Involvement of a chaperone regulator, Bcl2-associated athanogene-4, in apolipoprotein B mRNA editing.

Apobec-1 is the catalytic subunit of a multicomponent editosome complex that mediates apolipoprotein B (apoB) mRNA editing. We isolated a novel apobec-1-interacting protein by yeast two-hybrid cloning and identified the protein as BAG-4. BAG-4, a chaperone-regulating protein, also known as SODD (silencer of death domains), is a member of the BAG family of proteins. In this report, we found that apobec-1 is localized in the perinucleolar compartment in HepG2 cells and rat liver MCR-RH7777 cells. BAG-4 binds to apobec-1 via its N-terminal region independent of the BAG domain. It is ubiquitously expressed with predominant occurrence in human pancreas, heart, brain, and placenta. Immunoprecipitation experiments confirmed that BAG-4 interacts with Hsc70/Hsp90 in HepG2 cells. BAG-4 tagged with green fluorescent protein (GFP) or FLAG was localized both in cytoplasm of mouse BNLCL.2 liver cells and human liver hepatoma HepG2 cells. After heat shock, GFP-BAG-4 co-localizes with Hsc70 in the nucleus in HepG2 cells, whereas GFP-BAG-4 mutants lacking the BAG domain remain perinuclear. BAG-4 has no effects on apoB mRNA editing in vitro. However, unlike other apobec-1 complementation factors studied to date, antisense knockdown of BAG-4 in BNLCL.2 cells and in MCR-RH7777 cells increases rather than decreases endogenous apoB mRNA editing. Overexpression of BAG-4 in MCR-RH7777 cells also suppresses apoB mRNA editing. ApoB-48 production also increases with antisense BAG-4 expression in MCR-RH7777 cells. We previously showed that apoB mRNA editing is an intranuclear event (Lau, P. P., Xiong, W. J., Zhu, H. J., Chen, S. H., and Chan, L. (1991) J. Biol. Chem. 266, 20550-20554). Thus, BAG-4 overexpression down-regulates apoB mRNA editing by shuttling apobec-1 from the intranuclear perinucleolar compartment to the cytoplasm. We propose that BAG-4 functions as a negative regulator for apobec-1-mediated apoB mRNA editing through its ability to suppress the Hsp/Hsc70 chaperone activity and thereby editosome formation and, as a consequence, prevents nuclear localization of the apobec-1 editosome.