Showing papers by "Guy A. Rouleau published in 1999"

Connexin46 mutations in autosomal dominant congenital cataract

Abstract: Loci for autosomal dominant "zonular pulverulent" cataract have been mapped to chromosomes 1q (CZP1) and 13q (CZP3). Here we report genetic refinement of the CZP3 locus and identify underlying mutations in the gene for gap-junction protein alpha-3 (GJA3), or connexin46 (Cx46). Linkage analysis gave a significantly positive two-point LOD score (Z) at marker D13S175 (maximum Z [Zmax]=>7.0; maximum recombination frequency [thetamax] =0). Haplotyping indicated that CZP3 probably lies in the genetic interval D13S1236-D13S175-D13S1316-cen-13pter, close to GJA3. Sequencing of a genomic clone isolated from the CZP3 candidate region identified an open reading frame coding for a protein of 435 amino acids (47,435 D) that shared approximately 88% homology with rat Cx46. Mutation analysis of GJA3 in two families with CZP3 detected distinct sequence changes that were not present in a panel of 105 normal, unrelated individuals. In family B, an A-->G transition resulted in an asparagine-to-serine substitution at codon 63 (N63S) and introduced a novel MwoI restriction site. In family E, insertion of a C at nucleotide 1137 (1137insC) introduced a novel BstXI site, causing a frameshift at codon 380. Restriction analysis confirmed that the novel MwoI and BstXI sites cosegregated with the disease in families B and E, respectively. This study identifies GJA3 as the sixth member of the connexin gene family to be implicated in human disease, and it highlights the physiological importance of gap-junction communication in the development of a transparent eye lens.

Prediction of level of serotonin 2A receptor binding by serotonin receptor 2A genetic variation in postmortem brain samples from subjects who did or did not commit suicide.

Abstract: OBJECTIVE: Postmortem studies have indicated that suicide victims have greater serotonin receptor 2A (5-HTR2A) binding in prefrontal brain regions. However, there remains some controversy regarding the biological specificity of these findings. The authors hypothesized that the variance observed in brain 5-HTR2A binding is genetically mediated, at least in part. METHOD: Postmortem data from 56 subjects who had committed suicide and 126 normal comparison subjects were studied; brain tissue was available from 11 subjects who committed suicide and 11 comparison subjects. Homogenate binding assays were carried out with [3H]ketanserin. Variation at the 5-HTR2A gene (HTR2A) was investigated by means of two polymorphisms: T102C and A-1438G. RESULTS: 5-HTR2A binding was greater in the prefrontal cortex of the subjects who committed suicide. In addition, the findings suggest that HTR2A variation significantly affects 5-HTR2A binding. However, no interaction between suicidal behavior and this locus was observed. CON...

Oculopharyngeal muscular dystrophy.

Abstract: Autosomal dominant oculopharyngeal muscular dystrophy (OPMD) is an adult-onset disease with worldwide distribution. It usually presents in the fifth or sixth decades with progressive dysphagia, eyelid ptosis, and proximal limb weakness. Unique intranuclear filament inclusions in skeletal muscle fibers are its morphological hallmark. Surgical correction of the ptosis and cricopharyngeal myotomy are the only therapies available. Autosomal dominant OPMD is caused by short (GCG)8-13 riplet-repeat expansions in the polyadenylation binding protein 2 (PABP2) gene, which is localized in chromosome 14q11. Autosomal recessive OPMD is caused by a double dose of a (GCG)7 PABP2 allele. The GCG expansions cause lengthening of a predicted polyalanine tract in the protein. The expanded polyalanine domains may cause polyalanine nuclear toxicity by accumulating as nondegradable nuclear filaments.

T102C polymorphism in the 5HT2A gene and schizophrenia: relation to phenotype and drug response variability.

Abstract: Although genes play a major role in the etiology of schizophrenia, no major genes involved in this disease have been identified. However, several genes with small effect have been reported, though inconsistently, to increase the risk for schizophrenia. Recently, the 5HT2A 2 allele (T102C polymorphism) was reported to be over-represented in patients with schizophrenia. Other reports have found an excess of allele 2(C) only in schizophrenic patients who are resistant to clozapine, not in those who respond to clozapine. In this study, the 5HT2A receptor allele 2 frequencies were compared between 2 groups of patients with schizophrenia (39 responders and 63 nonresponders) based on long-term outcome and response to typical neuroleptics. A control group of 90 healthy volunteers screened for mental disorders was also included. Genotype 2/2 tended to be more frequent in patients with schizophrenia with poor long-term outcome and poor response to typical neuroleptics (Bonferroni corrected p = 0.09). This difference was significant in men (Bonferroni corrected p = 0.054) but not in women. In addition, the age at first contact with psychiatric care was significantly younger in the patients with schizophrenia with genotype 2/2 than in patients with genotype 1/1. These result suggest that the 5HT2A-receptor gene may play a role in a subset of schizophrenia characterized by poor long-term outcome and poor response to neuroleptics.

Homozygotes for oculopharyngeal muscular dystrophy have a severe form of the disease

Abstract: Autosomal dominant oculopharyngeal muscular dystrophy (OPMD) usually begins with ptosis or dysphagia during the fifth or sixth decade of life. We studied 7 patients with OPMD symptoms starting before the age of 36 years. All were found to be homozygotes for the dominant (GCG)9 OPMD mutation. On average, disease onset was 18 years earlier than in heterozygotes, and patients had a significantly larger number of muscle nuclei containing intranuclear inclusions (INIs) (9.4 vs 4.9%).

Analysis of 14 CAG repeat-containing genes in schizophrenia

Abstract: Recently, it has been suggested that trinucleotide repeat-containing genes may be involved in the etiology of schizophrenia. This study was aimed at investigating putative associations between allelic variants or expansions of CAG repeat-containing genes (CAGrCG) and schizophrenia or its variability with respect to responsiveness to conventional neuroleptics. CAG repeat allelic variants of 14 expressed sequences were compared among three groups of subjects: neuroleptic-responder (R; n = 43) and neuroleptic-nonresponder (NR; n = 63) schizophrenic patients, and a control group (C; n = 122). No CAG expansions, in the range of those observed in neurodegenerative diseases, were identified in these 14 expressed sequences. The sizes of CAG repeat for the hGT1 gene were marginally different among the three groups of subjects (Kruskal-Wallis H (2, 456) = 10.48, Bonferroni corrected P = 0.047). Comparisons among the different groups indicated that neuroleptic responders have shorter alleles compared to controls (Mann-Whitney adjusted Z = -3.23, P = 0.0012). NR patients were not different from controls. These preliminary results suggest that the hGT1 gene, or a gene in its vicinity, may be involved in the etiology of schizophrenia or in modifying the disease phenotype with regard to outcome and/or neuroleptic responsiveness. Am. J. Med. Genet. (Neuropsychiatr. Genet.) 88:694-699, 1999.

Spinocerebellar ataxia type 6: evidence for a strong founder effect among German families.

Abstract: Article abstract The authors found a strong geographic cluster of spinocerebellar ataxia type 6 (SCA6) families in the Northrhine–Westfalia area, suggesting a founder effect in the German SCA6 population. Genotyping with DNA markers linked to the CACNL1A4 gene on chromosome 19p13 revealed a common haplotype and shared allelic characteristics in the majority of German families. The observed founder effect may be related to the relative meiotic stability of CAG repeats in this type of autosomal dominant cerebellar ataxia.

Deletions causing spinal muscular atrophy do not predispose to amyotrophic lateral sclerosis.

Abstract: Background Amyotrophic lateral sclerosis (ALS) is a rapidly progressive, invariably lethal disease resulting from the premature death of motor neurons of the motor cortex, brainstem, and spinal cord. In approximately 15% of familial ALS cases, the copper/zinc superoxide dismutase gene is mutated; a juvenile form of familial ALS has been linked to chromosome 2. No cause has been identified in the remaining familial ALS cases or in sporadic cases and the selective neurodegenerative mechanism remains unknown. Deletions in 2 genes on chromosome 5q, SMN (survival motor neuron gene) and NAIP (neuronal apoptosis inhibitory protein gene), have been identified in spinal muscular atrophy, a disease also characterized by the loss of motor neurons. These genes are implicated in the regulation of apoptosis, a mechanism that may explain the cell loss found in the brains and spinal cords of patients with ALS. Objective To determine whether the mutations causing neurodegeneration in spinal muscular atrophy are present in patients with ALS in whom the copper/zinc superoxide dismutase gene is not mutated. Patients and Methods Patients in whom ALS was diagnosed were screened for mutations in the SMN and NAIP genes by single strand conformation analysis. Results We found 1 patient with an exon 7 deletion in the SMN gene; review of clinical status confirmed the molecular diagnosis of spinal muscular atrophy. No mutations were found in the remaining patients. Conclusion The SMN and NAIP gene mutations are specific for spinal muscular atrophy and do not predispose individuals to ALS.

Study of three intragenic polymorphisms in the Machado-Joseph disease gene (MJD1) in relation to genetic instability of the (CAG)n tract.

Abstract: Intergenerational instability is one of the most important features of the disease-associated trinucleotide expansions, leading to variation in size of the repeat among and within families, which manifests as variable age at onset and severity, and is probably the basis for the occurrence of anticipation. Several factors are known to affect the degree of instability, namely the type of repeated sequence, its initial size, the presence or absence of interruptions in the repetitive tract and the gender of the transmitting parent. A recent study demonstrated the effect of an intragenic polymorphism (C987GG/G987GG) in the Machado-Joseph disease causative gene, immediately downstream of the CAG repeat, on the intergenerational instability of the expanded repeat. Surprisingly, there was an effect not only of the specific allele in cis to the disease chromosome, but also of the allele on the normal chromosome, suggesting the existence of an interaction between the normal and expanded alleles that affects the fidelity of replication of the (CAG)n tract. This effect could be a direct effect of the polymorphism studied or, alternatively, this polymorphism could be in disequilibrium with some other flanking sequence which affects the instability of the repetitive (CAG)n tract. In order to confirm the previous results in a different population and to distinguish between a direct and indirect effect of the CGG/GGG polymorphism, we typed 70 parent–progeny pairs for which the variation in the (CAG)n length in the MJD1 gene was known, for three intragenic polymorphisms: C987GG/G987GG and two additional, newly described ones, TAA1118/TAC1118 and A669TG/G669TG. We also typed a control population of 125 individuals for the A669TG/G669TG, C987GG/G987GG and TAA1118/TAC1118 polymorphisms, in an attempt to identify any association between haplotype and (CAG)n length in normal chromosomes, suggestive of an instability-predisposing effect of the repeat-flanking sequences, which could have led to the origin of the MJD mutation in the human population. We confirmed the effect of the C987GG/G987GG polymorphism on intergenerational instability when present in trans. Our results suggest that this effect is restricted to a small region of the gene, immediately downstream of the CAG repeat, which includes this particular nucleotide substitution and the stop codon of the MJD1 cDNA, and is not a more widespread chromosomal effect. The lack of a significant association of any specific intragenic haplotype with larger CAG repeats in normal chromosomes, together with the absence of an effect of the intragenic haplotype in cis on the intergenerational instability of the expanded (CAG)n in MJD families does not indicate the existence of an instability-predisposing haplotype.

Lack of association between the hSKCa3 channel gene CAG polymorphism and schizophrenia.

Abstract: Genetic anticipation, a phenomenon characterized by increased severity of symptoms and earlier age at onset of a disease in successive generations, is believed to be present in schizophrenia. In several neurodegenerative diseases showing anticipation, the mutation causing the disease is an expanded trinucleotide repeat. Therefore, genes containing trinucleotide repeats prone to expansion have become a suitable family of candidate genes in schizophrenia. A human calcium-activated potassium channel gene (hSKCa3), possibly mapping to chromosome 22q11-13, a region previously linked to schizophrenia, was recently described. This gene contains two contiguous expressed CAG repeat stretches. Recently, long allelic variants of one of these CAG repeats were found to be overrepresented in schizophrenic patients compared to normal controls. In this study we attempted to replicate this result and to study the relationship between the length of this CAG repeat on the one hand and the severity and age at onset of the disease on the other hand. No association with the disease or correlation with the severity of schizophrenia was identified. In addition, hSKCa3 was mapped to chromosome 1. Our results do not support the involvement of this particular CAG repeat-containing gene in schizophrenia.

Polyglutamine-containing proteins in schizophrenia.

Abstract: Genetic anticipation, manifested by increased severity and earlier age-at-onset of the disease over successive generations, is reported in schizophrenia. The molecular basis of anticipation in several neurodegenerative diseases is unstable coding CAG repeat expansions. Anticipation was reported in schizophrenia. Recently, studies suggested that enlarged CAG/CTG repeats are over represented in schizophrenic patients compared to normal controls. Together, these observations suggest that unstable CAG repeats may play a role in the etiology of schizophrenia. The purpose of this study is to test for the presence of polyglutamine-expanded tracts, encoded by CAG repeats, in total protein extracts derived from lymphoblastoid cell lines of schizophrenic patients. Proteins from schizophrenic patients (n = 59) and normal controls (n = 73) were separated by means of SDS-polyacrylamide gel electrophoresis, wet blotted onto nitrocellulose membrane and probed with a monoclonal antibody (mab 1C2) recognizing expanded polyglutamine arrays. Three abnormal bands corresponding to protein(s) of molecular weight of approximately 50 kDa were identified in two unrelated schizophrenic patients and in a sibling of one of these patients. None of the normal controls tested positive for this abnormal band. These results suggest that expanded polyglutamine-containing proteins, though rare, may play a role in the pathogenesis of schizophrenia.

Instability of the EPM1 Minisatellite

Abstract: Inherited mutations in the cystatin B gene ( CSTB ) are responsible for progressive myoclonus epilepsy type 1 (EPM1; MIM 254800). This autosomal recessive disease is characterized by variable progression to mental retardation, dementia and ataxia. The majority of EPM1 alleles identified to date contain expansions of a dodecamer repeat located upstream of the transcription start site of the CSTB gene. Normal alleles contain two or three copies of the repeat, whereas pathogenic alleles contain >40 repeats. We examined the meiotic stability of pathogenic, expanded EPM1 alleles from 17 EPM1 families by employing a fluorescence-based PCR-based genotyping assay capable of detecting single dodecamer repeat unit differences on an automated DNA sequencer. We followed 74 expanded allele transmissions to 30 affected individuals and 22 carriers. Thirty-five of 74 expanded allele transmissions demonstrated either contraction or expansion of the minisatellite, typically by a single repeat unit. Thus expanded alleles of the EPM1 minisatellite demonstrate a mutation rate of 47%, the highest yet observed for pathogenetic alleles of a human minisatellite.

Family density of alcoholism and linkage information in the analysis of the COGA data

Abstract: In this study of GAW11 Problem 1, we analyzed the genome scan data in families weighted according to the density of alcoholism among the probands' siblings. We hypothesized that certain disease-predisposing alleles may be common in the general population, rendering high-density sibships less informative for linkage. Three types of families were found in the data, with the prevalence of alcoholism of 1.0, 0.78, and 0.24 in the probands' sibships. The linkage results showed several peak lod scores on chromosomes 1, 2, 4, 8, 11, 19, and 21, the majority of which originated in only one or two types of families. However, for almost all markers, the maximum lod scores observed without the weights were equal to or exceeded the values obtained for any single type of family. These results indicate that although the stratification of families may be theoretically justified, in practice the best strategy is to use all available information.

Minimal expansion of the GCG repeat in the PABP2 gene does not predispose to sporadic inclusion body myositis

Abstract: Sporadic inclusion body myositis (IBM) is one of the most common acquired muscle diseases of adults. Usually, IBM presents in patients over 50 years of age with slowly progressive proximal muscle weakness, distal muscle weakness, or both, with characteristic early involvement of the long finger flexor muscles.1 Pathologically, IBM muscle shows rimmed vacuoles and characteristic nuclear or cytoplasmic 15- to 18-nm–diameter tubulofilamentous inclusions. We have observed that some oculopharyngeal muscular dystrophy (OPMD) patients, after a long duration of disease (15 to 20 years), manifest limb weakness similar to that seen in IBM. In such cases, muscle biopsies also show rimmed vacuoles and inclusions that consist not only of the specific 8.5-nm–diameter intranuclear filaments of Tome, but also the IBM type 15- to 18-nm tubulofilaments.2 These common features in OPMD and sporadic IBM raised the possibility that they share certain etiologic factors, even though the entities show substantially different characteristics. The mutations responsible for OPMD have recently been identified as a short GCG expansion in the poly (A) binding protein 2 gene ( PABP2 ) on chromosome 14.3 In …

Polyglutamine-containing proteins in neuropsychiatric disorders

Abstract: The present invention relates to diseases caused by CAG repeat expansions. More particularly, the present invention relates to neuropsychiatric diseases caused by CAG repeat expansions and even more particularly to schizophrenia and major depression. In particular, the present invention relates to the identification of at least one protein containing polyglutamine arrays, which acts as a marker for the pathogenesis of a neuropsychiatric disorder and more particularly for schizophrenia and major depression. The present invention further relates to diagnosis and treatment of neuropsychiatric disorders linked to polyglutamine tracts-containing proteins. The present invention further relates to diagnosis and treatment methods of neuropsychiatric disorders based on a targeting of the CAG/CTG repeat expansions encoding a polyglutamine tract. The present invention further provides methods of detecting nucleic acids encoding the polyglutamine tracts in a sample; kits containing nucleic acid probes or ligands of the polyglutamine tract, bio-assays using the nucleic acid sequences, and protein sequences of the present invention or ligands specific thereto to diagnose, assess, or prognose a mammal afflicted with or predisposed to develop a neuropsychiatric disorder linked to the presence of polyglutamine-containing proteins.