Structural characterization of the chicken SF-1/Ad4BP gene

SF-1/Ad4BP was identified as a master regulator controlling steroidogenic P-450 genes and belongs to the steroid hormone receptor superfamily. It is expressed in the adrenal cortex, gonads, and pituitary gonadotroph. Targeted disruption of the mouse SF-1/Ad4BP gene showed that it plays a critical role in the development of the steroidogenic tissues and pituitary gonadotroph. We have recently cloned the chicken SF-1/Ad4BP cDNA and have now cloned the chicken SF-1/Ad4BP gene and analyzed its promoter activity. This gene consists of seven exons as well as mammalian counterparts and spans about 15 kb. In mice, the gene encodes another protein, ELP, but we could not find the open reading frame of ELP in the chicken SF-1/Ad4BP gene. The promoter of this gene included five putative cis elements (E, CCAAT, GC and TATA boxes and a GA-rich element), although no TATA box has been found in mammalian counterparts. The E and CCAAT boxes moderately affected promoter activity and the GA-rich element and TATA box were essential for the expression of the chicken SF-1/Ad4BP gene.     

Differential gene dosage effects of Ad4BP/SF-1 on target tissue development

Ad4BP/SF-1 (NR5A1) was identified as a key regulator of the hypothalamus-pituitary-gonadal and -adrenal axes. Loss-of-function studies revealed that Ad4BP/SF-1 is essential for the development of these tissues and spleen. Here, we generated transgenic mouse with BAC recombinants carrying a dual promoter and Tet-off system. These recombinants have a potential to express lacZ and Ad4BP/SF-1 in the tissues where endogenous Ad4BP/SF-1 is expressed. However, protein level of Ad4BP/SF-1 varied among the tissues of the transgenic mice and probably thereby the target tissues are affected differentially. The BAC-transgenic mice were applied to rescue Ad4BP/SF-1 KO mouse. Interestingly, the mice successfully rescued the gonad and spleen but failed to rescue the adrenal gland. This variation might be dependent on in part the protein expression levels among the tissues and in part on differential sensitivities to the gene dosage.     

Molecular characterization of the murine argininosuccinate synthetase locus.

The cDNA and gene encoding murine argininosuccinate synthetase were cloned and characterized. The cDNA sequence predicts a peptide of 412 amino acids (aa) including the initiator methionine. There is 98% identity with the aa sequence of the human enzyme. The 3'-untranslated region of the cDNA includes two regions of sequence which are conserved between mouse, rat, human and cow. The murine gene contains 16 exons with the start codon occurring in exon 3. Although alternative splicing occurs in primates to include or exclude exon 2, exon 2 sequences were included in the murine mRNA in all tissues and developmental stages examined. The inclusion of exon 2 in murine mRNA, compared to the usual exclusion in human mRNA, may be explained by differences in the donor splice sequences for exon 2.     

Cloning of the full-length coding sequence of rat liver-specific organic anion transporter-1 (rlst-1) and a splice variant and partial characterization of the rat lst-1 gene

The full-length coding sequence of rat liver-specific organic anion transporter-1 (lst-1) and its splice variant have been cloned. The full-length rat lst-1 (designated rlst-1a) encodes a protein containing 687 amino acids and has 12-putative transmembrane domains, multiple potential N-glycosylation and phosphorylation sites. Therefore, rat lst-1a has 35 additional amino acid residues compared to the previously reported rat lst-1. A splice variant (designated rlst-1c) reported in this communication encodes a protein containing 654 amino acids and has 10-putative transmembrane domains. PCR analysis suggests that rlst-1a is the most abundant form in liver. Phylogenetic analysis reveals that rat lst-1a is an ortholog of human LST-1 (hLST-1) and mouse lst-1 (mlst-1). The rlst-1 gene is composed of 15 exons and 14 introns. Analysis of exon-intron boundary reveals that the splice variant rlst-1c lacks the entire exon 7, while the previously reported rat lst-1 (designated herein as rlst-1b) lacks approximately half of exon 10, and the splicing has occurred through alternative usage of a splice donor site within exon 10.