Novel Role for RNA-binding Protein CUGBP2 in Mammalian RNA Editing: CUGBP2 MODULATES C TO U EDITING OF APOLIPOPROTEIN B mRNA BY INTERACTING WITH APOBEC-1 AND ACF, THE APOBEC-1 COMPLEMENTATION FACTOR

Shrikant Anant,Jeffrey O Henderson,Debnath Mukhopadhyay,Naveenan Navaratnam,Susan Kennedy,Jing Min,Nicholas O Davidson

doi:10.1074/jbc.m104911200

Shrikant Anant, Jeffrey O Henderson + Show 5 more

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https://doi.org/10.1074/jbc.m104911200

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Abstract

Mammalian apolipoprotein B (apoB) mRNA editing is mediated by a multicomponent holoenzyme containing apobec-1 and ACF. We have now identified CUGBP2, a 54-kDa RNA-binding protein, as a component of this holoenzyme. CUGBP2 and ACF co-fractionate in bovine liver S-100 extracts, and addition of recombinant apobec-1 leads to assembly of a holoenzyme. Immunodepletion of CUGBP2 co-precipitates ACF, and these proteins co-localize the nucleus of transfected cells, suggesting that CUGBP2 and ACF are bound in vivo. CUGBP2 binds apoB RNA, specifically an AU-rich sequence located immediately upstream of the edited cytidine. ApoB RNA from McA cells, bound to CUGBP2, was more extensively edited than the unbound fraction. However, addition of recombinant CUGBP2 to a reconstituted system demonstrated a dose-dependent inhibition of C to U RNA editing, which was rescued with either apobec-1 or ACF. Antisense CUGBP2 knockout increased endogenous apoB RNA editing, whereas antisense knockout of either apobec-1 or ACF expression eliminated apoB RNA editing, establishing the absolute requirement of these components of the core enzyme. These data suggest that CUGBP2 plays a role in apoB mRNA editing by forming a regulatory complex with the three components of the minimal editing enzyme, apobec-1, ACF, and apoB RNA.

Highlights

Mammalian apolipoprotein B mRNA editing is mediated by a multicomponent holoenzyme containing apobec-1 and ACF
A detailed characterization of the protein components of the apolipoprotein B (apoB) mRNA editing machinery has been the focus of considerable investigation over the last several years
With the recent cloning of ACF and, along with apobec-1, its demonstration as being necessary and sufficient for in vitro editing activity (24 – 26), it is reasonable to ask whether yet other factors might participate in the apoB editing enzyme and, if so, what might their role be?

Summary

Introduction

Mammalian apolipoprotein B (apoB) mRNA editing is mediated by a multicomponent holoenzyme containing apobec-1 and ACF. Antisense CUGBP2 knockout increased endogenous apoB RNA editing, whereas antisense knockout of either apobec-1 or ACF expression eliminated apoB RNA editing, establishing the absolute requirement of these components of the core enzyme. In the course of these studies, several proteins were identified, by their ability to bind either apoB RNA or apobec-1 (7, 8, 26, 28 –33) These include p60 and p40, which cross-link to apoB RNA [7, 8, 34]; GRYRBP, ABBP-1, and hnRNP-C, which interact with apobec-1; and AUX240, which is part of the proposed 27 S editosome complex [26, 28, 29, 31]. Despite extensive examination of editing complexes isolated from both tissue and cell sources, there is no firm consensus concerning the composition of the intact holo-enzyme

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