AI Article Synopsis
- * Acute loss of KAP1 leads to faster RNA polymerase II elongation at first, but causes problems later in the transcription cycle, disrupting normal gene activation.
- * KAP1 surprisingly acts to negatively regulate transcription elongation, which is essential for maintaining proper transcription levels of important genes in cells and organisms.
Article Abstract
Signal-induced transcriptional programs regulate critical biological processes through the precise spatiotemporal activation of Immediate Early Genes (IEGs); however, the mechanisms of transcription induction remain poorly understood. By combining an acute depletion system with high resolution genomics approaches to interrogate synchronized, temporal transcription, we reveal that KAP1/TRIM28 is a first responder that fulfills the temporal and heightened transcriptional demand of IEGs. Unexpectedly, acute KAP1 loss triggers an increase in RNA polymerase II elongation kinetics during early stimulation time points. This elongation defect derails the normal progression through the transcriptional cycle during late stimulation time points, ultimately leading to decreased recruitment of the transcription apparatus for re-initiation thereby dampening IEGs transcriptional output. Collectively, KAP1 plays a counterintuitive role by negatively regulating transcription elongation to support full activation across multiple transcription cycles of genes critical for cell physiology and organismal functions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11092767 | PMC |
| http://dx.doi.org/10.1101/2024.05.05.592422 | DOI Listing |
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