PTEN mutation spectrum and genotype-phenotype correlations in Bannayan-Riley-Ruvalcaba syndrome suggest a single entity with Cowden syndrome.
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Germline mutations in the tumour suppressor gene PTEN have been implicated in two hamartoma syndromes that exhibit some clinical overlap, Cowden syndrome (CS) and Bannayan-Riley-Ruvalcaba syndrome (BRR). PTEN maps to 10q23 and encodes a dual specificity phosphatase, a substrate of which is phosphatidylinositol 3,4,5-triphosphate, a phospholipid in the phosphatidylinositol 3-kinase pathway. CS is characterized by multiple hamartomas and an increased risk of benign and malignant disease of the breast, thyroid and central nervous system, whilst the presence of cancer has not been formally documented in BRR. The partial clinical overlap in these two syndromes is exemplified by the hallmark features of BRR: macrocephaly and multiple lipomas, the latter of which occur in a minority of individuals with CS. Additional features observed in BRR, which may also occur in a minority of CS patients, include Hashimoto's thyroiditis, vascular malformations and mental retardation. Pigmented macules of the glans penis, delayed motor development and neonatal or infant onset are noted only in BRR. In this study, constitutive DNA samples from 43 BRR individuals comprising 16 sporadic and 27 familial cases, 11 of which were families with both CS and BRR, were screened for PTEN mutations. Mutations were identified in 26 of 43 (60%) BRR cases. Genotype-phenotype analyses within the BRR group suggested a number of correlations, including the association of PTEN mutation and cancer or breast fibroadenoma in any given CS, BRR or BRR/CS overlap family ( P = 0.014), and, in particular, truncating mutations were associated with the presence of cancer and breast fibroadenoma in a given family ( P = 0.024). Additionally, the presence of lipomas was correlated with the presence of PTEN mutation in BRR patients ( P = 0.028). In contrast to a prior report, no significant difference in mutation status was found in familial versus sporadic cases of BRR ( P = 0.113). Comparisons between BRR and a previously studied group of 37 CS families suggested an increased likelihood of identifying a germline PTEN mutation in families with either CS alone or both CS and BRR when compared with BRR alone ( P = 0.002). Among CS, BRR and BRR/CS overlap families that are PTEN mutation positive, the mutation spectra appear similar. Thus, PTEN mutation-positive CS and BRR may be different presentations of a single syndrome and, hence, both should receive equal attention with respect to cancer surveillance. (+info)
Linkage and association of atopic asthma to markers on chromosome 13 in the Japanese population.
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Chromosome 13 contains several candidate genes for asthma and atopy, and markers on this chromosome have been shown to be linked to phenotypes of atopy or asthma in two genome-wide searches. We conducted a linkage study for atopic asthma using markers spanning the whole of chromosome 13 in Japanese families ascertained through asthmatic children and examined associations of atopic asthma with markers where linkage was suggested. Data were analysed using MAPMAKER/SIBS for the multipoint lod score (MLS) analysis and SIB-PAIR for the transmission dis-equilibrium test (TDT). Three peaks which exceeded a lod score of 1.0 were observed (MLS 2.4 between D13S175 and D13S217, MLS 2.0 between D13S153 and D13S156, and MLS 1.4 between D13S285 and D13S293). The global TDT for atopic asthma was significant for the marker D13S153 ( P = 0.0065) and the 96 bp allele of D13S153 was preferentially transmitted to atopic asthma-affected children ( P = 0.0009, Bonferroni correction 5% = 0. 0037, 1% = 0.00072). These findings indicate that genes on chromosome 13 may play an important role in the development of atopy or asthma across various populations. (+info)
Cellular dysfunction of LQT5-minK mutants: abnormalities of IKs, IKr and trafficking in long QT syndrome.
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Mutations in the minK gene KCNE1 have been linked to the LQT5 variant of human long QT syndrome. MinK assembles with KvLQT1 to produce the slow delayed rectifier K+ current IKs and may assemble with HERG to modulate the rapid delayed rectifier IKr. We used electrophysiological and immunocytochemical methods to compare the cellular phenotypes of wild-type minK and four LQT5 mutants co-expressed with KvLQT1 in Xenopus oocytes and HERG in HEK293 cells. We found that three mutants, V47F, W87R and D76N, were expressed at the cell surface, while one mutant, L51H, was not. Co-expression of V47F and W87R with KvLQT1 produced IKs currents having altered gating and reduced amplitudes compared with WT-minK, co-expression with L51H produced KvLQT1 current rather than IKs and co-expression with D76N suppressed KvLQT1 current. V47F increased HERG current but to a lesser extent than WT-minK, while L51H and W87R had no effect and D76N suppressed HERG current markedly. Thus, V47F interacts with both KvLQT1 and HERG, W87R interacts functionally with KvLQT1 but not with HERG, D76N suppresses both KvLQT1 and HERG, and L51H is processed improperly and interacts with neither channel. We conclude that minK is a co-factor in the expression of both IKs and IKr and propose that clinical manifestations of LQT5 may be complicated by differing effects of minK mutations on KvLQT1 and HERG. (+info)
Aberrant splicing in the presenilin-1 intron 4 mutation causes presenile Alzheimer's disease by increased Abeta42 secretion.
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We previously described a splice donor site mutation in intron 4 of presenilin-1 (PSEN1) in two patients with autopsy-confirmed early-onset Alzheimer's disease (AD). Here we provide evidence that the intron 4 mutation is present in four additional unrelated early-onset AD cases, that the mutation segregates in an autosomal dominant manner and that all cases have one common ancestor. We demonstrate that the intron 4 mutation produces three different transcripts, two deletion transcripts (Delta4 and Delta4cryptic) and one insertion transcript (insTAC), by aberrant splicing. The deletion transcripts result in the formation of C-truncated (approximately 7 kDa) PSEN1 proteins while the insertion transcript produces a full-length PSEN1 with one extra amino acid (Thr) inserted between codons 113 and 114 (PSEN1 T113-114ins). The truncated proteins were not detectable in vivo in brain homogenates or lymphoblast lysates of mutation carriers. In vitro HEK-293 cells overexpressing Delta4, Delta4cryptic or insTACPSEN1 cDNAs showed increased Abeta42 secretion (approximately 3.4 times) only for the insertion cDNA construct. Increased Abeta42 production was also observed in brain homogenates. Our data indicate that in the case of intron 4 mutation, the AD pathophysiology results from the presence of the PSEN1 T113-114ins protein comparable with cases carrying dominant PSEN1 missense mutations. (+info)
A nonsense mutation in a novel gene is associated with retinitis pigmentosa in a family linked to the RP1 locus.
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Retinitis pigmentosa (RP) represents a group of inherited human retinal diseases which involve degeneration of photoreceptor cells resulting in visual loss and often leading to blindness. In order to identify candidate genes for the causes of these diseases, we have been studying a pool of photoreceptor-specific cDNAs isolated by subtractive hybridization of mRNAs from normal and photoreceptorless rd mouse retinas. One of these cDNAs was of interest because it mapped to proximal mouse chromosome 1 in a region homo-logous to human 8q11-q13, the locus of autosomal dominant RP1. Therefore, using the mouse cDNA as probe, we cloned the human cDNA (hG28) and its corresponding gene and mapped it near to D8S509, which lies in the RP1 locus. This gene consists of four exons with an open reading frame of 6468 nt encoding a protein of 2156 amino acids with a predicted mass of 240 kDa. Given its chromosomal localization, we screened this gene for mutations in a large family affected with autosomal dominant RP previously linked to the RP1 locus. We found an R677X mutation that co-segregated with disease in the family and is absent from unaffected members and 100 unrelated controls. This mutation is predicted to lead to rapid degradation of hG28 mRNA or to the synthesis of a truncated protein lacking approximately 70% of its original length. Our results suggest that R677X is responsible for disease in this family and that the gene corresponding to hG28 is the RP1 gene. (+info)
Proteolipoprotein gene analysis in 82 patients with sporadic Pelizaeus-Merzbacher Disease: duplications, the major cause of the disease, originate more frequently in male germ cells, but point mutations do not. The Clinical European Network on Brain Dysmyelinating Disease.
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Pelizaeus-Merzbacher Disease (PMD) is an X-linked developmental defect of myelination affecting the central nervous system and segregating with the proteolipoprotein (PLP) locus. Investigating 82 strictly selected sporadic cases of PMD, we found PLP mutations in 77%; complete PLP-gene duplications were the most frequent abnormality (62%), whereas point mutations in coding or splice-site regions of the gene were involved less frequently (38%). We analyzed the maternal status of 56 cases to determine the origin of both types of PLP mutation, since this is relevant to genetic counseling. In the 22 point mutations, 68% of mothers were heterozygous for the mutation, a value identical to the two-thirds of carrier mothers that would be expected if there were an equal mutation rate in male and female germ cells. In sharp contrast, among the 34 duplicated cases, 91% of mothers were carriers, a value significantly (chi2=9. 20, P<.01) in favor of a male bias, with an estimation of the male/female mutation frequency (k) of 9.3. Moreover, we observed the occurrence of de novo mutations between parental and grandparental generations in 17 three-generation families, which allowed a direct estimation of the k value (k=11). Again, a significant male mutation imbalance was observed only for the duplications. The mechanism responsible for this strong male bias in the duplications may involve an unequal sister chromatid exchange, since two deletion events, responsible for mild clinical manifestations, have been reported in PLP-related diseases. (+info)
The gene for hypotrichosis of Marie Unna maps between D8S258 and D8S298: exclusion of the hr gene by cDNA and genomic sequencing.
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Hypotrichosis of Marie Unna (MU) is an autosomal dominant hair-loss disorder with onset in childhood. A genomewide search for the gene was performed in a large Dutch family using 400 fluorescent microsatellite markers. Linkage was detected with marker D8S258, and analysis of this family and a further British kindred with additional markers in the region gave a combined maximum two-point LOD score of 13.42, with D8S560. Informative recombinants placed the MU gene in a 2.4-cM interval between markers D8S258 and D8S298. Recently, recessive mutations in the hr gene were reported in families with congenital atrichia, and this gene was previously mapped close to the MU interval. By radiation-hybrid mapping, we placed the hr gene close to D8S298 but were unable to exclude it from the MU interval. This, with the existence of the semidominant murine hr allele, prompted us to perform mutation analysis for this gene. Full-length sequencing of hr cDNA obtained from an affected individual showed no mutations. Similarly, screening of all exons of the hr gene amplified from the genomic DNA of an affected individual revealed no mutations. Analysis of expressed sequences and positional cloning of the MU locus is underway. (+info)
Autosomal dominant cerebellar ataxia type III: linkage in a large British family to a 7.6-cM region on chromosome 15q14-21.3.
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Autosomal dominant cerebellar ataxia type III (ADCA III) is a relatively benign, late-onset, slowly progressive neurological disorder characterized by an uncomplicated cerebellar syndrome. Three loci have been identified: a moderately expanded CAG trinucleotide repeat in the SCA 6 gene, the SCA 5 locus on chromosome 11, and a third locus on chromosome 22 (SCA 10). We have identified two British families in which affected individuals do not have the SCA 6 expansion and in which the disease is not linked to SCA 5 or SCA 10. Both families exhibit the typical phenotype of ADCA III. Using a genomewide searching strategy in one of these families, we have linked the disease phenotype to marker D15S1039. Construction of haplotypes has defined a 7.6-cM interval between the flanking markers D15S146 and D15S1016, thereby assigning another ADCA III locus to the proximal long-arm of chromosome 15 (SCA 11). We excluded linkage of the disease phenotype to this region in the second family. These results indicate the presence of two additional ADCA III loci and more clearly define the genetic heterogeneity of ADCA III. (+info)