Ben A. Ramsbottom scite author profile

Synthesis of tRNA and 5S rRNA by RNA polymerase (pol) III is regulated by the mTOR pathway in mammalian cells. The mTOR kinase localizes to tRNA and 5S rRNA genes, providing an opportunity for direct control. Its presence at these sites can be explained by interaction with TFIIIC, a DNA-binding factor that recognizes the promoters of these genes. TFIIIC contains a TOR signaling motif that facilitates its association with mTOR. Maf1, a repressor that binds and inhibits pol III, is phosphorylated in a mTOR-dependent manner both in vitro and in vivo at serine 75, a site that contributes to its function as a transcriptional inhibitor. Proximity ligation assays confirm the interaction of mTOR with Maf1 and TFIIIC in nuclei. In contrast to Maf1 regulation in yeast, no evidence is found for nuclear export of Maf1 in response to mTOR signaling in HeLa cells. We conclude that mTOR associates with TFIIIC, is recruited to pol III–transcribed genes, and relieves their repression by Maf1.

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TRRAP and GCN5 are used by c-Myc to activate RNA polymerase III transcription

Kenneth

Ramsbottom

Gomez-Roman

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

108

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Activation of RNA polymerase (pol) II transcription by c-Myc generally involves recruitment of histone acetyltransferases and acetylation of histones H3 and H4. Here, we describe the mechanism used by c-Myc to activate pol III transcription of tRNA and 5S rRNA genes. Within 2 h of its induction, c-Myc appears at these genes along with the histone acetyltransferase GCN5 and the cofactor TRRAP. At the same time, occupancy of the pol III-specific factor TFIIIB increases and histone H3 becomes hyperacetylated, but increased histone H4 acetylation is not detected at these genes. The rapid acetylation of histone H3 and promoter assembly of TFIIIB, c-Myc, GCN5, and TRRAP are followed by recruitment of pol III and transcriptional induction. The selective acetylation of histone H3 distinguishes pol III activation by c-Myc from mechanisms observed in other systems.acetyltransferase ͉ chromatin ͉ histone ͉ TFIIIB ͉ TFIIIC

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Activation by c-Myc of transcription by RNA polymerases I, II and III

Gomez-Roman

Felton-Edkins

Kenneth

et al. 2006

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The proto-oncogene product c-Myc can induce cell growth and proliferation. It regulates a large number of RNA polymerase II-transcribed genes, many of which encode ribosomal proteins, translation factors and other components of the biosynthetic apparatus. We have found that c-Myc can also activate transcription by RNA polymerases I and III, thereby stimulating production of rRNA and tRNA. As such, c-Myc may possess the unprecedented capacity to induce expression of all ribosomal components. This may explain its potent ability to drive cell growth, which depends on the accumulation of ribosomes. The activation of RNA polymerase II transcription by c-Myc is often inefficient, but its induction of rRNA and tRNA genes can be very strong in comparison. We will describe what is known about the mechanisms used by c-Myc to activate transcription by RNA polymerases I and II.

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Ben A. Ramsbottom

mTOR associates with TFIIIC, is found at tRNA and 5S rRNA genes, and targets their repressor Maf1

TRRAP and GCN5 are used by c-Myc to activate RNA polymerase III transcription

Activation by c-Myc of transcription by RNA polymerases I, II and III

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