Integrity of the AID serine-38 phosphorylation site is critical for class switch recombination and somatic hypermutation in mice

Abstract

Activation-induced cytidine deaminase (AID) is a single-stranded (ss) DNA-specific cytidine deaminase that initiates Ig heavy chain (IgH) class switch recombination (CSR) and Ig somatic hypermutation (SHM) by deaminating cytidines within, respectively, IgH switch (S) regions and Ig variable region (V) exons. AID that is phosphorylated on serine residue 38 interacts with replication protein A (RPA), a ssDNA binding protein, to promote deamination of transcribed double-stranded DNA in vitro, which, along with other evidence, suggests that AID may similarly gain access to transcribed S regions and V exons in vivo. However, the physiological role of AID phosphorylation at serine residue 38 (S38), and even the requirement for the S38 residue, with respect to CSR or SHM has been debated. To address this issue, we used gene targeting to generate an endogenous mouse AID locus that produces AID in which S38 is substituted with alanine (AID^S38A), a mutant form of AID that retains similar catalytic activity on ssDNA as WT AID (AID^WT). B cells homozygous for the AID^S38A mutation show substantially impaired CSR and SHM, correlating with inability of AID^S38A to interact with endogenous RPA. Moreover, mice haploinsufficient for AID^S38A have even more severely impaired CSR when compared with mice haploinsufficient for AID^WT, with CSR levels reduced to nearly background levels. These results unequivocally demonstrate that integrity of the AID S38 phosphorylation site is required for normal CSR and SHM in mice and strongly support a role for AID phosphorylation at S38 and RPA interaction in regulating CSR and SHM.