Relative stability of a minimal CTG repeat expansion in a large kindred with myotonic dystrophy

The genetic basis for myotonic dystrophy (DM) is a CTG trinucleotide repeat expansion. The number of CTG repeats commonly increases in affected individuals of successive generations, in association with anticipation. We identified a large DM family in which multiple members had minimal CTG repeat expansions, and in which the number of CTG repeats remained in the minimally expanded range through at least three, and possibly four, generations. This relative stability of minimal CTG repeat expansions may help to maintain the DM mutation in the population.     

Diameter of the inferior vena cava as an index of dry weight in patients undergoing CAPD

Trinucleotide microsatellites are widespread in the human and other mammalian genomes. Expansions of unstable trinucleotide repeats have been associated so far with a number of different genetic diseases including fragile X, myotonic dystrophy (DM) and Huntington disease. While ten possible trinucleotides can occur at the DNA level, only CTG and CCG repeats are involved in the disorders described so far. However, the repeat expansion detection (RED) technique has identified additional large repeats of ATG, CCT, CTT, and TGG of potentially pathological significance in the human genome. We now show that conclusive information about the chromosomal localization of long trinucleotide repeats can be achieved in a relatively short time using fluorescence in situ hybridization (FISH) with biotin-labelled trinucleotide polymers. Large CTG expansions (> 1 kb) in DM and an unstable (CTG)306 repeat in a patient with schizophrenia were detected by eye through the microscope without electronic enhancement. Digital imaging was used to analyse the chromosomal distribution of long CCA and AGG repeats. Our results suggest that long trinucleotide repeats occur in the normal human genome and that the size of individual repeat loci may be polymorphic.     

Fluorescence in situ hybridization analysis of the replication properties of the myotonic dystrophy protein kinase (DMPK) gene region

Myotonic dystrophy (DM) is caused by an expansion of a CTG repeat sequence in the 3' noncoding region of a protein kinase gene (DMPK) at 19q13.3. We used in situ hybridization to analyse the replication timing of the genomic region containing DMPK in fibroblasts and myoblasts from controls and myotonic dystrophy patients. In this method the relative proportion of singlet to doublet hybridization signals is used to infer the relative time of replication of specific loci or regions. Our results show that in cells from normal individuals approximately 65% of signals appear as doublets, indicating early replication. In DM patients with a number of CTG repeats ranging from about 600-1800 we observed a significant increase of singlet-doublets compared to the background level. These results suggest the existence of replication alternations and/or structural differences between the normal and mutant alleles induced by the presence of the DM mutation.     

Expanding complexity in myotonic dystrophy

Myotonic dystrophy (DM) is a highly variable multisystemic disease belonging to the rather special class of trinucleotide expansion disorders. DM results from dynamic expansion of a perfect (CTG)n repeat situated in a gene-dense region on chromosome 19q. Based on findings in patient materials or cellular and animal models, many mechanisms for the causes and consequences of repeat expansion have been proposed; however, none of them has enjoyed prolonged support. There is now circumstantial evidence that long (CTG)n repeats may affect the expression of any of at least three genes, myotonic dystrophy protein kinase (DMPK), DMR-N9 (gene 59), and a DM-associated homeodomain protein (DMAHP). Furthermore, the new findings suggest that DM is not a simple gene-dosage or gain-or-loss-of-function disorder but that entirely new pathological pathways at the DNA, RNA, or protein level may play a role in its manifestation.     

Human papillomavirus investigation of patients with cervical intraepithelial neoplasia 3, some of whom progressed to invasive cancer

Unstable expansion of the CTG repeats in the 3' untranslated region encoding a member of the protein kinase family in the q13.3 band on chromosome 19 is a mutation specific for myotonic dystrophy. To examine the correlation between clinical expression and CTG trinucleotide repeat length, we carried out Southern blot analysis in a family with myotonic dystrophy. In this pedigree, the expanded CTG repeats were transmitted maternally. The mother had three female children. The mother had about 200 CTG repeats, and the number of repeats for each child was about 800, 1500 and 1600 in birth order. The mother and the patient with 800 repeats were unaware of muscle weakness or myotonia. Symptoms were present from age 3 years in the patient with 1500 repeats and from birth in the one with 1600 repeats. Although the mother menstruated regularly, the patients with 800 and 1500 repeats both menstruated irregularly, and the one with 1600 repeats has never menstruated. The age of onset and severity of the disease were correlated with the size of the expanded repeats. Endocrinological studies revealed that the basal levels of the gonadotropins, PRL and E2 were within normal range, and a pituitary response to LHRH was observed. These data suggest that the amenorrhea and menstrual irregularities were caused by a suprahypophyseal dysfunction. When expanded CTG repeats are transmitted maternally, abnormal products resulting from the metabolic disturbance in the affected mother may harm the fetus in utero. A heterozygous fetus, who has more CTG repeats, may be unable to metabolize the pathologic products sufficiently and therefore may become more severely affected. This may explain the exclusive maternal transmission of congenital myotonic dystrophy.     

Type II muscle fibers are stained by anti-Fas antibody

To examine whether apoptosis related proteins are present in skeletal muscles we studied biopsied muscles immunohistochemically and by Western blot analysis. Biopsied muscles from patients with several disorders were studied with anti-Fas antibody and anti-BCL2 antibody. Type II muscle fibers identified by ATPase staining were positively stained by anti-Fas antibody in both normal control and diseased muscles. Anti-BCL2 antibody did not stain any muscle fibers. Western blot analysis using anti-Fas antibody showed a single band at 45 kDa in both skeletal muscle and lymphocytes. Anti-Fas antibody has been reported to induce apoptosis in the cells. The presence of anti-Fas antibody reactive materials in type II muscle fibers might be related to type II fiber atrophy in muscular disorders.     

Somatic mosaicism of p(CTG)n expansion in a case of myotonic dystrophy with parotid tumor

Myotonic dystrophy (MD) is an autosomal dominant systemic disorder with an unstable expansion of the CTG triplet repeat in the 3'-untranslated region of the gene encoding myotonine protein kinase (DMPK) which maps to chromosome 19q13.3. Somatic mosaicism of CTG repeats in MD has been reported; and it has been observed that CTG repeats in tumor tissues associated with MD are more expanded than the other tissues. It is not rare that parotid tumors are found in patients with MD. We performed Southern blot analysis for tissues from the parotid tumor, the normal parotid gland, the skeletal muscles, and the leukocyte from a 60-year-old patient with MD. CTG repeat was most expanded in the parotid tumor, and the normal parotid gland had longer expansion of CTG repeat than the skeletal muscles. The leukocyte had the shortest expansion of CTG repeat. The expansion of CTG repeat in the parotid tumor may be related to active cell division and may underlie the occurrence of tumors in MD.     

Myotonic dystrophy phenotype without expansion of (CTG)n repeat: an entity distinct from proximal myotonic myopathy (PROMM)?

Myotonic dystrophy (DM) is associated with an expansion of an unstable (CTG)n repeat in the 3' untranslated region of the DM protein kinase (DMPK) gene on chromosome 19q13.3. We studied six patients from two families who showed no expansions of the repeat, in spite of their clinical diagnosis of DM. These patients had multi-systemic manifestations that were distinguishable from those seen in other myotonic disorders, including proximal myotonic myopathy (PROMM). In one additional family, two symptomatic members showed no expanded (CTG)n repeats, while their affected relatives had the expanded repeats. DM haplotype analysis failed to exclude the DMPK locus as a possible site of mutation in each family; however, DMPK mRNA levels were normal. We conclude that a mutation(s) other than the expanded (CTG)n repeat can cause the DM phenotype. The mutation(s) in these families remain(s) to be mapped and characterized.     

Comparing the behavior of children treated using general anesthesia with those treated using conscious sedation

The histopathologic study was performed to elucidate whether the fiber type atrophy of the vastus lateralis muscle in patients with hip or knee joint disorders is related to the activities of daily living (ADL) or habitual physical activity. Subjects were 16 female patients, 52.4 +/- 16.0 yr of age (mean +/- standard deviation), who underwent a vastus lateralis muscle biopsy at the time of total hip or knee replacement. At the time of referral to the rehabilitation center, the Functional Independence Measure (FIM) motor score and habitual physical activity at home were evaluated, and the diameter and atrophy factor for each muscle fiber type were measured on the histopathologic preparations of the biopsied muscles. The data were analyzed using ttest, one-way analysis of variance (ANOVA), Kruskal-Wallis one-way ANOVA, Spearman's correlation coefficient, and partial correlation coefficient. The patients showed muscle fiber atrophy and small angular fibers, and the atrophy factor was significantly increased in type 1, 2A, and 2B fibers, in that order (one-way ANOVA, P < 0.05). The patterns of the fiber type atrophy, consisting of normal, type 2B atrophy, type 2AB atrophy, and type 1 and 2AB atrophy, had a significant relationship with the fiber type atrophy (Spearman's correlation coefficient; rho = 0.834, P < 0.001). The FIM motor score showed a significant correlation with the atrophy factor (r = -0.584, P < 0.05), and significant differences were recognized among the four patterns of the fiber type atrophy (Kruskal-Wallis one-way ANOVA, P < 0.05). In conclusion, the muscle atrophy and patterns of the fiber type atrophy of the vastus lateralis muscle in patients with joint disorders may be related to changes in the FIM motor score.     

Expression of myotonic dystrophy protein kinase gene during in vivo and in vitro mouse myogenesis

Myotonic dystrophy (DM) is an autosomal dominant neuromuscular disorder characterized by a great variability in its clinical manifestations. The mutational basis underlying DM consists of an unstable (CTG)n trinucleotide repeat in the 3' untranslated region of the myotonic dystrophy protein kinase gene (DMPK). Conflicting results on DMPK gene expression in congenitally affected infants (CDM) have been published. Moreover, the prominence of satellite cells seen in muscle of CDM infants supports the notion that the congenital form is associated with an arrest in muscle development and suggests a role for the DMPK gene during differentiation and maturation of muscle. In order to clarify these findings, a comparative study of DMPK and myogenic factor mRNA levels was performed in developing mouse muscle tissues and cultured muscle cells at different developmental stages. Results show that DMPK gene expression is upregulated at a late stage of muscular development. This upregulation does not seem to depend on a given muscle specific bHLH factor.     

Exclusion of expansion of 50 CAG/CTG trinucleotide repeats in bipolar disorder

OBJECTIVE: The purpose of this study was to identify the specific expanded CAG/CTG trinucleotide repeat associated with bipolar disorder. METHOD: The study employed an efficient multistage approach for using a genomic CAG/CTG screening set. RESULTS: The authors found no evidence of expanded repeats at 43 polymorphic autosomal loci and seven X chromosomal loci. Secondary screening was pursued at the only locus that contained a large allele (37 repeats) in the primary screening. No association was found between allele size and diagnostic status. CONCLUSIONS: It is highly unlikely that expansions in repeat size at any of the 50 candidate trinucleotide repeat loci examined are responsible for the association between expanded CAG/ CTG repeats and bipolar disorder. However, although the authors prioritized the repeats that were a priori most likely to be involved, the study does not reject the more general hypothesis that expanded CAG/CTG repeats are implicated in the pathogenesis of bipolar disorder.     

Dipole source localization by means of maximum likelihood estimation I. Theory and simulations

The obstetric histories of 26 women with myotonic dystrophy (DM), who had a total of 67 gestations, were reviewed retrospectively comparing gestations with affected (DM-fetuses) and unaffected fetuses (UA-fetuses). Second, the influence of gestation on the disease course and the personal attitude towards family planning in DM was assessed. Miscarriages and terminations occurred in 11 pregnancies. Of the 56 infants carried to term, 29 had or most likely had inherited the gene for DM from their affected mothers at the time of investigation; 18 (61%) in this series were affected by the congenital form of DM. Perinatal loss rate was 11% and associated with congenital DM. The rate of obstetric complications was significantly increased in all women. However, preterm labor was a major problem in gestations with DM-fetuses (55 vs. 20%), as was polyhydramnios (21% vs. none). While forceps deliveries or vacuum extractions were required in 21% of deliveries with DM-fetuses and only 5% of UA-fetuses, the frequency of Cesarean sections was similar in both groups (24 and 25%). Obstetric problems were inversely correlated with age at onset of maternal DM, while no effect of age at delivery or birth order on gestational outcome was seen. DNA analysis confirmed the diagnosis in 19 patients by the presence of enlarged CTG repeats (EcoRI-expansions) on chromosome 19. Of the 17 patients whose CTG repeat length was known, 59% were classified as E2 (corresponding to 500-1000 repeats), 24% as E1 (<500 repeats), while larger expansions (E3; 1000-1500 repeats, or E4; >1500 repeats) were seen in three patients (17%). Obstetric complications or congenitally affected children occurred in all maternal phenotypes and CTG repeat classes. Eight (31%) patients experienced a worsening of symptoms that was temporary, weight related in three cases, and persistent in five. With the exception of three patients, most new mothers were able to care for their families. To conclude, pregnant women with DM need constant obstetric monitoring and should be advised to deliver in centres with perinatal facilities.     

Stability of intrastrand hairpin structures formed by the CAG/CTG class of DNA triplet repeats associated with neurological diseases

Expansions of trinucleotide repeats in DNA, a novel source of mutations associated with human disease, may arise by DNA replication slippage initiated by hairpin folding of primer or template strands containing such repeats. To evaluate the stability of single-strand folding by repeating triplets of DNA bases, thermal melting profiles of (CAG)10, (CTG)10, (GAC)10 and (GTC)10 strands are determined at low and physiological salt concentrations, and measurements of melting temperature and enthalpy change are made in each case. Comparisons are made to strands with three times as many repeats, (CAG)30 and (CTG)30. Evidence is presented for stable intrastrand folding by the CAG/CTG class of triplet repeats. Relative to the GAC/GTC class not associated with disease, the order of folding stability is found to be CTG > GAC approximately = CAG > GTC for 10 repeats. Surprisingly, the folds formed by 30 repeats of CTG or CAG have no higher melting temperature and are only 40% more stable in free energy than those formed by 10 repeats. This finding suggests that triplet expansions with higher repeat number may result from the formation of more folded structures with similar stability rather than fewer but longer folds of greater stability.     

Aortocoronary bypass grafting with expanded polytetrafluoroethylene: 12-year patency

The size of CAG repeats was compared in lymphocytes and skeletal muscle from nine patients with Huntington disease (HD) and two patients with Kennedy disease (KD). In HD, the number of CAG repeats did not differ between lymphocytes and skeletal muscle. In the two KD patients, however, the CAG expansion was larger in muscle than in lymphocytes. The difference in trinucleotide expansion between lymphocytes and muscle cells is not a universal phenomenon in trinucleotide repeat disorders, but seems to occur in disorders primarily affecting the neuromuscular system.     

Metabolic routing towards polyhydroxyalkanoic acid synthesis in recombinant Escherichia coli (fadR): inhibition of fatty acid beta-oxidation by acrylic acid

We have systematically isolated and characterized DNA containing large CTG (n > 7) repeats from a human cosmid genomic DNA library. Using a CTG10 probe, more than 100 cosmid clones were identified, and 30 of these have been extensively characterized. The sequenced cosmids contain repeats that are between three and 19 perfect units (average 10 perfect repeats). The cosmids map to at least 12 different chromosomes. Sequence analysis of flanking regions suggests that more than one third of the repeats occur in exons, and many share strong sequence identity with databank sequences, including the gene involved in dentatorubral pallidoluysian atrophy (DRPLA). Genotyping of human DNA samples demonstrates that more than half of the repeats are polymorphic. This and similar collections of clones containing trinucleotide repeats should aid in the identification of genes that may contain expansions of trinucleotide repeats involved in human disease.     

The effectiveness of topical diclofenac for lateral epicondylitis

Clinical evidence for a dominant mode of inheritance and anticipation in periodic catatonia, a distinct subtype of schizophrenia, suggests that trinucleotide repeat expansions may be involved in the aetiology of this disorder. Since genes with triplet repeats are putative canditates for causing schizophrenia, we have analysed the polymorphic B33 CTG repeat locus on chromosome 3 in 45 patients with periodic catatonia and 43 control subjects. The B33 CTG repeat locus was highly polymorphic, but all alleles in both the patient and control groups had repeat lengths within the normal range. We conclude that susceptibility to periodic catatonia is not influenced by variation at the B33 CTG repeat locus. Nevertheless, that periodic catatonia displays dominant inheritance and anticipation, characteristic of genetic disorders involving trinucleotide repeats, justifies further screening for triplet repeat expansions in this illness.     

Relationship between muscle fiber composition and functional capacity of back muscles in healthy subjects and patients with back pain

Back muscles are important to the stability of the lumbar spine. Muscle fiber composition may give some indication of the functional capacity of these muscles. This review explores the relationship between muscle fiber composition and functional capacity of back muscles. The reference values for the type and size of the muscle fibers found in the back musculature of healthy subjects and patients with back pain are also presented. A high percentage of type I fibers, which are larger in size than type II fibers, has been found in back muscles at the thoracic and lumbar levels. This is in accordance with the postural function of these muscles. The diameter of type II fibers is smaller in females than males, which may partly explain the lesser strength and greater endurance capacity of back muscles in females. Due to the limited amount of pertinent data, no conclusive evidence is available regarding age-related changes in muscle fiber composition in the musculature of the back. In patients with lumbar disorders, pathological changes and selective atrophy of type II fibers are seen, and these can be changed with adequate exercises. Further research is suggested to address issues related to gender, age, back pain, and exercise and their effects on the apparent back muscle fiber composition.     

Jozef B. Cohen: 1921-1995

The distribution of alleles with various CTG-repeat numbers was studied and the haplotypes for polymorphic sites HhaI and HinfI of mouse muscle protein kinase (DMPK) were analyzed in inhabitants of northwestern Russia and in patients with myotonic dystrophy (90 and 18 chromosomes, respectively). Twelve normal alleles with the triplet-repeat number from 5 to 24 were identified and the alleles with five (42.5%) and 11-13 (37%) repeats were found to be predominant. The bimodal distribution revealed is similar to those described earlier for other populations, however, the frequencies of individual alleles differed from those in populations of Europe and Central Russia. No significant differences in frequencies of CTG alleles were found in 32 normal chromosomes involved in compounds with the mutant chromosomes (i.e., in patients with myotonic dystrophy) as compared to their frequencies in the population. However, almost all mutant chromosomes (16 of 18) had the same haplotype for intragenic polymorphic sites: HhaI-; HinfI+. This haplotype was also inherent in 91% of all chromosomes with CTG5 and all chromosomes with a CTG number more than 15. Possible evolution of chromosomes with different numbers of triplet repeats mediating their expansion and impairing the function are discussed.     

Human MSH2 binds to trinucleotide repeat DNA structures associated with neurodegenerative diseases

The expansion of trinucleotide repeat sequences is associated with several neurodegenerative diseases. The mechanism of this expansion is unknown but may involve slipped-strand structures where adjacent rather than perfect complementary sequences of a trinucleotide repeat become paired. Here, we have studied the interaction of the human mismatch repair protein MSH2 with slipped-strand structures formed from a triplet repeat sequence in order to address the possible role of MSH2 in trinucleotide expansion. Genomic clones of the myotonic dystrophy locus containing disease-relevant lengths of (CTG)n x (CAG)n triplet repeats were examined. We have constructed two types of slipped-strand structures by annealing complementary strands of DNA containing: (i) equal numbers of trinucleotide repeats (homoduplex slipped structures or S-DNA) or (ii) different numbers of repeats (heteroduplex slipped intermediates or SI-DNA). SI-DNAs having an excess of either CTG or CAG repeats were structurally distinct and could be separated electrophoretically and studied individually. Using a band-shift assay, the MSH2 was shown to bind to both S-DNA and SI-DNA in a structure-specific manner. The affinity of MSH2 increased with the length of the repeat sequence. Furthermore, MSH2 bound preferentially to looped-out CAG repeat sequences, implicating a strand asymmetry in MSH2 recognition. Our results are consistent with the idea that MSH2 may participate in trinucleotide repeat expansion via its role in repair and/or recombination.