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Targeted protein degradation reveals a direct role of SPT6 in RNAPII elongation and termination

Ashwin Narain, Pranjali Bhandare, Bikash Adhikari, Simone Backes, Martin Eilers, Lars Dölken, Andreas Schlösser, Florian Erhard, Apoorva Baluapuri, Elmar Wolf

2021Molecular Cell84 citationsDOIOpen Access PDF

Abstract

SPT6 is a histone chaperone that tightly binds RNA polymerase II (RNAPII) during transcription elongation. However, its primary role in transcription is uncertain. We used targeted protein degradation to rapidly deplete SPT6 in human cells and analyzed defects in RNAPII behavior by a multi-omics approach and mathematical modeling. Our data indicate that SPT6 is a crucial factor for RNAPII processivity and is therefore required for the productive transcription of protein-coding genes. Unexpectedly, SPT6 also has a vital role in RNAPII termination, as acute depletion induced readthrough transcription for thousands of genes. Long-term depletion of SPT6 induced cryptic intragenic transcription, as observed earlier in yeast. However, this phenotype was not observed upon acute SPT6 depletion and therefore can be attributed to accumulated epigenetic perturbations in the prolonged absence of SPT6. In conclusion, targeted degradation of SPT6 allowed the temporal discrimination of its function as an epigenetic safeguard and RNAPII elongation factor.

Topics & Concepts

RNA polymerase IIBiologyTranscription (linguistics)EpigeneticsCell biologyChaperone (clinical)Elongation factorTranscription factorSaccharomyces cerevisiaeGeneYeastHistoneGeneticsRNAPromoterGene expressionPathologyPhilosophyRibosomeLinguisticsMedicineGenomics and Chromatin DynamicsRNA Research and SplicingRNA and protein synthesis mechanisms
Targeted protein degradation reveals a direct role of SPT6 in RNAPII elongation and termination | Litcius