期刊
LIFE SCIENCE ALLIANCE
卷 6, 期 9, 页码 -出版社
LIFE SCIENCE ALLIANCE LLC
DOI: 10.26508/lsa.202302195
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This study generates multi-omics data and contact maps to investigate the genomic response and molecular mechanisms of dexamethasone (Dex) in multiple myeloma cells. The findings suggest that only a small portion of glucocorticoid receptor-binding sites are associated with enhancer activity gains and increased transcriptional activity. Furthermore, epigenomic changes and cell-to-cell transcriptional heterogeneity are observed in response to Dex.
Among glucocorticoids (GCs), dexamethasone (Dex) is widely used in treatment of multiple myelomas. However, despite a definite benefit, all patients relapse. Moreover, the molecular basis of glucocorticoid efficacy remains elusive. To determine genomic response to Dex in myeloma cells, we generated bulk and single-cell multi-omics data and high-resolution contact maps of active enhancers and target genes. We show that a minority of glucocorticoid receptor-binding sites are associated with enhancer activity gains, increased interaction loops, and transcriptional activity. We identified and characterized a predominant enhancer enriched in cohesin (RAD21) and more accessible upon Dex exposure. Analysis of four gene-specific networks revealed the importance of the CTCF-cohesin couple and the synchronization of regulatory sequence openings for efficient transcription in response to Dex. Notably, these epigenomic changes are associated with cell-to-cell transcriptional heterogeneity, in particular, lineage-specific genes. As consequences, BCL2L11-encoding BIM critical for Dex-induced apoptosis and CXCR4 protective from chemotherapy-induced apoptosis are rather up-regulated in different cells. In summary, our work provides new insights into the molecular mechanisms involved in Dex escape.
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