Elena V. Kovalenko scite author profile

For many years it was believed that promoter-proximal RNA-polymerase II (Pol II) pausing manages the transcription of genes in Drosophila development by controlling spatiotemporal properties of their activation and repression. But the exact proteins that cooperate to stall Pol II in promoter-proximal regions of developmental genes are still largely unknown. The current work describes the molecular mechanism employed by the Negative ELongation Factor (NELF) to control the Pol II pause at genes whose transcription is induced by 20-hydroxyecdysone (20E). According to our data, the NELF complex is recruited to the promoters and enhancers of 20E-dependent genes. Its presence at the regulatory sites of 20E-dependent genes correlates with observed interaction between the NELF-A subunit and the ecdysone receptor (EcR). The complete NELF complex is formed at the 20E-dependent promoters and participates in both their induced transcriptional response and maintenance of the uninduced state to keep them ready for the forthcoming transcription. NELF depletion causes a significant decrease in transcription induced by 20E, which is associated with the disruption of Pol II elongation complexes. A considerable reduction in the promoter-bound level of the Spt5 subunit of transcription elongation factor DSIF was observed at the 20E-dependent genes upon NELF depletion. We presume that an important function of NELF is to participate in stabilizing the Pol II-DSIF complex, resulting in a significant impact on transcription of its target genes. In order to directly link NELF to regulation of 20E-dependent genes in development, we show the presence of NELF at the promoters of 20E-dependent genes during their active transcription in both embryogenesis and metamorphosis. We also demonstrate that 20E-dependent promoters, while temporarily inactive at the larval stage, preserve a Pol II paused state and bind NELF complex.

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RNA Polymerase II “Pause” Prepares Promoters for Upcoming Transcription during Drosophila Development

Mazina

Kovalenko

Евдокимова

et al. 2022

IJMS

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According to previous studies, during Drosophila embryogenesis, the recruitment of RNA polymerase II precedes active gene transcription. This work is aimed at exploring whether this mechanism is used during Drosophila metamorphosis. In addition, the composition of the RNA polymerase II “paused” complexes associated with promoters at different developmental stages are described in detail. For this purpose, we performed ChIP-Seq analysis using antibodies for various modifications of RNA polymerase II (total, Pol II CTD Ser5P, and Pol II CTD Ser2P) as well as for subunits of the NELF, DSIF, and PAF complexes and Brd4/Fs(1)h that control transcription elongation. We found that during metamorphosis, similar to mid-embryogenesis, the promoters were bound by RNA polymerase II in the “paused” state, preparing for activation at later stages of development. During mid-embryogenesis, RNA polymerase II in a “pause” state was phosphorylated at Ser5 and Ser2 of Pol II CTD and bound the NELF, DSIF, and PAF complexes, but not Brd4/Fs(1)h. During metamorphosis, the “paused” RNA polymerase II complex included Brd4/Fs(1)h in addition to NELF, DSIF, and PAF. The RNA polymerase II in this complex was phosphorylated at Ser5 of Pol II CTD, but not at Ser2. These results indicate that, during mid-embryogenesis, RNA polymerase II stalls in the “post-pause” state, being phosphorylated at Ser2 of Pol II CTD (after the stage of p-TEFb action). During metamorphosis, the “pause” mechanism is closer to classical promoter-proximal pausing and is characterized by a low level of Pol II CTD Ser2P.

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Elena V. Kovalenko

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