Medico-genetic studies of the Kostroma oblast population. X. Load of hereditary diseases in the population of Kostroma

Medical-genetic study of the population of Kostroma (the total size of the population analysed approx. 250,000) was carried on. The load of hereditary diseases in the population (per 1000) was 0.75 for autosomal dominant, 0.49 for autosomal recessive and 0.17 for X-linked recessive disorders. Significant differences in the prevalence of autosomal recessive hereditary disorders between rural populations and the population of Kostroma were observed. The dependence of the load of autosomal recessive pathology on random inbreeding was shown for the whole Kostroma province.     

Medico-genetical study of the population of the Kostroma Region. IV. Genetic load and diversity of hereditary pathology in 5 districts

Data on the prevalence of hereditary diseases in five regions of the Kostroma province were obtained and analysed. 28 autosomal recessive, 25 autosomal dominant and 4 X-linked recessive disorders were found. Segregation analysis proved the rightness of the material subdivision, according to the type of inheritance. The load of hereditary diseases in five regions was: 0.86 +/- 0.09 X 10(3) for autosomal recessive, 0.97 +/- 0.1 X 10(3) for autosomal dominant and 0.36 +/- 0.09 X 10(3) for X-linked recessive disorders. The problems of prevalence of hereditary diseases connected with population structure is discussed.     

Evidence of autosomal dominant mutations in childhood-onset proximal spinal muscular atrophy.

Autosomal recessive and dominant inheritance of proximal spinal muscular atrophy (SMA) are well documented. Several genetic studies found a significant deviation from the assumption of recessive inheritance in SMA, with affected children in one generation. The existence of new autosomal dominant mutations has been assumed as the most suitable explantation, which is supported by three observations of this study: (1) The segregation ratio calculated in 333 families showed a significant deviation from autosomal recessive inheritance in the milder forms of SMA (P = .09 +/- .06 for onset at 10-36 mo and .13 +/- .07 for onset at > 36 mo; and P = .09 +/- .07 for SMA IIIa and .12 +/- .07 for SMA IIIb). (2) Three families with affected subjects in two generations are reported, in whom the disease could have started as an autosomal dominant mutation. (3) Linkage studies with chromosome 5q markers showed that in 5 (5.4%) of 93 informative families the patient shared identical haplotypes with at least one healthy sib. Other mechanisms, such as the existence of phenocopies, pseudodominance, or a second autosomal recessive gene locus, cannot be excluded in single families. The postulation of spontaneous mutations, however, is a suitable explanation for all three observations. Estimated risk figures for genetic counseling are given.     

Medico-genetic study of the population of Uzbekistan. VIII. Territorial distribution of hereditary diseases in the population of four regions of the Khorezm province and its genetic load

The load of hereditary diseases was estimated on the basis of data obtained during medical-genetic study of the population of four districts of Khorezm province. The load of autosomal recessive disorders comprised 2-3 X 10(-3) affected, that of autosomal dominant disorders - 0.4-0.5 X 10(-3) and that of X-linked disorders - 0.2-0.4 X 10(-3) males. The main part of patients with autosomal recessive disorders belonged to separate families randomly spread over the populations. A trend for local accumulation of families with the same disorder was observed in small populations. It was shown that overall frequency of autosomal recessive genes per individual increased with the increase in the population size.     

Genetic analysis of juvenile periodontitis in families ascertained through an affected proband.

Data from 28 families ascertained through a proband with juvenile periodontitis were used to test a series of Mendelian models of inheritance that included both autosomal and X-linked transmission. There was strong evidence of familial aggregation of this progressive dental disease, and the best-fitting model was an autosomal recessive model. Because of the rather limited age range for expression of the disease in this situation, simulations were done, in a model-choice analysis using samples of this size, to assess the chance of mistaking an autosomal dominant disease (with masking of the affected phenotype outside a specified age range) for an autosomal recessive disease. While the rate of Type II error was fairly high (40%) when competing models in these simulations were compared, these data suggest that it is reasonable to infer that juvenile periodontitis is an autosomal recessive disorder.     

Population genetic studies of retinitis pigmentosa.

A questionnaire survey characterized a sample of 670 probands with retinitis pigmentosa (RP) and allied disorders. Segregation analysis provided some evidence for a small proportion of sporadic cases and for decreased segregation ratios of the dominant and recessive genotypes, which could be attributed to delayed age of onset in some cases. The overall incidence of RP was indirectly calculated to be approximately 1 in 3,700, while the incidence of autosomal recessive RP, including at least two genocopies, was estimated to be about 1 in 4,450. Family data analysis included the calculation of the likelihood that each family represented autosomal recessive, autosomal dominant, and X-linked inheritance patterns. These likelihoods were then converted to relative probabilities and summed over the sample population to yield estimates of the proportions of the three Mendelian types. This large, heterogeneous sample indicated that approximately 84% of the cases in the United States may be autosomal recessive, while about 10% are dominant and 6% X-linked recessive.     

Autosomal recessive and dominant forms of polycystic kidney disease are not allelic

Linkage analysis has been carried out in 11 kindreds with autosomal recessive polycystic kidney disease (ARPKD) using the genetic marker 3'HVR, closely linked (theta = 0.05) to the gene of the autosomal dominant type. Close linkage (theta less than or equal to 0.20) between the locus of the marker and that of ARPKD can be excluded. These data strongly suggest that the loci for the autosomal recessive and dominant forms of polycystic kidney disease are not allelic.     

Spectrum and territorial distribution of hereditary diseases in the population of the Krasnodar Krai]

The analysis of the spectrum of hereditary diseases in the population of the Krasnodar province is performed and the influence of the population dynamics factors on the spectrum is discussed. More than 130 nosological forms were discovered in the population of approx. 200,000. Among these, there are 63 autosomal dominant, 49 autosomal recessive and 17 X-linked recessive forms. Of the most frequent autosomal dominant diseases (more than 1 per 50,000) autosomal recessive and X-linked recessive disorders 13, 7 and 7 forms, respectively, were picked up. The coefficient of diversity of hereditary diseases (the number of nosological forms per 10 inhabitants) with different types of inheritance is higher in the Krasnodar population, as compared with the Kostroma population. The problem of similarity of the "nucleus" of autosomal-recessive disorders in Russian populations is discussed.     

Medico-genetic study of the population of Uzbekistan. VII. Variability of hereditary pathology in 4 regions of Khorezm province

Medical-genetic study was carried out in the population of Khorezm province (population size above 200 000 persons). Hereditary pathology was ascertained among families having two or more members affected with chronic non-infectious diseases. 155 families with 348 members affected with hereditary diseases were registered. The most frequent were autosomal recessive diseases (55 nosological forms in 104 families with 271 affected), then followed the autosomal dominant conditions (10 nosological forms in 21 families with 53 affected). The less frequent was X-linked recessive pathology (6 forms in 12 families with 20 affected). The main part of cases of autosomal recessive pathology were found in separate families and were not observed during previous medical-genetic studies in Uzbekistan. Three autosomal recessive conditions are probably new forms of hereditary pathology. The important role of assortative matings in manifestation of rare autosomal recessive genes in Uzbek population is discussed.     

Clinico-genetic analysis of congenital biliary atresia

Clinical and genetic analysis of 148 cases of biliary atresia identified in our patients and the literature data allowed to establish the genetic heterogeneity for these congenital malformations, determine the contribution of congenital syndromes to their origin and estimate empirical risk for probands sibs. Possible reasons for a high (9.8%) recurrent risk in sibs of the patients with intrahepatic biliary atresia are discussed. Special examination of probands and their parents to differentiate risk and evaluate the possibility of prenatal diagnosis is proposed. A supposedly "new" syndrome with autosomal recessive mode of inheritance associated with extrahepatic biliary atresia is reported.     

Independence of DNA repair after gamma irradiation and radioadaptive response in lymphocytes of patients with Bloom syndrome

The evidence for independency of DNA repair and radioadaptive response (RAR) was obtained in cells of patients with Bloom syndrome. The cells of patients with Bloom syndrome (human autosomal recessive disorder) are characterized by chromosomal instability and increased risk of malignancy at an early age. Resynthesis of gamma-induced DNA breaks wasn't find in lymphocytes of 3 patients with Bloom syndrome while the level of RAR was the same as in the cells of healthy donors.     

Prevalence of hereditary pathologies in residents of the Kirov Province]

Medical-genetic study was carried out in the population of Kirov Province (population size about 120.000). 203 families with 334 affected with hereditary disorders were registered. The correctness of pathology classification for the inheritance type was confirmed by segregational analysis. The load of hereditary diseases in the population was: 1.25 +/- 0.06 for autosomal dominant, 1.37 +/- 0.07 for autosomal recessive and 0.22 +/- 0.06 for X-linked recessive disorders. It is suggested that variability in the values of the load of autosomal recessive disorders is determined to the large extent by genetic structure of the population.     

Deletions in the Parkin gene and genetic heterogeneity in a Greek family with early onset Parkinson’s disease

Parkinson’s disease is the second most common neurodegenerative disease after Alzheimer’s disease and is manifested as a movement disorder. A positive family history is the second most important risk factor for developing the illness, after age. Both autosomal dominant and recessive forms of the illness have been described. Recently deletions in a novel gene, parkin, have been associated with the autosomal recessive form of the illness in Japanese families. In this study, we demonstrate that deletions of exons 5, 6 and 7 of the parkin gene are present in two affected individuals of a Greek pedigree with early onset Parkinson’s disease. However, no deletions were identified in a different branch of the same pedigree with three affected individuals. These results suggest that deletions in the parkin gene will be found in other families besides those of Japanese origin and that there must be at least one additional locus responsible for early onset autosomal recessive Parkinson’s disease. Received: 9 June 1998 / Accepted: 10 August 1998     

Genetic load of hereditary diseases in populations of the Krasnodar Krai]

Medico-genetical study of populations living in Krasnodar district was carried out. The mean value of genetic load contributed by autosomal dominant diseases composed 0.92 +/- 0.06, this value being 0.56 +/- 0.04 for autosomal recessive and 0.36 +/- 0.05 for X-linked recessive disorders per one thousand. Comparative analysis of genetical load in urban and rural populations demonstrated that they had no differences in relation to genetical load contributed by autosomal recessive and X-linked recessive disorders. At the same time, significant differences were noted between the populations concerning genetic load contributed by autosomal-dominant disorders.     

Comparison of clinical parameters with whole exome sequencing analysis results of autosomal recessive patients; a center experience

Whole-exome sequencing (WES) is an ideal method for the diagnosis of autosomal recessive diseases. The aim of this study was to evaluate the diagnostic power of WES in patients with autosomal recessive inheritance and to determine the relationship between genotype and phenotype. Retrospective screenings of 24 patients analysed with WES were performed and clinical and genetic data were evaluated. Any pathogenic mutation that could explain the suspected disease in 4 patients was not identified. A homozygous pathogenic mutation was detected in 18 patients. 2 patients had heterozygous mutations. According to this study results, WES is a successful technique to be used at the stage of diagnosis in patients who are accompanied by various degrees of intellectual disability matching the inheritance of the autosomal recessive.

     

De novo mutation of the connexin 26 gene associated with dominant non-syndromic sensorineural hearing loss

Mutations of the connexin 26 (Cx26) gene cause isolated recessive or dominant hearing loss or both sensorineural hearing impairment and keratoderma. We have identified the first de novo mutation of the Cx26 gene, R75 W, in a sporadic case of isolated profound hearing loss. R75 W has been previously observed in association with hearing impairment and keratoderma in one family and is thus thought to cause both syndromic and non-syndromic hearing loss. This case illustrates the risk of a possible erroneous diagnosis of autosomal recessive hearing loss in a sporadic case.     

Founder mutations in NDRG1 and HK1 genes are common causes of inherited neuropathies among Roma/Gypsies in Slovakia

Autosomal recessive forms of Charcot–Marie–Tooth disease (CMT) account for less than 10 % of all CMT cases, but are more frequent in the populations with a high rate of consanguinity. Roma (Gypsies) are a transnational minority with an estimated population of 10 to 14 million, in which a high degree of consanguineous marriages is a generally known fact. Similar to the other genetically isolated founder populations, the Roma harbour a number of unique or rare autosomal recessive disorders, caused by “private” founder mutations. There are three subtypes of autosomal recessive CMT with mutations private to the Roma population: CMT4C, CMT4D and CMT4G. We report on the molecular examination of four families of Roma origin in Slovakia with early-onset demyelinating neuropathy and autosomal recessive inheritance. We detected mutation p.R148X (g.631C>T) in the NDRG1 (NM_006096.3) gene in two families and mutation g.9712G>C in the HK1 (NM_033498) gene in the other two families. These mutations cause CMT4D and CMT4G, respectively. The success of molecular genetic analysis in all families confirms that autosomal recessive forms of CMT caused by mutations on the NDRG1 and HK1 genes are common causes of inherited neuropathies among Slovak Roma. Providing genetic analysis of these genes for patients with Roma origin as a common part of diagnostic procedure would contribute to a better rate of diagnosed cases of demyelinating neuropathy in Slovakia and in other countries with a Roma minority.     

Definitive evidence for an autosomal recessive form of hypohidrotic ectodermal dysplasia clinically indistinguishable from the more common X-linked disorder.

A crucial issue in genetic counseling is the recognition of nonallelic genetic heterogeneity. Hypohidrotic (anhidrotic) ectodermal dysplasia (HED), a genetic disorder characterized by defective development of hair, teeth, and eccrine sweat glands, is usually inherited as an X-linked recessive trait mapped to the X-linked ectodermal dysplasia locus, EDA, at Xq12-q13.1. The existence of an autosomal recessive form of the disorder had been proposed but subsequently had been challenged by the hypothesis that the phenotype of severely affected daughters born to unaffected mothers in these rare families may be due to marked skewing of X inactivation. Five families with possible autosomal recessive HED have been identified, on the basis of the presence of severely affected females and unaffected parents in single sibships and in highly consanguineous families with multiple affected family members. The disorder was excluded from the EDA locus by the lack of its cosegregation with polymorphic markers flanking the EDA locus in three of five families. No mutations of the EDA gene were detected by SSCP analysis in the two families not excluded by haplotype analysis. The appearance of affected males and females in autosomal recessive HED was clinically indistinguishable from that seen in males with X-linked HED. The findings of equally affected males and females in single sibships, as well as the presence of consanguinity, support an autosomal recessive mode of inheritance. The fact that phenotypically identical types of HED can be caused by mutations at both X-linked and autosomal loci is analogous to the situation in the mouse, where indistinguishable phenotypes are produced by mutations at both X-linked (Tabby) and autosomal loci (crinkled and downless).