The photoreceptor cell-specific nuclear receptor gene (PNR) accounts for retinitis pigmentosa in the Crypto-Jews from Portugal (Marranos), survivors from the Spanish Inquisition.

The last Crypto-Jews (Marranos) are the survivors of Spanish Jews who were persecuted in the late fifteenth century, escaped to Portugal and were forced to convert to save their lives. Isolated groups still exist in mountainous areas such as Belmonte in the Beira-Baixa province of Portugal. We report here the genetic study of a highly consanguineous endogamic population of Crypto-Jews of Belmonte affected with autosomal recessive retinitis pigmentosa (RP). A genome-wide search for homozygosity allowed us to localize the disease gene to chromosome 15q22-q24 (Zmax=2.95 at theta=0 at the D15S131 locus). Interestingly, the photoreceptor cell-specific nuclear receptor (PNR) gene, the expression of which is restricted to the outer nuclear layer of retinal photoreceptor cells, was found to map to the YAC contig encompassing the disease locus. A search for mutations allowed us to ascribe the RP of Crypto-Jews of Belmonte to a homozygous missense mutation in the PNR gene. Preliminary haplotype studies support the view that this mutation is relatively ancient but probably occurred after the population settled in Belmonte.

Human genes involved in chromatin remodeling in transcription initiation, and associated diseases: An overview using the GENATLAS database.

Chromatin structure is inextricably linked to transcription regulation and differentiation. It consists of a multicomponent system, and impairments in such complex arrays may elicit dramatic biological effects and diseases. We present an overview of human genes involved in chromatin remodeling, which consist of the histone acetyltransferase/deacetylase system and the SWI/SNF-like complexes containing DNA-dependent ATPase activity. Special attention is given to the functional and physical interactions in which these components are involved, notably as transcriptional coactivators and/or corepressors of a large variety of genes. Linking seemingly distinct pathways allows integration of individual components into complex genetic and molecular processes and assessment of the underlying molecular bases of diseases. This was performed using GENATLAS (http://www.infobiogen.fr/), a gene database which compiles the information relevant to the mapping efforts from the published literature.

Genatlas database, genes and development defects.

This article aims to illustrate the potentialities of the Genatlas database, taking, as an example, the developmental genes and their associated diseases in man. These genes belong to several categories intervening from the first stages of embryonic life. They operate at all steps of developmental cascades from extracellular signaling to activation of target genes. Quite a number of those genes have been identified in man, which are the orthologs of genes previously described in lower species. These genes are mapped and an increasing number are associated with developmental anomalies. These studies shed light on the mechanisms of congenital malformations. They disclose a large array of genetic and phenotypic heterogeneity and a high degree of complexity.

The role of the SMN gene in proximal spinal muscular atrophy.

Childhood spinal muscular atrophy (SMA) is a common recessive autosomal disorder that results in degeneration of lower motor neurons. The identification of the disease gene, Survival of Motor Neuron (SMN), was a major advance in understanding the molecular basis underlying this devastating neuromuscular disease. This finding has greatly improved the genetic counselling of SMA families. Recently, biochemical studies demonstrated its involvement in the biogenesis of spliceosomal snRNPs, suggesting a critical role of SMN in RNA processing. Surprisingly, other studies showed a putative role of SMN in an anti-apoptotic pathway involving Bcl-2. The function of SMN protein is not fully understood. These observations emphasized the difficulty in elucidating the function of any novel protein. Therefore, multidisciplinary approaches are required to understand the pathogenesis of SMA.

Report on the Fifth International Workshop on Chromosome 9 held at Eynsham, Oxfordshire, UK, September 4-6, 1996.

The Fifth International workshop on chromosome 9 comprised a gathering of 36 scientists from seven countries and included a fairly even distribution of interests along chromosome 9 as well as a strong input from more global activities and from comparative mapping. At least eight groups had participated in the goal set at the previous workshop which was to improve the fine genetic mapping in different regions of chromosome 9 by meiotic breakpoint mapping in allocated regions and this has resulted in some greatly improved order information. Excellent computing facilities were available and all contributed maps were entered not only into SIGMA (and thence submitted to GDB) but also into a dedicated version of ACEDB which can be accessed on the Web in the form of one of 28 slices into which the chromosome has been arbitrarily divided. It was generally agreed that the amount of data is now overwhelming and that the integration and validation of all data is not only unrealistic in a short meeting but probably impossible until the whole chromosome has been sequenced and fully annotated. Sequence-ready contigs presented at the meeting totalled about 3 MB which is about one fiftieth of the estimated length. The single biggest barrier to integration of maps is the problem of non-standard nomenclature of loci. In the past 2 workshops efforts have been made to compare traditional 'consensus' maps made by human insight (still probably best for small specific regions) with those generated with some computer assistance (such as SIGMA) and those generated objectively by defined computer algorithms such as ldb. Since no single form of map or representation is entirely satisfactory for all purposes the maps reproduced in the published version of the report are confined to one of the genetic maps, in which Genethon and older markers have been incorporated, a Sigma map of the genes as symbols together with a listing of known 'disease' genes on chromosome 9, and a revised assessment of the mouse map together with a list of mouse loci predicted to be on human chromosome 9. One of the 28 ACEDB slices is also shown to illustrate strengths and weaknesses of this approach. Workshop files include not only all maps available at the time but also details of loci and details of the meiotic breakpoints in the CEPH families (http:/(/)www.gene.ucl.ac.uk/scw9db.shtml) .

Retinal-specific guanylate cyclase gene mutations in Leber's congenital amaurosis.

Leber's congenital amaurosis (LCA, MIM 204,000), the earliest and most severe form of inherited retinopathy, accounts for at least 5% of all inherited retinal dystrophies. This autosomal recessive condition is usually recognized at birth or during the first months of life in an infant with total blindness or greatly impaired vision, normal fundus and extinguished electroretinogram (ERG). Nystagmus (pendular type) and characteristic eye poking are frequently observed in the first months of life (digito-ocular sign of Franceschetti). Hypermetropia and keratoconus frequently develop in the course of the disease. The observation by Waardenburg of normal children born to affected parents supports the genetic heterogeneity of LCA. Until now, however, little was known about the pathophysiology of the disease, but LCA is usually regarded as the consequence of either impaired development of photoreceptors or extremely early degeneration of cells that have developed normally. We have recently mapped a gene for LCA to chromosome 17p13.1 (LCA1) by homozygosity mapping in consanguineous families of North African origin and provided evidence of genetic heterogeneity in our sample, as LCA1 accounted for 8/15 LCA families in our series. Here, we report two missense mutations (F589S) and two frameshift mutations (nt 460 del C, nt 693 del C) of the retinal guanylate cyclase (RETGC, GDB symbol GUC2D) gene in four unrelated LCA1 probands of North African ancestry and ascribe LCA1 to an impaired production of cGMP in the retina, with permanent closure of cGMP-gated cation channels.

A metric map of humans: 23,500 loci in 850 bands.

High-resolution maps integrated with the enhanced location data base software (LDB+) give improved estimates of genetic parameters and reveal characteristics of cytogenetic bands. Chiasma interference is intermediate between Kosambi and Carter-Falconer levels, as in Drosophila and the mouse. The autosomal genetic map is 2832 and 4348 centimorgans in males and females, respectively. Telomeric T-bands are strikingly associated with male recombination and gene density. Position and centromeric heterochromatin have large effects, but nontelomeric R-bands are not significantly different from G-bands. Several possible reasons are discussed. These regularities validate the maps, despite their high resolution and inevitable local errors. No other approach has been demonstrated to integrate such a large number of loci, which are increasing at about 45% per year. The maps and the data and software from which they are constructed are available through the Internet (http:@cedar.genetics.soton.ac.uk/public_html). Successive versions of this location data base may also be accessed on CD-ROM.

[Fifty years of medical genetics. A tribute to Maurice Lamy on the hundredth anniversary of his birth]. / Un demi-siècle de génétique Médicale. un hommage à Maurice Lamy, pour le centième anniversaire de sa naissance.

Before 1960, no disease gene had been mapped to human chromosome apart from the sex-linked characters which are carried by the X chromosome. The first assignments were inferred from the results of somatic cells hydridization and concerned enzymatic deficiencies and protein defects. They were followed by the data gained from the cytogenetics studies of microrearrangements, either deletions or translocations. The family and linkage studies began to be successfully undertaken following the discovery of polymorphic probes. The breakthrough came out with the availability of highly polymorphic microsatellites scanning quite evenly, the major part of the genome. Currently, more than 1,000 clinical disorders are mapped and compiled in the database GID/GENATLAS. They concern all chapters and extend to characters which are usually sporadic, such as malignant tumours and congenital malformations. The mapping endeavour already had great impact on our understanding of fundamental life processes and unveiled the extent of genetic heterogeneity of diseases. Its major consequences concern prenatal diagnosis. The applications tend to extend towards presymptomatic diagnosis, and screening of carriers, two procedures still controversial, which request due consideration of their inherent risks and side effects and cannot be undertaken without the informed consent of patients. Predictive testing for the detection of liabilities is still a subject of lively debate. Although the spectacular advances of mapping and its implications open great hopes for the prevention and even cure of disease, care has to be taken to their limits and risks and, in their approach, full consideration must be given the respect if human person.

Exclusion of the cone-specific alpha-subunit of the transducin gene in Stargardt's disease.

Stargardt's disease is an autosomal recessive infantile macular degeneration of unknown origin whose gene has been recently mapped to chromosome 1p21-p13 by linkage analysis in eight multiplex families. Since the cone-specific alpha-subunit of the transducin gene (GNAT2) has been mapped to chromosome 1p13, we tested GNAT2 as the disease-causing gene in our series. Using a novel intragenic polymorphism, we show here that GNAT2 is most probably located centromeric to the genetic interval encompassing the disease gene (D1S424-D1S236, location score = 3.54). In addition, single-strand conformation polymorphism and sequence analyses of the eight exons of the GNAT2 gene was performed in our probands. No evidence of a deleterious base substitution was observed in any affected individual. Taken together, these results support the exclusion of GNAT2 as the causal disease gene of Stargardt's disease. come. The pathogenesis is unknown and the treatment is limited to ultraviolet ray protection with dark glasses. Stargardt's disease has been recently mapped to chromosome 1p21-p13 in the genetic interval defined by loci D1S424 and D1S236. In addition, our previous study has suggested that Stargardt's disease is genetically homogeneous (Kaplan et al. 1993). With respect to the physical mapping of the proteins specific to the retinal pigmentary epithelium or to cones we noted that the cone-specific alpha-subunit of the transducin gene (GNAT2) has been mapped to chromosome 1p13 (Wilkie et al. 1992). The human GNAT2 is 9967 bp in length and consists of eight exons with seven introns (Morris and Fong 1993). In the present study, we examined this gene as the candidate gene in eighteen unrelated patients affected with Stargardt's disease.

Stargardt's disease is not allelic to the genes for neuronal ceroid lipofuscinoses.

Stargardt's disease is an autosomal recessive condition characterised by a rapid and bilateral loss of central vision at around 7 to 12 years, with typical changes in the macular and perimacular region. It is one of the most frequent causes of macular degeneration in childhood and accounts for 7% of all retinal dystrophies. Considering that inclusions of lipofuscin-like substances are observed in retinal pigmentary cells of patients with Stargardt's disease on the one hand, and that the early symptoms of neuronal ceroid lipofuscinosis (CLN3) are suggestive of Stargardt's disease on the other hand (age of loss of visual acuity, appearance of the fundus), we decided to test allelism of Stargardt's disease with the infantile (CLN1) and juvenile forms of neuronal ceroid lipofuscinosis (CLN3), which map to chromosomes 1p32 and 16p12-p11 respectively. Using highly informative microsatellite DNA markers in eight multiplex families, we were able to exclude Stargardt's disease from the vicinity of the CLN1 and CLN3 loci. These results strongly reject the hypothesis of allelism of Stargardt's disease with the neuronal forms of ceroid lipofuscinosis.

[Prenatal, neonatal and postnatal prevention in cystic fibrosis]. / La prévention anté-natale, néonatale et post-natale dans la mucoviscidose.

The efficiency of neonatal screening for CF could be improved by associating a molecular analysis to the immunoreactive trypsin test, on the same dried blood's sample. However the interest of such a screening for the patients benefit remains controversial. In most cases, antenatal diagnosis may be performed by a direct search of the mutation(s). However, the impact of antenatal diagnosis on CF's incidence will necessarily be limited if it can only be implemented after the birth of an affected child. Hence the interest of screening programs for the detection of healthy carriers. Carrier's detection does not raise any objection for the relatives of patients. It is still premature to recommend it to be undertaken in the general population.

A gene for Usher syndrome type I (USH1A) maps to chromosome 14q.

Usher syndrome (US) is an autosomal recessive disease characterized by congenital hearing impairment and retinitis pigmentosa. It is the most frequent cause of deaf-blindness in adults and accounts for 3 to 6% of deaf children. Here, we report the genetic mapping of a gene for US type I (USH1A), the most severe form of the disease, to the long arm of chromosome 14, by linkage to probe MLJ14 at the D14S13 locus in 10 families of Western France ancestry (Z = 4.13 at theta = 0). Among them, 8 families originated from a small area of the Poitou-Charentes region (Z = 3.78 at theta = 0), suggesting that a founder effect could be involved. However, since not all US type I families were found to be linked to this locus, the present study provides evidence for genetic heterogeneity of this condition (heterogeneity versus homogeneity test HOMOG, P < 0.05; heterogeneity versus no linkage, P < 0.01).

[Phenylketonuria yesterday and today. Evaluation of the work of systematic neonatal screening]. / La phénylcétonurie hier et aujourd'hui. Bilan de l'action de dépistage néonatal systématique.

Phenylketonuria is due in the very great majority of cases to a deficiency in phenylalanine hydroxylase, an enzyme whose cofactor is biopterin. Prenatal screening consists in measuring the concentration of phenylalanine in a sample of dried blood taken after birth (levels are already raised by day 3). Screening, organized by the Association française pour le dépistage et la prévention des handicaps de l'enfant, is very thorough (cover greater than 99%). Treatment involves observance of dietary restriction for at least five years. Results are good. Questions concerning the useful duration of dietary treatment, the level of phenylalanine that should not be exceeded, and the future of girls with PKU remain controversial. When adult, such girls may give birth to retarded children if they do not resume dietary restriction before becoming pregnant. Now that problems of screening, its organization, and the management of diet have been solved, these questions are the new challenge that faces us.

Mapping the eye diseases.

In this review the authors first give an overview of the general strategies of mapping which differ whether the biochemical (molecular) defect of the disease is known or not. The main problems besides mapping are concerned for the first category with the correlation between mutation and phenotype and for the second, with heterogeneity, genetic vs phenotypic. Finally, tables are displayed of eye diseases or diseases with eye involvement (metabolic or not) which have been currently mapped, as well as candidate genes actually or putatively involved in visual transduction.