Abstract
The human polydeoxynucleotide cytidine deaminases APOBEC3A, APOBEC3C, and APOBEC3H are capable of mutating viral DNA in the nucleus, whereas APOBEC3A alone efficiently edits nuclear DNA. Deamination is rapidly followed by excision of uracil residues and can lead to double-stranded breaks. It is not known to which protein networks these DNA mutators belong. Using a yeast two-hybrid screen, we identified the human homolog of Drosophila Tribbles 3, TRIB3, as an interactor for APOBEC3A and APOBEC3C. The interaction was confirmed by co-affinity purification. Co-transfection of APOBEC3A with a TRIB3 expression vector reduced nuclear DNA editing whereas siRNA knockdown of TRIB3 increased the levels of nuclear DNA editing, indicating that TRIB3 functioned as a repressor of A3A. It also repressed A3A-associated γH2AX positive double-stranded breaks. The interaction results in degradation of A3A in a proteasome-independent manner. TRIB3 has been linked to cancer and via its own interactors and links the A3A DNA mutators to the Rb-BRCA1-ATM network. TRIB3 emerges as an important guardian of genome integrity.
Highlights
APOBEC3A can hyperedit nuclear DNA and generates double-stranded DNA breaks
Using a yeast two-hybrid screen, we identified the human homolog of Drosophila Tribbles 3, TRIB3, as an interactor for APOBEC3A and APOBEC3C
Co-transfection of APOBEC3A with a TRIB3 expression vector reduced nuclear DNA editing whereas siRNA knockdown of TRIB3 increased the levels of nuclear DNA editing, indicating that TRIB3 functioned as a repressor of A3A
Summary
APOBEC3A can hyperedit nuclear DNA and generates double-stranded DNA breaks. Results: TRIB3 is an interactor for APOBEC3A and APOBEC3C. Co-transfection of APOBEC3A with a TRIB3 expression vector reduced nuclear DNA editing whereas siRNA knockdown of TRIB3 increased the levels of nuclear DNA editing, indicating that TRIB3 functioned as a repressor of A3A It repressed A3A-associated ␥H2AX positive double-stranded breaks. Apart from mutating DNA, A3A appears to generate double-stranded DNA breaks (DSBs) reflecting the two attributes of AID, i.e. class switch recombination and somatic hypermutation [27, 29]. Given our interest in the restriction of DNA viruses replicating in the nucleus and the finding that A3A can edit nuDNA, we set out to identify interactors for the A3A, A3C, and A3H deaminases, all of which have cytoplasmic and nuclear localizations.
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