Abstract

The AID/APOBECs are DNA/RNA deaminases whose mutagenic activity has been linked to cancer. Among them, APOBEC1 physiologically partakes into a complex that edits a CAA codon into UAA Stop codon in the transcript of Apolipoprotein B (APOB), a protein crucial in the transport of lipids in the blood. Catalytically inactive mutants of APOBEC1 have a dominant negative effect on its activity, as they compete for the targeting of the APOB mRNA. Here we titrate APOBEC1-mediated editing in presence of catalytically inactive chimeras and mutants of APOBEC1, and we show that APOBEC1 inability to dimerise is the main determinant for its activity. This property is especially evident in an APOBEC1 mutant (L173A G227A) with increased activity on RNA despite decreased self-interaction. Moreover, dimerisation protects APOBEC1 from degradation and regulates its availability. Considering APOBEC1 capability to target DNA, we demonstrate that increased availability of the protein due to dimerisation leads to increase in the DNA damage induced by APOBEC1. These findings demonstrate that dimerisation, a property common to other APOBECs targeting DNA, might represent another layer in the regulation of this editing enzyme. BULLET POINTSO_LIAPOBEC1 inability to dimerise is the main determinant for its activity. C_LIO_LIDimerisation protects APOBEC1 from degradation and regulates its availability. C_LIO_LIAlterations in the balance between monomeric and dimeric APOBEC1 increase DNA damage. C_LI