Gene structure and expression of the mouse APOBEC-1 complementation factor: multiple transcriptional initiation sites and a spliced variant with a premature stop translation codon.

Editing of apolipoprotein (apo) B mRNA is mediated by an enzyme-complex that consists of the catalytic cytidine deaminase APOBEC-1 and the mRNA binding protein APOBEC-1 complementation factor or APOBEC-1 stimulating protein (ACF/ASP). Here we describe the detailed characterization of the structure, expression and splicing pattern of the mouse ACF/ASP gene. ACF/ASP mRNA is mainly expressed in mouse liver, small intestine and kidney. The deduced protein sequences of ACF/ASP from mouse and man share an identity of 93%. The mouse ACF/ASP gene consists of 12 exons and gives rise predominantly to full-length transcripts. To a minor extent (<10%) ACF/ASP mRNA with unspliced exon 8 is generated in liver, kidney and small intestine that encodes a truncated protein with a predicted molecular weight of 43 kDa. The promoter of the mouse ACF/ASP gene lacks a canonical TATA-box, but contains a cluster of Sp1 binding sites and uses multiple transcriptional initiation sites. Transfection studies demonstrated a preference of this promoter for cell lines derived from the gastrointestinal tract and proved the location of the promoter core region. The high sequence identity between man and mouse-much higher as observed for APOBEC-1-indicates a strong evolutionary constraint on the structure-function relationship of ACF/ASP, most probably due to a central role in editing and processing of apo B mRNA.