Characterisation of an N-terminal variant of acetyl-CoA carboxylase-alpha: expression in human tissues and evolutionary aspects.

mRNA encoding a variant acetyl-CoA carboxylase (ACC)-alpha isozyme, transcribed from a downstream promoter, PIII, was detected in human tissues. Such exon 5A-containing transcripts (E5A-mRNA) encode ACC-alpha with a distinct N-terminus, with 15/17 residues identical to those encoded by the ovine mRNA. In the current study we used antisera directed against the E5A N-terminus to verify that ovine E5A translates are present in tissues consistent with the distribution of E5A-mRNA. The presence of E5A alters the context of adjacent regulatory phosphorylation sites in E6, which may indicate altered regulation of activity for this isozyme. Sequences with high identity to the proximal promoter of PIII and E5A are present in the mouse and rat ACC-alpha genes, however, the coding region of E5A is not conserved, and E5A transcripts are not detected in tissues. Thus E5A must have been present in a common ancestor of rodents, primates, and ruminants, and has become nonfunctional in the former. A minor human PIII-derived mRNA containing an additional 111-bp sequence encoded by a downstream exon, E5B, was also detected. E5B encodes an in-frame stop-codon such that the E5A open-reading frame is terminated, however, ACC-alpha translation may be re-initiated from a downstream AUG in E6, potentially generating an isozyme lacking the N-terminal phosphorylation sites. Transcription of human ACC-alpha from at least three promoters and the potential to generate ACC-alpha isozymes with differential susceptibilities to phosphorylation indicate that the regulation of fatty acid synthesis in human tissues is likely to be complex.

Induction of transcripts derived from promoter III of the acetyl-CoA carboxylase-alpha gene in mammary gland is associated with recruitment of SREBP-1 to a region of the proximal promoter defined by a DNase I hypersensitive site.

ACC-alpha (acetyl-CoA carboxylase-alpha), a key regulator of fatty-acid metabolism, is encoded by mRNAs transcribed from three promoters, PI, PII and PIII, in the ovine genome. Enhanced expression of transcripts encoded by PIII in mammary gland during lactation is associated with alterations in chromatin structure that result in the detection of two DNase I hypersensitive sites, upstream of the start site. The most proximal site, located between -190 and -10, is characterized by the presence of an inverted-CCAAT box, C2 at -167, and E-boxes, E1 and E2, at -151 and -46. Deletion of these motifs, which bind nuclear factor-Y and upstream stimulatory factors respectively in gel-shift assays, attenuates the activity of luciferase reporter constructs in transfected cells. Chromatin immunoprecipitation demonstrated that these transcription factors were associated with PIII in vivo in both lactating and non-lactating mammary tissues. The basic helix-loop-helix-leucine zipper transcription factor, SREBP-1 (sterol-regulated-element-binding protein-1), transactivated PIII reporter constructs in transfected HC11 mammary cells, and this was dependent on the presence of E1, but not on C2 or E2. SREBP-1 was only associated with PIII in chromatin from lactating animals, which was coincident with a 4-fold increase in the precursor (125 kDa) form of SREBP-1 in microsomes and the appearance of the mature form (68 kDa) in the nucleus. SREBP-1 motifs are also present in the proximal region of PII, which is also induced in lactation. This indicates that SREBP-1 is a major developmental regulator of the programme of lipid synthesis de novo in the lactating mammary gland.