Mutagenesis of Apobec-1 Complementation Factor Reveals Distinct Domains That Modulate RNA Binding, Protein-Protein Interaction with Apobec-1, and Complementation of C to U RNA-editing Activity

Valerie Blanc,Jeffrey O Henderson,Susan Kennedy,Nicholas O Davidson

doi:10.1074/jbc.m107654200

Valerie Blanc, Jeffrey O Henderson + Show 2 more

Open Access

https://doi.org/10.1074/jbc.m107654200

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Abstract

C to U editing of apolipoprotein B (apoB) RNA requires a multicomponent holoenzyme complex in which minimal constituents include apobec-1 and apobec-1 complementation factor (ACF). We have examined the predicted functional domains in ACF in binding apoB RNA, interaction with apobec-1, and complementation of RNA editing. We demonstrate that apoB RNA binding and apobec-1-interacting domains are defined by two partially overlapping regions containing the NH(2)-terminal RNA recognition motifs of ACF. Both apoB RNA binding and apobec-1 interaction are required for editing complementation activity. ACF is a nuclear protein that upon cotransfection with apobec-1 results in nuclear colocalization and redistribution of apobec-1 from the cytoplasm. ACF constructs with deletions or mutations in the putative nuclear localization signal (NLS) still localize in the nucleus of transfected cells but do not colocalize with apobec-1, the latter remaining predominantly cytoplasmic. These observations suggest that the putative NLS motif in ACF is not responsible for its nucleo-cytoplasmic trafficking. By contrast, protein-protein interaction is important for the nuclear import of apobec-1. Taken together, these data suggest that functional complementation of C to U RNA editing by apobec-1 involves the NH(2)-terminal 380 residues of ACF.

Highlights

Posttranscriptional modification of RNA is an important mechanism, whereby the genetic repertoire of the organism may be amplified beyond that encoded in the chromosomal template
We demonstrate that apolipoprotein B (apoB) RNA binding and apobec-1-interacting domains are defined by two partially overlapping regions containing the NH2-terminal RNA recognition motifs of apobec-1 complementation factor (ACF)
These data suggest that functional complementation of C to U RNA editing by apobec-1 involves the NH2-terminal 380 residues of ACF

Summary

Introduction

Posttranscriptional modification of RNA is an important mechanism, whereby the genetic repertoire of the organism may be amplified beyond that encoded in the chromosomal template (reviewed in Ref. 1). C to U editing of apoB RNA requires a defined sequence context, and considerable information exists concerning the cis-acting elements involved (8 –11) These elements together facilitate the interaction of the apoB RNA template with a multicomponent holoenzyme or editosome to allow optimal presentation of the targeted cytidine to the active site of the catalytic deaminase, apobec-1 [12]. In addition to three RRMs, ACF contains a region with six RG residues and a COOH-terminal double-stranded RNA binding domain (Fig. 1) [18, 19], each of which has potential significance in relation to apoB RNA binding activity [26, 20] Another issue concerns the topology of C to U editing in relation to the subunits of the holoenzyme. This result raised the possibility that the determinants of nuclear distribution of the holoenzyme reside not in apobec-1 but perhaps in ACF

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