Structure of a human Tcf4-beta-catenin complex.

The multifunctional protein beta-catenin is important for cell adhesion, because it binds cadherins, and the Wnt signal transduction pathway, where it interacts with the Adenomatous polyposis coli (APC) protein and TCF/Lef family transcription factors. Mutations in APC or in beta-catenin are estimated to trigger formation of over 90% of all colon cancers. In colonic epithelia, these mutations produce elevated levels of Tcf4-beta-catenin, which stimulates a transcriptional response that initiates polyp formation and eventually malignant growth. Thus, disruption of the Tcf4-beta-catenin interaction may be an attractive goal for therapeutic intervention. Here we describe the crystal structure of a human Tcf4-beta-catenin complex and compare it with recent structures of beta-catenin in complex with Xenopus Tcf3 (XTcf3) and mammalian E-cadherin. The structure reveals anticipated similarities with the closely related XTcf3 complex but unexpectedly lacks one component observed in the XTcf3 structure.

Transcriptional analysis of the 69-kb sequence centromeric to HLA-J: a dense and complex structure of five genes.

Performed within the framework of the sequencing of the 356-kb MHC class I distal region, systematic bioinformatic annotation and preliminary experiments conducted on the whole sequence indicate a high level and a complex pattern of expression. In this paper, we analyze a particular stretch of 69 kb centromeric to the HLA-J gene, in which we identify 21 different mRNAs mainly expressed in testis, and characterize five different transcription units, HZFw, HZFc, HCGV, HTEX6, and HTEX4. These tightly linked genes form a cluster conserved between human and mouse and displaying a high gene density of about one every 14 kb. Alternative splicing processes are observed for all the genes, together with an alternative polyadenylation event for gene HTEX4, sense/antisense mRNA overlaps for HZFw and HZFc, for HZFw and HCGV at their 3' end, and for HTEX6 and HTEX4 at their 5' end. This complex genomic structure suggests a mechanism of coregulation by cis-interaction in gene expression.

A 356-Kb sequence of the subtelomeric part of the MHC Class I region.

The subtelomeric part of the MHC Class I region contains 11 of the 21 genes described on chromosome 6 at position 6p21.3. The general organization of those and other genes resident in the region was revealed by determining a 356,376 bp sequence. Potential exons for new genes were identified by computer analysis and a large number of ESTs were selected by testing the sequence by the BLAST algorithm against the GenBank nonredundant and EST databases. Most of the ESTs are clustered in two regions. In contrast, the whole HLA-gene region is crammed with LINE and SINE repeats, fragments of genes and microsatellites, which tends to hinder the identification of new genes.

Systematic sequencing of the human HLA-A/HLA-F region: establishment of a cosmid contig and identification of a new gene cluster within 37 kb of sequence.

The class I region of the human histocompatibility complex is characterized by a high density of genes and pseudogenes and a complex structural organization. To elucidate the complete structure of the HLA-A/HLA-F region with a view to defining its contents in genes and pseudogenes, we developed a strategy of systematic sequencing. This report describes the establishment of a cosmid contig spanning most of the region and the analysis of a 37-kb sequence from one of the cosmids. Four new genes, organized with the HCG-V gene in a clustered structure, have been identified. Two of these contain a zinc finger motif characteristic of DNA-binding proteins. The former, a member of the C3HC4 protein family, is highly expressed in prostate and contains a B30-2-like sequence identified in several genes mapped within the class I region. The latter, which is ubiquitously expressed, is the human equivalent of the yeast polymerase IA12.2 subunit and of the murine tctex6 gene. Of the two other genes, one remains an anonymous gene with no particular feature, while the fourth, specifically expressed in testis, is the human equivalent of the murine tctex4 gene. This cluster, located in a region corresponding to a syntenic unit between mouse and human, appears to be highly conserved.

Structural analysis of the HLA-A/HLA-F subregion: precise localization of two new multigene families closely associated with the HLA class I sequences.

Positional cloning strategies for the hemochromatosis gene have previously concentrated on a target area restricted to a maximum genomic expanse of 400 kb around the HLA-A and HLA-F loci. Recently, the candidate region has been extended to 2-3 Mb on the distal side of the MHC. In this study, 10 coding sequences [hemochromatosis candidate genes (HCG) I to X] were isolated by cDNA selection using YACs covering the HLA-A/HLA-F subregion. Two of these (HCG II and HCG IV) belong to multigene families, as well as other sequences already described in this region, i.e., P5, pMC 6.7, and HLA class 1. Fingerprinting of the four YACs overlapping the region was performed and allowed partial localization of the different multigene family sequences on each YAC without defining their exact positions. Fingerprinting on cosmids isolated from the ICRF chromosome 6-specific cosmid library allowed more precise localization of the redundant sequences in all of the multigene families and revealed their apparent organization in clusters. Further examination of these intertwined sequences demonstrated that this structural organization resulted from a succession of complex phenomena, including duplications and contractions. This study presents a precise description of the structural organization of the HLA-A/HLA-F region and a determination of the sequences involved in the megabase size polymorphism observed among the A3, A24, and A31 haplotypes.

Cloning of a human homologue of the mouse Tctex-5 gene within the MHC class I region.

Using a positional cloning strategy to identify the hemochromatosis gene (HFE), we isolated seven cDNAs by cDNA selection from a region of 400 kilobases (kb) located near the HLA-A and HLA-F loci. In this paper, we report the study of one of the corresponding genes, referred to as HCG V (hemochromatosis candidate gene), localized 150 kb centromeric to HLA-A. This gene was found to be expressed ubiquitously in the form of a 1.8 kb transcript, and to be apparently well conserved during evolution. The gene spanned 3.1 kb and is organized in three exons and two introns. The cDNA of 1620 base pairs (bp) showed an open reading frame of 378 bp, encoding for a 126 amino acid polypeptide which displayed a strong identity with the predicted product of a mouse Tctex-5 gene (t complex, testis expressed) localized in the t complex on chromosome 17. The HCG V gene was assessed as a potential candidate for hemochromatosis in regard to its localization in the linkage disequilibrium area between HFE and polymorphic markers. The study of deletions and point mutations in hemochromatosis patients revealed a single bp polymorphism within the coding region; however, no associated disease changes were found. Therefore we conclude that HCG V is unlikely to be involved in the pathogenesis of hemochromatosis.