Aniridia as part of a WAGR syndrome in a girl whose brother presented hypospadias.

Aniridia can arise as part of the WAGR syndrome (Wilms tumour. aniridia, genitourinary anomalies, and mental retardation), due to a deletion or chromosomal region 11p13. We report a girl with a complete WAGR syndrome, whose brother presented hypospadias. Cytogenetic, FISH and molecular studies showed a deletion in one chromosome 11 of the patient. No cytogenetic rearrangement or deletion affecting the genes included in this region (PAX6 and WT1) were observed in her brother and parents. This excludes a higher risk than that of the general population for developing Wilms tumour in the brother and supports that the presence of WAGR syndrome in the patient and hypospadias in her brother is a chance association. We conclude that the identification and definition of the deletions in the WAGR region, which include the WT1 locus are important in order to identify a high tumour risk in infant patients with aniridia including those without other WAGR anomalies.

Sequence and structure of the human 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase heart isoform gene (PFKFB2).

6-Phosphofructo-2-kinase/fructose-2,6-bisphosphatase (PFK-2/FBPase-2) is a bifunctional enzyme that catalyzes the synthesis and degradation of Fru-2,6-P2, a key regulator of glycolysis. In mammals, several genes have been found to code for different PFK-2/FBPase-2 isoforms that differ in tissue distribution and enzymatic activities. In the present study, we report the characterization of the PFK-2/FBPase-2 heart isoform gene in humans (PFKFB2), including a full analysis of repetitive sequences and potential transcription binding sites. The genomic sequence of the PFKFB2 gene spans 22,485 bp and contains 15 exons. Heart cDNA analysis shows that PFKFB2 codes for a protein of 505 amino acids with a deduced molecular mass of 58,849 Da. Comparison of the human PFKFB2 gene to the homologous genes in rat and ox outlines a significant conservation of the intron-exon structure, sequence of 5' and 3' flanking regions, and simple sequence repetitive element positions. Most important, the human heart PFK-2/ FBPase-2 protein was found to retain all the important regulatory sites, as well as the catalytic and substrate binding sites identified in the rat and bovine heart isoforms, suggesting that the human enzyme is regulated in a manner similar to that observed in these organisms.

A region of allelic imbalance in 1q31-32 in primary breast cancer coincides with a recombination hot spot.

Previous studies have shown that the 1q31-32 region frequently presents allelic imbalance (AI) in various neoplastic diseases, such as breast cancer, medulloblastoma, male germ cell tumors, and renal collecting duct carcinoma, suggesting the presence of a tumor suppressor gene in this location. We used 19 informative microsatellite markers to analyze 33 primary breast tumors for AI in the 1q31-32 region. Our results demonstrate a 10-cM critical region of AI that is present in more than 60% of the tumors. This region is located proximal to the REN locus and is flanked by the CACNL1A3 and D1S2655 markers. Most important, the critical region of AI coincides with a female hot spot of recombination, suggesting a possible correlation between the two regions.

A high-resolution map of the regulator of the complement activation gene cluster on 1q32 that integrates new genes and markers.

Sixteen microsatellite markers, including two described here, were used to construct a high-resolution map of the 1q32 region encompassing the regulator of the complement activation (RCA) gene cluster. The RCA genes are a group of related genes coding for plasma and membrane associated proteins that collectively control activation of the complement component C3. We provide here the location of two new genes within the RCA gene cluster. These genes are PFKFB2 that maps 15 kilobases (kb) upstream of the C4BPB gene, and a gene located 4 kb downstream of C4BPA, which seems to code for the 72 000 Mr component of the signal recognition particle (SRP72). Neither of these two genes is related structurally or functionally to the RCA genes. In addition, our map shows the centromere-telomere orientation of the C4BPB/MCP linkage group, which is: centromere-PFKFB2-C4BPB-C4BPA-SRP72-C4BPAL1++ +-C4BPAL2-telomere, and outlines an interval with a significant female-male recombination difference which suggests the presence of a female-specific hotspot(s) of recombination.