Cloning and characterization of the rat Crisp-1 gene.

Rat androgen-regulated acidic epididymal glycoprotein (AEG), also known as Protein DE, is a product of the Crisp-1 gene. Protein DE is secreted into the epididymal lumen and binds to sperm heads during their transit through the epididymis. In experiments reported here, the rat Crisp-1 gene has been cloned and its structure determined. The rat Crisp-1 gene spans 38kb and contains nine exons encoding an 1120bp epididymal Protein DE mRNA. The boundaries of the protein-coding exons are structurally organized similar to the mouse Crisp-1 gene, except for the 5' untranslated sequence, which is encoded by one exon in the mouse Crisp-1 gene and two exons in the rat gene. All the introns are flanked by AG/GT consensus splice sequences. Crisp-1 is a single-copy gene as shown by the presence of single bands by Southern blot analysis and PCR using rat genomic DNA as template. Recognition sites for steroid hormone receptors are present in the 5' flanking region and in intron 1, consistent with the known regulation of Protein DE expression by androgens. RT-PCR experiments demonstrate three splice variant mRNAs involving the non-coding exon 2. The Crisp-1 gene also produces an mRNA without an exon 1 sequence by utilizing a transcription start site in intron 1, 5' of the start of exon 2. All forms of the Crisp-1 mRNA are predicted to encode Protein DE.

Familial ureteral abnormalities syndrome: genomic mapping, clinical findings.

Abnormal development of the ureter during embryogenesis, when occurring in multiple family members, appears to be a genetically determined defect with autosomal dominant inheritance and high penetrance, which can lead to significant kidney damage, renal failure, and death. We have studied 48 individuals within a large kindred in which ureteral-related abnormalities (including vesicoureteral reflux, ureteropelvic junction obstruction, duplicated ureters, and medullary sponge kidney) were segregated. Family members who had not had previous diagnostic studies were evaluated for presence or absence of ureteral abnormalities and we attempted to map the locus for this familial ureteral abnormalities syndrome (FUAS). These studies identified 11 asymptomatic individuals, previously assumed to be unaffected, with minor abnormalities. When linkage analysis between the inheritance of ureteral abnormalities and six marker loci glyoxalase I (GLO- ), major histocompatibility antigens (HLA-A, B, and DR/DQ), D6S288, and factor XIII antigen (F13A1) on the short arm of chromosome 6 was performed, the lod scores significantly rejected linkage over a 77.1-cM distance. These findings are in contrast to previous data suggesting linkage between the presence of ureteral abnormalities and HLA, and indicate the possibility of genetic heterogeneity of FUAS.