Predisposing gene for early-onset prostate cancer, localized on chromosome 1q42.2-43.

There is genetic predisposition associated with >=10% of all cancer of the prostate (CaP). By means of a genomewide search on a selection of 47 French and German families, parametric and nonparametric linkage (NPL) analysis allowed identification of a locus, on chromosome 1q42.2-43, carrying a putative predisposing gene for CaP (PCaP). The primary localization was confirmed with several markers, by use of three different genetic models. We obtained a maximum two-point LOD score of 2.7 with marker D1S2785. Multipoint parametric and NPL analysis yielded maximum HLOD and NPL scores of 2.2 and 3.1, respectively, with an associated P value of . 001. Homogeneity analysis with multipoint LOD scores gave an estimate of the proportion of families with linkage to this locus of 50%, with a likelihood ratio of 157/1 in favor of heterogeneity. Furthermore, the 9/47 families with early-onset CaP at age <60 years gave multipoint LOD and NPL scores of 3.31 and 3.32, respectively, with P = .001.

Survey of CAG/CTG repeats in human cDNAs representing new genes: candidates for inherited neurological disorders.

Expansion of polymorphic CAG and CTG repeats in transcripts is the cause of six inherited neurodegenerative or neuromuscular diseases and may be involved in several other genetic disorders of the central nervous system. To identify new candidate genes, we have undertaken a large-scale screening project for CAG and CTG repeats in human reference cDNAs. We screened 100 128 brain cDNAs by hybridization. We also scanned GenBank expressed sequence tags for the presence of long CAG/CTG repeats in the extremities of cDNAs from several human tissues. Of the selected clones, 286 were found to represent new genes, and 72 have thus far been shown to contain CAG/CTG repeats. Our data indicate that CAG/CTG repeated 10 or more times are more likely to be polymorphic, and that new 3'-directed cDNAs with such repeats are very rare (1/2862). Nine new cDNAs containing polymorphic (observed heterozygote frequency: 0.05-0.90) CAG/CTG repeats have been currently identified in cDNAs. All of the cDNAs have been assigned to chromosomes, and six of them could be mapped with YACs to 1q32-q41, 3p14, 4q28, 3p21 and 12q13.3, 13q13.1-q13.2, and 19q13.43. Three of these clones are highly polymorphic and represent the most likely candidate genes for inherited neurodegenerative diseases and, perhaps, neuropsychiatric disorders of multifactorial origin.

Isolation of 10 differentially expressed cDNAs in p53-induced apoptosis: activation of the vertebrate homologue of the drosophila seven in absentia gene.

We report the isolation of 10 differentially expressed cDNAs in the process of apoptosis induced by the p53 tamor suppressor. As a global analytical method, we performed a differential display of mRNA between mouse M1 myeloid leukemia cells and derived clone LTR6 cells, which contain a stably transfected temperature-sensitive mutant of p53. At 32 degrees C wild-type p53 function is activated in LTR6 cells, resulting in programmed cell death. Eight genes are activated (TSAP; tumor suppressor activated pathway), and two are inhibited (TSIP, tumor suppressor inhibited pathway) in their expression. None of the 10 sequences has hitherto been recognized as part of the p53 signaling pathway. Three TSAPs are homologous to known genes. TSAP1 corresponds to phospholipase C beta 4. TSAP2 has a conserved domain homologous to a multiple endocrine neoplasia I (ZFM1) candidate gene. TSAP3 is the mouse homologue of the Drosophila seven in absentia gene. These data provide novel molecules involved in the pathway of wild-type p53 activation. They establish a functional link between a homologue of a conserved developmental Drosophila gene and signal transduction in tumor suppression leading to programmed cell death.

A comprehensive genetic map of the human genome based on 5,264 microsatellites.

The great increase in successful linkage studies in a number of higher eukaryotes during recent years has essentially resulted from major improvements in reference genetic linkage maps, which at present consist of short tandem repeat polymorphisms of simple sequences or microsatellites. We report here the last version of the Généthon human linkage map. This map consists of 5,264 short tandem (AC/TG)n repeat polymorphisms with a mean heterozygosity of 70%. The map spans a sex-averaged genetic distance of 3,699 cM and comprises 2,335 positions, of which 2,032 could be ordered with an odds ratio of at least 1,000:1 against alternative orders. The average interval size is 1.6 cM; 59% of the map is covered by intervals of 2 cM at most and 1% remains in intervals above 10 cM.

Down-regulation of mitochondrial mRNAs in the mdx mouse model for Duchenne muscular dystrophy.

In our search for genes up- or down-regulated genes in the mdx mouse model for Duchenne muscular dystrophy, we isolated a down-regulated mitochondrial DNA clone. In addition to this clone, all protein-coding mitochondrial genes tested had tissue-specific and age independent down-regulated expression. This implied mechanisms at the RNA level since no change in the mitochondrial DNA contents were detected. Cytochrome c oxidase activity showed the same range of down-regulated expression. These data provide a molecular basis for energetic metabolism modifications in mdx mice.

Identification and characterization of a spinal muscular atrophy-determining gene.

Spinal muscular atrophy (SMA) is a common fatal autosomal recessive disorder characterized by degeneration of lower motor neurons, leading to progressive paralysis with muscular atrophy. The gene for SMA has been mapped to chromosome 5q13, where large-scale deletions have been reported. We describe here the inverted duplication of a 500 kb element in normal chromosomes and narrow the critical region to 140 kb within the telomeric region. This interval contains a 20 kb gene encoding a novel protein of 294 amino acids. An highly homologous gene is present in the centromeric element of 95% of controls. The telomeric gene is either lacking or interrupted in 226 of 229 patients, and patients retaining this gene (3 of 229) carry either a point mutation (Y272C) or short deletions in the consensus splice sites of introns 6 and 7. These data suggest that this gene, termed the survival motor neuron (SMN) gene, is an SMA-determining gene.

E-box- and MEF-2-independent muscle-specific expression, positive autoregulation, and cross-activation of the chicken MyoD (CMD1) promoter reveal an indirect regulatory pathway.

Members of the MyoD family of gene-regulatory proteins (MyoD, myogenin, myf5, and MRF4) have all been shown not only to regulate the transcription of numerous muscle-specific genes but also to positively autoregulate and cross activate each other's transcription. In the case of muscle-specific genes, this transcriptional regulation can often be correlated with the presence of a DNA consensus in the regulatory region CANNTG, known as an E box. Little is known about the regulatory interactions of the myogenic factors themselves; however, these interactions are thought to be important for the activation and maintenance of the muscle phenotype. We have identified the minimal region in the chicken MyoD (CMD1) promoter necessary for muscle-specific transcription in primary cultures of embryonic chicken skeletal muscle. The CMD1 promoter is silent in primary chick fibroblast cultures and in muscle cell cultures treated with the thymidine analog bromodeoxyuridine. However, CMD1 and chicken myogenin, as well as, to a lesser degree, chicken Myf5 and MRF4, expressed in trans can activate transcription from the minimal CMD1 promoter in these primary fibroblast cultures. Here we show that the CMD1 promoter contains numerous E-box binding sites for CMD1 and the other myogenic factors, as well as a MEF-2 binding site. Surprisingly, neither muscle-specific and the other myogenic factors, as well as a MEF-2 binding site. Surprisingly, neither muscle-specific expression, autoregulation, or cross activation depends upon the presence of of these E-box or MEF-2 binding sites in the CMD1 promoter. These results demonstrate that the autoregulation and cross activation of the chicken MyoD promoter through the putative direct binding of the myogenic basic helix-loop-helix regulatory factors is mediated through an indirect pathway that involves unidentified regulatory elements and/or ancillary factors.

The 1993-94 Généthon human genetic linkage map.

In 1992, we described a second-generation genetic linkage map of the human genome. Using 1,267 new microsatellite markers, we now present a new genetic linkage map containing a total of 2,066 (AC)n short tandem repeats, 60% of which show a heterozygosity of over 0.7. Statistical linkage analysis based on the genotyping of eight large CEPH families placed these markers in the 23 linkage groups. The map includes 1,266 intervals and spans a total distance of 3690 centiMorgans (cM). A total of 1,041 markers could be ordered with odds ratios greater than 1000:1. About 56% of this map is at a distance of 1 cM or less from one of its markers.

De novo and inherited deletions of the 5q13 region in spinal muscular atrophies.

Spinal muscular atrophies (SMAs) represent the second most common fatal autosomal recessive disorder after cystic fibrosis. Childhood spinal muscular atrophies are divided into severe (type I) and mild forms (types II and III). By a combination of genetic and physical mapping, a yeast artificial chromosome contig of the 5q13 region spanning the disease locus was constructed that showed the presence of low copy repeats in this region. Allele segregation was analyzed at the closest genetic loci detected by markers C212 and C272 in 201 SMA families. Inherited and de novo deletions were observed in nine unrelated SMA patients. Moreover, deletions were strongly suggested in at least 18 percent of SMA type I patients by the observation of marked heterozygosity deficiency for the loci studied. These results indicate that deletion events are statistically associated with the severe form of spinal muscular atrophy.

Mutations in the muscle sodium channel gene (SCN4A) in 13 French families with hyperkalemic periodic paralysis and paramyotonia congenita: phenotype to genotype correlations and demonstration of the predominance of two mutations.

Hyperkalemic periodic paralysis (hyperPP), paramyotonia congenita (PC) and PC with myotonia permanens are closely related muscle disorders of genetic origin due to allelic mutations in the muscle sodium channel gene, SCN4A. Seven families of French origin with hyperPP were studied. Five of these had the Thr704Met mutation, but 2 families, genetically linked to SCN4A, failed to show any of the known mutations of SCN4A. Correlations between the phenotype and the genotype were made for patients with the Thr704Met mutation. All 12 patients over 30 years old with the Thr704Met mutation presented muscle weakness due to degeneration of muscle fibers in addition to periodic paralysis. Only approximately 12.5% of patients with the Thr704Met mutation presented with clinical myotonia and about 50% with hyperkalemia. One family with PC displayed the Gly1306Val mutation with a phenotype similar to the one already reported for this mutation. Five families with either PC or PC with myotonia permanens had the Thr1313Met mutation indicating that the severity of myotonia and its permanence were variable. Two mutations of SCN4A were found to be predominant in these 13 families: the Thr704Met and the Thr1313Met mutations. Only 2 families with the Thr704Met mutation and 3 families with the Thr1313Met shared the same SCN4A haplotype determined with intragenic dinucleotide repeats. Recurrent mutations of SCN4A may contribute to the predominance of these two mutations in the French population.

[Physical study of big fragments and search strategy of genes. Application to locus of infant spinal muscular atrophies]. / Etude physique des grands fragments et stratégies de recherche de gènes. Applications au locus des amyotrophies spinales infantiles.

Spinal muscular atrophies (SMA) represent the second most common fatal autosomal recessive disorder after cystic fibrosis. Childhood SMAs are divided into severe (type I) and mild forms (types II and III). By a combination of genetic and physical mapping, a YAC contig of the 5q13 region spanning the disease locus was constructed that showed the presence of low copy-repeats in this region. Allele segregation was analyzed at the closest genetic loci detected by markers C212 and C272 in 201 SMA families. Inherited and de novo deletions were observed in 10 SMA patients. Moreover, deletions were strongly suggested in at least 18% of SMA type I patients by the observation of marked heterozygosity deficiency for the loci studied. These results indicate that deletion events are statistically associated with the severe form of SMA.

Cloning and expression of the murine homologue of a putative human X-linked nuclear protein gene closely linked to PGK1 in Xq13.3.

Several human inherited diseases have been localized to the Xq13.3 region of the human X chromosome (X-linked dystonia with Parkinsonism, sideroblastic anemia, SCID, Menkes disease and X-linked mental retardation loci). Genes involved in the phenotypes have been isolated for only two of them (Menkes and SCIDX). It was therefore interesting to isolate and characterize new genes from the region. In a previous work (12 and Consalez et al, in preparation) we isolated a gene (XNP), located 350 Kb proximal to PGK1, potentially coding for a nuclear protein. We describe here the cloning and characterization of the murine homologue. The pattern of expression of the gene in the newborn mouse (especially the expression in particular regions of the brain: optical lobe, frontal cortex, hippocampus and cerebellum), as well as the expression in human tissues, suggests that this gene might be involved in neuronal differentiation. Among the different morbid phenotypes assigned to the region, X-linked mental retardation would be the best candidate to be associated with this gene.

Physical and transcriptional mapping of DXS56-PGK1 1 Mb region: identification of three new transcripts.

Several new techniques for isolation expressed sequences have been recently described considerably speeding up the identification of unknown genes. Here we present a transcriptional map of the 1 Mb DXS56-PGK1 region in Xq13.3. Rare cutter restriction site mapping, direct cDNA selection on membrane discs and probing of Northern blots with total YAC DNA, were the methods explored in order to achieve this goal. In addition to three known genes from this region which have been recloned, two new cDNA clones corresponding to two new genes were isolated, mapped and characterized. Moreover one more transcript, highly expressed in placenta, has been detected in the region with a total YAC as a probe. In summary there are at least six genes known to reside in the DXS56-PGK1 region. As several human disease gene loci (i.e. SCID, CMTX1, WWS, MRX, XDP, ASB) were tightly linked to the markers from the region (PGK, CA repeats), the three new transcripts may be considered as their potential candidate genes.

Illegitimate transcription of the phenylalanine hydroxylase gene in lymphocytes for identification of mutations in phenylketonuria.

Taking advantage of the 'illegitimate' transcription of the phenylalanine hydroxylase (PAH) gene, we have been able to analyse the PAH cDNA sequence of hyperphenylalaninemic children in circulating lymphocytes. Using this approach, we have also identified 3 novel mutations in cDNA from liver and lymphocytes of two patients. One mutation, detected by the abnormal pattern of migration of an amplified fragment, is a C to T transition in the splice acceptor site of intron 10, which resulted in the skipping of exon 11 with the premature termination of RNA translation downstream from exon 12 (-3 IVS10). The other two mutations are missense mutations in exons 10 and 11 (respectively, L333F and E390G). The present study supports the view that circulating lymphocytes give easy access to PAH gene transcripts whose nucleotide sequence is identical to that reported in liver and therefore represent a useful tool for molecular genetic studies in phenylketonuria.

A second-generation linkage map of the human genome.

A linkage map of the human genome has been constructed based on the segregation analysis of 814 newly characterized polymorphic loci containing short tracts of (C-A)n repeats in a panel of DNAs from eight large families. Statistical linkage analysis placed 813 of the markers into 23 linkage groups corresponding to the 22 autosomes and the X chromosome; 605 show a heterozygosity above 0.7 and 553 could be ordered with odds ratios above 1,000:1. The distance spanned corresponds to approximately 90% of the estimated length of the human genome.

The candidate gene for the X-linked Kallmann syndrome encodes a protein related to adhesion molecules.

Kallmann syndrome associates hypogonadotropic hypogonadism and anosmia and is probably due to a defect in the embryonic migration of olfactory and GnRH-synthesizing neurons. The Kallmann gene had been localized to Xp22.3. In this study 67 kb of genomic DNA, corresponding to a deletion interval containing at least part of the Kallmann gene, were sequenced. Two candidate exons, identified by multiparameter computer programs, were found in a cDNA encoding a protein of 679 amino acids. This candidate gene (ADMLX) is interrupted in its 3' coding region in the Kallmann patient, in which the proximal end of the KAL deletion interval was previously defined. A 5' end deletion was detected in another Kallmann patient. The predicted protein sequence shows homologies with the fibronectin type III repeat. ADMLX thus encodes a putative adhesion molecule, consistent with the defect of embryonic neuronal migration.

Use of synthetic oligonucleotides for genomic DNA dot hybridization to split the DQw3 haplotype.

Comparison of two different HLA-DQ beta gene sequences from two DR4 individuals, probably corresponding to DQw3.2 (DQR4) and DQw3.1 (DQR5) specificities, has shown several nucleotide variations. Eight oligonucleotides (24 bases long), derived from these polymorphic areas, have been synthesized. Each oligonucleotide was hybridized to BamHI-digested DNA samples from eight families with HLA-DR4 individuals. Four polymorphic BamHI fragments were detected. Two of eight oligonucleotides gave a single signal (8.9 kilobases) on DQw3.2-positive haplotypes. We used one of these oligonucleotides in a genomic DNA dot hybridization and detected a hybridization signal only in DQw3.2-positive individuals. A very simple test like this allows the screening of a large population sample within a very short period.

Two DR beta allelic series defined by exon II-specific synthetic oligonucleotide genomic hybridization: a method of HLA typing?

Comparisons of exon II HLA-DR beta sequences have shown that nucleotide variations are principally clustered within the following three regions: V1 (amino acid 8-15), V2 (25-32), and V3 (70-77). V1, V2, and V3-derived 24-mers have been synthesized, the DR beta sequences coming from DR1, DR3, Drw6, DR4, DR5, and DRw53 haplotypes. Each oligonucleotide was hybridized to Pvu II-digested DNA samples from 13 HLA genotyped families; therefore, 52 haplotypes have been investigated. Six polymorphic Pvu II fragments were detected, constituting two allelic series probably corresponding to the beta 1 and beta 2 locus of the DR region. The first series (beta 1) comprises a minimum of nine alleles while the second series (beta 2), which is less polymorphic, comprises at least four alleles. Certain patterns correlate perfectly with certain DR specificities, whereas other patterns define new subdivisions as in DR3 and DRw6 haplotypes. Although it appears that some mismatches do not always prevent hybridization in the conditions used in this work, this method will provide in many instances a convenient tool for HLA-DR typing.

New methods for detection of HLA genes polymorphism useful for associated diseases studies.

We have studied in 22 informative families typed for HLA the segregation of DNA restriction fragments obtained with five restriction enzymes and hybridized with one class I and three class II probes. Most of the fragments correlate with serologically defined specificities. Many fragments can be grouped in clusters, whose genetic significance is discussed. The RFLP distribution in patients with insulin-dependent diabetes mellitus, multiple sclerosis or narcolepsy, three diseases known to be associated with some HLA-DR specificities, has been also studied. Many fragments allow to distinguish between patients and HLA-DR matched controls. Hybridization of genomic DNA with synthetic oligomers will refine moreover the understanding of the HLA system polymorphism.

[Detection of polymorphism of HLA class II genes using synthetic oligonucleotides]. / Détection du polymorphisme des gènes HLA de classe II à l'aide d'oligonucléotides de synthèse.

The recent sequence determination of exons of various HLA class II genes has allowed us to study the polymorphism of coding sequences of these genes on a sample of HLA-DR typed unrelated individuals. From this sequence determination have emerged polymorphic hypervariable areas. A 24-mer oligonucleotide has been synthetized, which corresponds to the first hypervariable region of the beta 1 domain of a DR-beta molecule. This oligonucleotide hybridized only with the DNA from DR3 or DR5 individuals tested, even under stringent conditions of washing. However, the existence of strong linkage disequilibrium among the 3 or 4 DR genes of the D region does not allow us to conclude that this sequence is epitope-specific.