the anti-inflammatory effects of CX-5461 in macrophage

Abstract: CX-5461, a novel selective RNA polymerase I inhibitor, shows potential anti-inflammatory and immunosuppressive activities. However, the molecular mechanisms underlying the inhibitory effects of CX-5461 on macrophage-mediated inflammation remain to be clarified. In the present study, we attempted to identify the systemic biological processes which were modulated by CX-5461 in inflammatory macrophages. Primary peritoneal macrophages were isolated from normal Sprague Dawley rats, and primed with lipopolysaccharid… Show more

“…Remarkably, GSEA (Fig. 6 B) revealed a significant positive correlation between SDGs and KEGG_CELL_CYCLE pathways, indicating a dominant place in the anti-inflammatory role of transcriptional programs related to cell cycle regulation [ 31 ].…”

Revealing Tissue Heterogeneity and Spatial Dark Genes from Spatially Resolved Transcriptomics by Multiview Graph Networks

“…Remarkably, GSEA (Fig. 6 B) revealed a significant positive correlation between SDGs and KEGG_CELL_CYCLE pathways, indicating a dominant place in the anti-inflammatory role of transcriptional programs related to cell cycle regulation [ 31 ].…”

Revealing Tissue Heterogeneity and Spatial Dark Genes from Spatially Resolved Transcriptomics by Multiview Graph Networks

Boosting regulatory T cell-dependent immune tolerance by activation of p53