1. Academic Validation
  2. OGFOD1 catalyzes prolyl hydroxylation of RPS23 and is involved in translation control and stress granule formation

OGFOD1 catalyzes prolyl hydroxylation of RPS23 and is involved in translation control and stress granule formation

  • Proc Natl Acad Sci U S A. 2014 Mar 18;111(11):4031-6. doi: 10.1073/pnas.1314482111.
Rachelle S Singleton 1 Phebee Liu-Yi Fabio Formenti Wei Ge Rok Sekirnik Roman Fischer Julie Adam Patrick J Pollard Alexander Wolf Armin Thalhammer Christoph Loenarz Emily Flashman Atsushi Yamamoto Mathew L Coleman Benedikt M Kessler Pablo Wappner Christopher J Schofield Peter J Ratcliffe Matthew E Cockman
Affiliations

Affiliation

  • 1 Centre for Cellular and Molecular Physiology, University of Oxford, Oxford OX3 7BN, United Kingdom.
Abstract

2-Oxoglutarate (2OG) and Fe(II)-dependent oxygenase domain-containing protein 1 (OGFOD1) is predicted to be a conserved 2OG oxygenase, the catalytic domain of which is related to hypoxia-inducible factor prolyl hydroxylases. OGFOD1 homologs in yeast are implicated in diverse cellular functions ranging from oxygen-dependent regulation of sterol response genes (Ofd1, Schizosaccharomyces pombe) to translation termination/mRNA polyadenylation (Tpa1p, Saccharomyces cerevisiae). However, neither the biochemical activity of OGFOD1 nor the identity of its substrate has been defined. Here we show that OGFOD1 is a prolyl hydroxylase that catalyzes the posttranslational hydroxylation of a highly conserved residue (Pro-62) in the small ribosomal protein S23 (RPS23). Unusually OGFOD1 retained a high affinity for, and forms a stable complex with, the hydroxylated RPS23 substrate. Knockdown or inactivation of OGFOD1 caused a cell type-dependent induction of stress granules, translational arrest, and growth impairment in a manner complemented by wild-type but not inactive OGFOD1. The work identifies a human prolyl hydroxylase with a role in translational regulation.

Keywords

2-oxoglutarate oxygenase; hypoxia; ribosome; translational control.

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