Polymorphism of the (CTG)n repeat in the myotonin protein kinase (DM) gene in Belarussian populations: analysis of interethnic heterogeneity]

The highly polymorphic CTG triplet repeat in the 3'-nontranscribed region of the myotonin protein kinase (DM) gene was studied in healthy people from three rural populations (Grodnenskii, Khoinikskii, and Nesvizhskii raions) and the town Bobruisk, Belarus. The allele frequency distribution of this repeat proved to be similar in all the regional groups of Belarussians.     

Analysis of expansion of the triplet repeat (CTG)n in myotonic dystrophy patients from Bashkir

A method was elaborated for simple and rapid diagnosis of myotonic dystrophy (MD). The method consists in estimating expansion of the CTG repeat in the myotonin protein kinase gene by means of PCR amplification of a gene fragment from genomic DNA and Southern hybridization of the amplified fragments with probe (CTG)9. Bashkir patients with Rossolimo-Steinert-Batten-Kurshmann MD were examined with this method.     

New founder haplotypes at the myotonic dystrophy locus in southern Africa.

The association between normal alleles at the CTG repeat and two nearby polymorphisms in the myotonin protein kinase gene, the Alu insertion/deletion polymorphism and the myotonic dystrophy kinase (DMK)(G/T) intron 9/HinfI polymorphism, has been analyzed in South African Negroids, a population in which myotonic dystrophy (DM) has not been described. South African Negroids have a CTG allelic distribution that is significantly different from that in Caucasoids and Japanese: the CTG repeat lengths of > or = 19 are very rare. The striking linkage disequilibrium between specific alleles at the Alu polymorphism (Alu(ins) and Alu(del)), the HinfI polymorphism (HinfI-1 and HinfI-2), and the CTG repeat polymorphism seen in Caucasoid (Europeans and Canadians) populations was also found in the South African Negroid population. Numerous haplotypes, not previously described in Europeans, were, however, found. It thus seems likely that only a small number of these "African" chromosomes were present in the progenitors of all non-African peoples. These data provide support for the "out of Africa" model for the origin of modern humans and suggest that the rare ancestral DM mutation event may have occurred after the migration from Africa, hence the absence of DM in sub-Saharan Negroid peoples.     

Analysis of the allele polymorphism of (CTG)n and (GAG)n triplet repeats in DM,DRPLA, and SCA1 genes in various populations of Russia

Polymorphism of highly polymorphic triplet repeats CTG of the 3'-untranslated region of the myotonin protein kinase gene and CAG of the genes associated with dentatorobral-pallidoluysian atrophy (DRPLA, or Hew River syndrome) and spinocerebellar ataxia type 1 (SCA1) was analyzed in several ethnic populations of Russia. A difference in allele spectra of the three genes was demonstrated for populations differing in ethnic origin.     

Polymorphism of the (CTG)n Repeat of the Myotonin Protein Kinase Gene in Populations of the Sakha Republic (Yakutia) and Central Asia

The allele frequency distribution of the (CTG)_n repeat located in the 3′-terminal region of the myotonin protein kinase gene (DMPK) was compared for populations of Yakutia (three ethnogeographic groups of Yakuts, Evenks, Evens, Yukaghirs, and Dolgans) and Central Asia (Kazakhs, Uzbeks, and Uighurs) and other ethnic groups. The populations of the two regions proved to considerably differ from each other: features characteristic of Asian Mongoloids were more distinct in the populations of Yakutia, while the Central Asian populations were closer to European populations. The (CTG)_n allele spectrum of Yakuts was considered in connection with the high incidence of myotonic dystrophy in Yakutia. The results support the hypothesis of the founder effect for the spread of myotonic dystrophy in Yakuts. Data on the (CTG)_n polymorphism were used to estimate the phylogenetic relationships of the populations under study.__________Translated from Molekulyarnaya Biologiya, Vol. 39, No. 3, 2005, pp. 385–393.Original Russian Text Copyright © 2005 by Fedorova, Khusainova, Kutuev, Sukhomyasova, Nikolaeva, Kulichkin, Akhmetova, Salimova, Svyatova, Berezina, Platonov, Khusnutdinova.     

Normal variation at the myotonic dystrophy locus in global human populations.

Myotonic dystrophy (DM) is a dominant neuromuscular disease that results from an unstable CTG-repeat expansion in the 3' UTR of the myotonin kinase gene at 19q13.3. This repeat is normally polymorphic with a trimodal distribution reflecting 5-, 11-17-, and 19-30-repeat-length alleles. An absolute association between expanded CTG alleles and the 1-kb insertion allele of an intragenic polymorphism in Caucasians has led to the proposal that the 5-repeat allele gives rise to alleles of 19-30 repeats, from which expanded alleles are derived, a transition not involving the 11-17-repeat alleles. A survey of eight global populations confirms the stability of the 11-17-repeat alleles but shows disociation between the 1-kb insertion polymorphism and both the 5- and 19-30-repeat-length alleles. These data indicate more than one ancestral allele from which expanded alleles are derived and suggest that widely variable population frequencies of DM may reflect distinct frequencies of such predisposed alleles.     

Analysis of the Allele Polymorphism of (CTG)nand (CAG)n Triplet Repeats in Loci DM, DRPLA, and SCA1 in Several Populations of Russia

Polymorphism of highly polymorphic triplet repeats CTG of the 3"-untranslated region of the myotonin protein kinase gene and CAG of the genes associated with dentatorubral-pallidoluysian atrophy (DRPLA, or Hew River syndrome) and spinocerebellar ataxia type 1 (SCA1) was analyzed in several ethnic populations of Russia. A difference in allele spectra of the three genes was demonstrated for populations differing in ethnic origin.     

Association of CTG repeats and the 1-kbAlu insertion/deletion polymorphism at the myotonin protein kinase gene in the Japanese population suggests a common Eurasian origin of the myotonic dystrophy mutation

We have studied linkage disequilibrium between CTG repeats and anAlu insertion/deletion polymorphism at the myotonin protein kinase gene (DMPK) in 102 Japanese families, of which 93 were affected with myotonic dystrophy (DM). All of the affected chromosomes are in complete linkage disequilibrium with theAlu insertion allele. Among the normal chromosomes, alleles of CTG repeats 5 and 17 are exclusively associated with the insertion allele. On the other hand, intermediate alleles of 11-6 repeats show a significantly greater association with the deletion allele. A strikingly similar pattern of linkage disequilibrium observed in European populations suggests a common origin of the DM mutation in the Japanese and European populations.     

CTG repeats distribution and Alu insertion polymorphism at myotonic dystrophy (DM) gene in Amhara and Oromo populations of Ethiopia

Myotonic dystrophy (DM) is a dominantly inherited neuromuscular disease, highly variable and multisystemic, which is caused by the expansion of a CTG repeat located in the 3′ untranslated region of the DMPK gene. Normal alleles show a copy number of 5–37 repeats on normal chromosomes, amplified to 50–3000 copies on DM chromosomes. The trinucleotide repeat shows a trimodal allele distribution in the majority of the examined population. The first class includes alleles carrying (CTG)₅, the second class, alleles in the range 7–18 repeats, and the third class, alleles (CTG)_{≥ 19}. The frequency of this third class is directly related to the prevalence of DM in different populations, suggesting that normal large-sized alleles predispose toward DM. We studied CTG repeat allele distribution and Alu insertion and/or deletion polymorphism at the myotonic dystrophy locus in two major Ethiopian populations, the Amhara and Oromo. CTG allele distribution and haplotype analysis on a total of 224 normal chromosomes showed significant differences between the two ethnic groups. These differences have a bearing on the out-of-Africa hypothesis for the origin of the DM mutation. In addition, (CTG)_{≥ 19} alleles were exclusively detected in the Amhara population, confirming the predisposing role of these alleles compared with the DM expansion-mutation. Electronic Publication     

De novo myotonic dystrophy mutation in a Nigerian kindred.

An expansion of an unstable (CTG)n trinucleotide repeat in the 3' UTR of a gene encoding a putative serine/threonine protein kinase (DMPK) on human chromosome 19q13.3 has been shown to be specific for the myotonic dystrophy (DM) disease phenotype. In addition, a single haplotype composed of nine alleles within and flanking DMPK over a physical distance of 30 kb has been shown to be in complete linkage disequilibrium with DM. This has led to two hypotheses: (1) predisposition for (CTG)n instability results from a founder effect that occurred only once or a few times in human evolution; and (2) elements within the disease haplotype may predispose the (CTG)n repeat to instability. A detailed haplotype analysis of the DM region was conducted on a Nigerian (Yoruba) DM family, the only indigenous sub-Saharan DM case reported to date. Each affected member of this family had an expanded (CTG)n repeat in one of his or her DMPK alleles. However, unlike all other DM populations studied thus far, disassociation of the (CTG)n repeat expansion from other alleles of the putative predisposing haplotype was found. We conclude that the expanded (CTG)n repeat in this family is the result of an independent mutational event. Consequently, the origin of DM is unlikely to be a single mutational event, and the hypothesis that a single ancestral haplotype predisposes to repeat expansion is not compelling.     

Gonosomal mosaicism in myotonic dystrophy patients: involvement of mitotic events in (CTG)n repeat variation and selection against extreme expansion in sperm.

Myotonic dystrophy (DM) is caused by abnormal expansion of a polymorphic (CTG)n repeat, located in the DM protein kinase gene. We determined the (CTG)n repeat lengths in a broad range of tissue DNAs from patients with mild, classical, or congenital manifestation of DM. Differences in the repeat length were seen in somatic tissues from single DM individuals and twins. Repeats appeared to expand to a similar extent in tissues originating from the same embryonal origin. In most male patients carrying intermediate- or small-sized expansions in blood, the repeat lengths covered a markedly wider range in sperm. In contrast, male patients with large allele expansions in blood (> 700 CTGs) had similar or smaller repeats in sperm, when detectable. Sperm alleles with > 1,000 CTGs were not seen. We conclude that DM patients can be considered gonosomal mosaics, i.e., combined somatic and germ-line tissue mosaics. Most remarkably, we observed multiple cases where the length distributions of intermediate- or small-sized alleles in fathers'' sperm were significantly different from that in their offspring''s blood. Our combined findings indicate that intergenerational length changes in the unstable CTG repeat are most likely to occur during early embryonic mitotic divisions in both somatic and germ-line tissue formation. Both the initial CTG length, the overall number of cell divisions involved in tissue formation, and perhaps a specific selection process in spermatogenesis may influence the dynamics of this process. A model explaining mitotic instability and sex-dependent segregation phenomena in DM manifestation is discussed.     

Differential signaling pathways following oxidative stress in mutant myotonin protein kinase cDNA-transfected C2C12 cell lines

We investigated the response to oxidative stress in a model system established in C2C12 cells stably transfected with myotonin protein kinase (MtPK) cDNAs having 5, 46, 60, or 160 CTG repeats. The transformants showed CTG repeat number-dependent susceptibility to oxidative stress. Mutant MtPK cDNA transformants containing 160 CTG repeats showed apoptotic cell death by the exposure to an oxidant, a very low level of methylmercury. The addition of the antioxidant Trolox protected transformants against apoptosis. Oxidative stress activated the extracellular signal-regulated kinases (ERKs) pathway leading to cell survival in wild-type MtPK cDNA transformants, whereas mutant MtPK cDNA transformants having 160 CTG repeats were defective in the induction of the ERK pathway, although the activation of stress-activated protein kinase (SAPK)/c-Jun N-terminal kinase (JNK) was strong and sustained. These results suggest that the susceptibility to oxidative stress in mutant MtPK cDNA transformants involves differential signaling pathways evoked following oxidative stress.     

Isolation of CAG/CTG repeats from within the chromosome 2p21-p24 locus for autosomal dominant spastic paraplegia (SPG4) by YAC fragmentation

Pure autosomal dominant spastic paraplegia (SPG) is a genetically heterogeneous neurodegenerative disorder of the central nervous system clinically characterized by progressive spasticity mainly affecting the lower limbs. Three distinct loci have been mapped to chromosomes 14q (SPG3), 2p (SPG4) and 15q (SPG6). In particular, SPG4 families show striking intrafamilial variability suggestive of anticipation and evidence has been provided that CAG/CTG repeat expansions may be involved. To isolate CAG/CTG repeat containing sequences from within the SPG4 candidate region, a novel approach was developed. Fragmentation vectors were assembled allowing direct fragmentation of yeast artificial chromosomes (YACs) with a short (> or = 21 bp) CAG/CTG sequence as the target site for homologous recombination. We used the CAG/CTG YAC fragmentation vectors to isolate CAG/CTG containing sequences from four YACs spanning the SPG4 candidate region between D2S400 and D2S367. A total of four CAG/CTG containing sequences were isolated of which three were novel. However, none of the four CAG/CTG repeats showed expanded alleles in two Belgian SPG4 families. In addition, we showed that the CAG/CTG alleles detected by the repeat expansion detection (RED) method could be fully explained by two polymorphic nonpathogenic CAG/CTG repeats on chromosomes 17 and 18, respectively. Also, the RED expansions in six SPG families could not be explained by amplification of the CAG/CTG repeats at the SPG4 locus. Together, our data do not support the hypothesis of a CAG/CTG repeat expansion as the molecular mechanism underlying SPG4 pathology.     

(CTG)n expansion at DMPK locus seen only in muscle tissue: a novel case

Triplet repeat expansion in 3 untranslated region of myotonic dystrophy protein kinase (DMPK) gene has been implicated as causative in myotonic dystrophy (DM). In cases of DM, high levels of somatic instability have been reported, in which inter-tissue repeat length differences as large as 3000 repeats have been observed. This study highlights the inter-tissue (CTG)n expansion variability at the DMPK locus. Molecular analysis of DMPK gene, encompassing the triplet repeat expansion, was carried out in 31 individuals (11 clinically identified DM patients, 20 controls). All controls showed a 2.1kb band (upto 35 CTG repeats), while four cases exhibited an expansion (>50 repeats). A novel observation was made in one case, wherein the DNA from lymphocytes showed a normal 2.1kb band while the muscle tissue DNA from the same patient was heterozygous for normal and 4.3 kb band (>700 repeats). Our results suggested that because inter-tissue variability existed in the (CTG)n repeat number at DMPK locus, an attempt should be made to evaluate affected tissue along with blood wherever possible prior to making a final diagnosis. This is important not only for diagnosis and prenatal analysis, but also while providing genetic counseling to families.     

Expansion and mutation rate in CTG repeats in the myotonic dystrophy gene

The CTG repeat of the myotonic dystrophy (MD) gene was analyzed in 62 MD patients and 54 healthy members of their families. A CTG repeat expansion was revealed in 57 (92%) patients and in 12 relatives who did not express clinical signs of MD. Family analysis showed that the CTG repeat number increased, which was associated with anticipation, decreased, or remained the same (17.6%) in alleles transmitted from parents to their children. The spontaneous mutation rate of the CTG repeat was estimated at 4 x 10(-2). Instability was characteristic of alleles with more than 19 repeated units.     

Analysis of polymorphism of CTG repetitive sequences in the gene of myotonic dystrophy in human populations of the Volga-Ural region]

Distribution of CTG repetitive sequences in the myotonic dystrophy (MD) gene was analyzed in ten populations of the Volga-Ural region, including Tatars, Chuvashes, Maris, Udmurts, Mordovians, Komis, and four ethnogeographical groups of Bashkirs. A total of 25 alleles were found (9 to 14 in individual populations), with each allele containing 5 to 34 trinucleotide repeats. The allele frequency distribution had two peaks corresponding to alleles with 5 and 11-14 CTG repeats. The frequency of the (CTG)5 allele varied from 0.23 to 0.47 in Maris and Mordovians, respectively. Regarding the (CTG)11-14 alleles, those containing 13 and 12 trinucleotides were most frequent in all populations; their frequencies varied from 0.15 in Mordovians to 0.24 in Maris and Bashkirs from the Abzelilovskii raion (district). Alleles with large numbers of repeats (more than 30) were only found in Tatars and Bashkirs from the Abzelilovskii raion, where their frequency was 0.01. The data obtained were compared with those on other human populations from various regions of the world. In general, the populations of the Volga-Ural region took an intermediate position between European and Asian populations (although were somewhat more similar to the latter ones) with respect to the distribution of allelic frequencies of the CTG repetitive sequences. In individual populations, the number of genotypes varied from 13 to 27 in Mordovians and Bashkirs from the Ilishevskii raion, respectively. The observed heterozygosity was the highest (91%) in Udmurts and the lowest (58%) in Mordovians; the average heterozygosity was 81%. Such a high heterozygosity, as well as the revealed differentiation of the populations with respect to the distribution of the allelic frequencies of CTG repetitive sequences in the MD gene, allow this polymorphic DNA locus to be considered a highly informative genetic marker of populations.     

JP-3 gene polymorphism in a healthy population of Serbia and Montenegro

Expansions of CTG repeats inJP-3 gene are associated with a phenotype similar to Huntington disease. These expansions are the cause of Huntington disease like-2 (HDL-2) phenotype. CTG repeats inJP-3 gene are polymorphic in healthy population. Analyses of CTG repeat polymorphism ofJP-3 gene in various healthy populations could help in estimating the population at risk for developing HDL-2. CTG repeat polymorphism ofJP-3 gene was analysed in healthy population of Serbia and Montenegro. Study included 198 unrelated subjects. Analyses ofJP-3 locus were performed using PCR and sequencing. Six differentJP-3 alleles were obtained and they were in the range of 11 to 18 CTG repeats showing a bimodal distribution, with peaks at 14 and 16. Results show that the distribution ofJP-3 alleles in population of Serbia and Montenegro is consistent with distributions in other analysed populations. The absence of alleles with more then 18 CTG repeats suggests that HDL-2 is very rare in the populations of Serbia and Montenegro.     

Distribution of CTG repeats at the DMPK gene in myotonic distrophy patients and healthy individuals from the Mexican population

Myotonic dystrophy type 1 (DM1), the most common form of adult muscular dystrophy, is caused by anormal expansion of CTG trinucleotide repeats located in the 3′-untranslated region of the DMPK gene. The clinical features of DM1 are multisystemic and highly variable, and the unstable nature of CTG expansion causes wide genotypic and phenotypic presentations. In this study, we described to our knowledge for the first time the molecular diagnosis of myotonic dystrophy type 1 patients in the Mexican population, applying a fluorescent PCR method in combination with capillary electrophoresis analysis of the amplified products. We identified expanded alleles in 45 out of 50 patients (90%) with clinical features of myotonic disease. Furthermore, genotyping of 400 healthy subjects revealed the presence of 25 different alleles, ranging in size from 5 to 34 repeats. The most frequent allele was 13 CTG repeats (38.87%) and the frequency for alleles over 18 CTG repeats was 6.7%. Molecular test is essential for DM1 diagnosis and distribution of the CTG repeat alleles present in the Mexican population are significantly different from those of other populations.     

Haplotype analysis of genomic polymorphisms in and around the myotonic dystrophy locus in diverse populations of India

The frequencies of haplotypes based upon the (CTG)n repeat and three other biallelic markers in and around the myotonic dystrophy (DM) locus were estimated in 13 ethnically, linguistically and geographically diverse sub-populations of India. The range of CTG repeats in caste populations was 5-31, while in tribal populations the range was shorter (5-23). Extensive variation in frequencies of large (CTG)n alleles (> or =18 repeats) was found in Indian populations. The implications of this finding on DM epidemiology are discussed. Haplotype diversity was found to be very high in most populations. The majority of the Indian DM patients carried a haplotype that is commonly found among DM patients globally; this is the most common haplotype in the class of large (> or =18 repeats) CTG alleles. However, one haplotype was found to be present in particularly high frequency in Indian populations; this haplotype was also found among Indian DM patients. This haplotype may be a characteristic of Indian and possibly of other East Asian populations.