Cardiac transplantation in a Duchenne muscular dystrophy carrier

We report here for the first time the case of a symptomatic DMD carrier, who had a heart transplant for a severe dilated cardiomyopathy. Dystrophin immunohistochemistry, western blot and analysis of X-chromosome inactivation on leucocytes, and skeletal and cardiac muscle biopsies on the explanted heart were performed. The patient was a heterozygote for exons 50–52 deletion in the dystrophin gene. The number of dystrophin-deficient fibres in the heart was much higher than in skeletal muscle. On the other hand, the explanted heart showed a non-skewed pattern of X-chromosome inactivation, as in leukocytes and skeletal muscle. The adverse cardiac course may be explained by the absence of regeneration among cardiomyocytes.     

Clinical and genetic characterization of manifesting carriers of DMD mutations

Manifesting carriers of DMD gene mutations may present diagnostic challenges, particularly in the absence of a family history of dystrophinopathy. We review the clinical and genetic features in 15 manifesting carriers identified among 860 subjects within the United Dystrophinopathy Project, a large clinical dystrophinopathy cohort whose members undergo comprehensive DMD mutation analysis. We defined manifesting carriers as females with significant weakness, excluding those with only myalgias/cramps. DNA extracted from peripheral blood was used to study X-chromosome inactivation patterns. Among these manifesting carriers, age at symptom onset ranged from 2 to 47 years. Seven had no family history and eight had male relatives with Duchenne muscular dystrophy (DMD). Clinical severity among the manifesting carriers varied from a DMD-like progression to a very mild Becker muscular dystrophy-like phenotype. Eight had exonic deletions or duplications and six had point mutations. One patient had two mutations (an exonic deletion and a splice site mutation), consistent with a heterozygous compound state. The X-chromosome inactivation pattern was skewed toward non-random in four out of seven informative deletions or duplications but was random in all cases with nonsense mutations. We present the results of DMD mutation analysis in this manifesting carrier cohort, including the first example of a presumably compound heterozygous DMD mutation. Our results demonstrate that improved molecular diagnostic methods facilitate the identification of DMD mutations in manifesting carriers, and confirm the heterogeneity of mutational mechanisms as well as the wide spectrum of phenotypes.     

MECP2 duplication syndrome in both genders

Background

Duplications involving the methyl-CpG-binding protein 2 gene (MECP2) locus at Xq28 have been frequently identified in male patients who exhibit a phenotype unique from that of Rett syndrome, which is mainly characterized by severe mental retardation, recurrent infections, and epilepsy. This combination of features is recognized as MECP2 duplication syndrome.

Methods

Genomic copy number was investigated for patients with unexplained mental retardation, and phenotypic features of the patients having interstitial duplications including MECP2 were analyzed.

Results

Three male and one female patients with MECP2 duplication were identified. The phenotypic features of all the four patients were compatible with MECP2 duplication syndrome. The X-chromosome inactivation (XCI) pattern was analyzed in the female patient, identifying a skewed XCI that activated the X-chromosome containing the MECP2 duplication. Her mother possessed the same MECP2 duplication and a random XCI pattern but exhibited no phenotypic features, indicating a nonsymptomatic carrier. The brain magnetic resonance imaging revealed periventricular cystic lesions in all four patients, including the female patient.

Conclusion

This study suggested clinical implications of the MECP2 duplication syndrome not only in the male but also in female patients with unexplained mental retardation.     

Symptomatic female carriers of Duchenne muscular dystrophy (DMD): Genetic and clinical characterization

Duchenne muscular dystrophy (DMD) is an X-linked recessive disease caused by mutations in the dystrophin gene and is characterized by muscle degeneration and death. DMD affects males; females being asymptomatic carriers of mutations. However, some of them manifest symptoms due to a translocation between X chromosome and an autosome or to a heterozygous mutation leading to inactivation of most of their normal X chromosome. Six symptomatic female carriers and two asymptomatic were analyzed by: I) Segregation of STRs-(CA)n and MLPA assays to detect a hemizygous alteration, and II) X chromosome inactivation pattern to uncover the reason for symptoms in these females. The symptomatic females shared mild but progressive muscular weakness and increased serum creatin kinase (CK) levels. Levels of dystrophin protein were below normal or absent in many fibers. Segregation of STRs-(CA)n revealed hemizygous patterns in three patients, which were confirmed by MLPA. In addition, this analysis showed a duplication in another patient. X chromosome inactivation assay revealed a skewed X inactivation pattern in the symptomatic females and a random inactivation pattern in the asymptomatic ones. Our results support the hypothesis that the DMD phenotype in female carriers of a dystrophin mutation has a direct correlation with a skewed X-chromosome inactivation pattern.     

A symptomatic male carrier of Duchenne muscular dystrophy with Klinefelter's syndrome mimicking Becker muscular dystrophy

Duchenne and Becker muscular dystrophy (DMD/BMD) are commonly inherited muscle disorders. We report a 31-year-old male who had muscle symptoms with left-right differences and intellectual disability. He was diagnosed with BMD at age 15 primarily based on muscle biopsy findings. A few years later, DMD gene analysis revealed that he was a heterozygous carrier of a normal copy of the gene and a mutated copy with an exon 45–54 deletion, which is expected to result in an out-of-frame mutation. A karyotype analysis was compatible with XXY Klinefelter's syndrome. The analysis of X-chromosome inactivation (XCI) using his skeletal muscle sample revealed a skewed XCI pattern. This is the first reported case of a symptomatic male carrier of DMD caused by skewed XCI in Klinefelter's syndrome with a genetically proven heterozygous mutation of the DMD gene. The skewed XCI pattern could also explain the left-right differences in skeletal muscle symptoms observed in this patient.     

A case report of two male siblings with autism and duplication of Xq13–q21, a region including three genes predisposing for autism

Autism spectrum disorder, severe behaviour problems and duplication of the Xq12 to Xq13 region have recently been described in three male relatives. To describe the psychiatric comorbidity and dysmorphic features, including craniosynostosis, of two male siblings with autism and duplication of the Xq13 to Xq21 region, and attempt to narrow down the number of duplicated genes proposed to be leading to global developmental delay and autism. We performed DNA sequencing of certain exons of the TWIST1 gene, the FGFR2 gene and the FGFR3 gene. We also performed microarray analysis of the DNA. In addition to autism, the two male siblings exhibited severe learning disability, self-injurious behaviour, temper tantrums and hyperactivity, and had no communicative language. Chromosomal analyses were normal. Neither of the two siblings showed mutations of the sequenced exons known to produce craniosynostosis. The microarray analysis detected an extra copy of a region on the long arm of chromosome X, chromosome band Xq13.1–q21.1. Comparison of our two cases with previously described patients allowed us to identify three genes predisposing for autism in the duplicated chromosomal region. Sagittal craniosynostosis is also a new finding linked to the duplication.     

Pseudo-metabolic presentation in a Duchenne muscular dystrophy symptomatic carrier with 'de novo' duplication of dystrophin gene

We report a 6-year-old female patient presenting with a sudden and severe single episode of rhabdomyolysis in which screening for a metabolic disorder was negative. Four months after the episode a muscle biopsy was performed and showed a mild pattern of necrosis/regeneration. Upon immunofluorescence, a mosaic pattern of dystrophin deficiency was found, and in the dystrophin deficient muscle fibres, the four proteins of the sarcoglycan complex were also lacking. Genetic analysis showed a duplication of exons 3 to 17 on one X-chromosome of the proband, but not on the mother's X-chromosome. A clearly skewed X-inactivation (85% of the defective X being active) was found and is consistent with the patient being symptomatic. To our knowledge, a spontaneous rhabdomyolysis in a female Duchenne muscular dystrophy carrier has never been reported.     

应用多重连接依赖性探针扩增定量技术检测假肥大型肌营养不良重复突变及携带状态

目的 应用多重连接依赖性探针扩增(MLPA)技术对假肥大型肌营养不良(DMD及BMD)患者及其家系成员进行dystrophin基因分析,探讨MLPA定量技术在本病重复突变及携带者检测中的优势.方法 以355例DMD及BMD患者、46名缺失型患者之母和8名重复型患者之母为研究对象,应用MLPA技术对dystrophin基因全长外显子进行分析,对于单一外显子缺失的样本采用PCR及测序进行验证.结果 经MLPA分析,全部355例患者中190例为dystrophin基因缺失型患者,在其余非缺失型患者中检测出34例重复型突变.此外,在46名缺失型患者的母亲中发现了28名携带者,在8名重复型患者的母亲中发现了6名携带者,两组患者母亲携带者频率差异无统计学意义.经过测序验证,在1例单一外显子缺失的患者中发现17号外显子存在AGGGAACAGATCCTGGTAAAGCA小片段缺失.结论 与传统的定量方法相比,MLPA定量技术可对DMD及BMD患者全长外显子区域同时进行缺失、重复分析,并能对患者家系成员的携带状态进行判定.此外,MLPA检测结果受模板DNA的浓度及纯度影响较小.     

Coexistence of two distinct intragenic dystrophin deletions in two maternal cousins with Duchenne Muscular Dystrophy

The identification of two independent mutations is rarely described between affected members of the same family with Duchenne Muscular Dystrophy. This study reports the presence of two distinct intragenic dystrophin deletions in a Turkish family. Exon 54 deletion was identified originally in the proband, whereas his maternal cousin had deletions of exons 43–50 in the dystrophin gene. As indicated, only the mother of the proband was identified as exon 54 deletion carrier however, the proband’s cousin was detected as a sporadic case. These molecular genetic data reveal an interesting and novel mixture, in the same family, of both mutations of the same gene.     

Clinical features and skewed X-chromosome inactivation in female carriers of X-linked recessive spinal and bulbar muscular atrophy

In X-linked recessive disorders, a few female gene carriers become symptomatic. Recent evidence implicates skewed X-chromosome inactivation in such female carriers. We studied the clinical features of eight female gene carriers of X-linked recessive spinal and bulbar muscular atrophy (SBMA), and evaluated the relationship between phenotype and genotype from the viewpoint of X-chromosome inactivation. Seven of eight cases were symptomatic, showing mild muscle weakness, frequent muscle cramps, slight elevation of the serum creatinine kinase level, or neurogenic changes on the electromyogram. Only one carrier was asymptomatic clinically. For the estimation of X-chromosome inactivation, the methylation status of the androgen receptor (AR) gene was determined by polymerase chain reaction-based assay. Highly skewed inactivation of the affected AR gene was found in the asymptomatic carrier, while symptomatic carriers had a random or lower inactivation pattern of the affected AR gene. These findings suggest that most female carriers of SBMA show some clinical abnormalities, and highly skewed inactivation of the affected X-chromosome seems to closely relate with escape of the manifestation in female carriers of SBMA. Received: 14 November 2000, Received in revised form: 5 March 2001, Accepted: 25 March 2001     

The role of X-chromosome inactivation in the manifestation of Rett syndrome

X-chromosome inactivation (XCI) is random in the majority of patients with classical Rett syndrome (RTT). Preferential inactivation of the X chromosome with the mutated MECP2 gene is found in mildly symptomatic or asymptomatic carrier females. These findings lead to a hypothesis that random XCI is causally involved in the pathogenesis of RTT in heterozygous females. It is the cluster of functionally defective nerve cells lacking fully functional MeCP2 generated by inactivation of normal MECP2 allele that causes the wide spectrum of RTT symptoms. Thus, RTT is a rare human disease manifestation which is triggered most probably by random XCI.     

Salbutamol-responsive limb-girdle congenital myasthenic syndrome due to a novel missense mutation and heteroallelic deletion in MUSK

Congenital myasthenic syndromes (CMS) are clinically and genetically heterogeneous disorders characterized by a neuromuscular transmission defect. In recent years, causative mutations have been identified in atleast 15 genes encoding proteins of the neuromuscular junction. Mutations in MUSK are known as a very rare genetic cause of CMS and have been described in only three families, world-wide. Consequently, the knowledge about efficient drug therapy is very limited. We identified a novel missense mutation (p.Asp38Glu) heteroallelic to a genomic deletion affecting exons 2–3 of MUSK as cause of a limb-girdle CMS in two brothers of Turkish origin. Clinical symptoms included fatigable limb weakness from early childhood on. Upon diagnosis of a MUSK-related CMS at the age of 16 and 13 years, respectively, treatment with salbutamol was initiated leading to an impressive improvement of clinical symptoms, while treatment with esterase inhibitors did not show any benefit. Our findings highlight the importance of a molecular diagnosis in CMS and demonstrate considerable similarities between patients with MUSK and DOK7-related CMS in terms of clinical phenotype and treatment options.     

Duchenne muscular dystrophy caused by a complex rearrangement between intron 43 of the DMD gene and chromosome 4

Deletions/duplications of exons in the DMD gene cause about 70% of all cases of Duchenne muscular dystrophy (DMD). Most remaining mutations are point mutations or small insertion-deletions located mainly in the coding but also in deep intronic regions of the DMD gene. We describe a novel complex rearrangement in a patient affected with DMD that was undetectable using standard molecular diagnostic methods. Analysis of the proband’s mRNA from a muscle biopsy revealed the insertion of an 80 bp cryptic exon from chromosome 4 between exons 43 and 44 of the dystrophin gene. Array comparative genomic hybridization and breakpoint junction sequence analysis indicated this cryptic exon originated from a complex genomic 90 kb insertion of non-coding chromosome 4 into intron 43 of the dystrophin gene. This rearrangement was also detectable in the patient’s mother. The genomic characterization of this novel complex mutation was essential for accurate carrier and genetic counseling of this family and emphasizes the need for comprehensive molecular diagnosis of patients with clinical signs of DMD and clear pathological changes.     

Symptomatic carriers of dystrophinopathy with chromosome X inactivation bias

Several studies have recently highlighted the fact that the clinical involvement in females carrying a mutation in the dystrophin gene could be more frequent than usually thought, suggesting the need of a careful cardiac follow-up. Except for the classical chromosomal rearrangements, it was shown that a bias in the X chromosome inactivation process could be found in some affected females. We report two families illustrating different situations. The propositus of the first family, aged 32, presented with a proximal muscular weakness, increasing for three years, as well as elevated muscular enzymes in blood. Her brother suffered from classical Duchenne muscular dystrophy. Her mother was more severely affected, whereas her sister remained asymptomatic. A duplication of exons 3 to 7 of the dystrophin gene was found in all four patients. The affected carrier from the second family was a sporadic case. She has been suffering from proximal muscular weakness for six years. Muscle biopsy showed a mosaic pattern of the immunostaining using specific antidystrophin antibodies. A stop mutation was found in exon 52. Her ten year-old daughter, carrying the mutation, was asymptomatic. In both families, the inactivation profiles were in accordance with the clinical presentation. We discuss the different mechanisms that may lead to the inactivation bias in these patients, as well as the advantage and limits of using the X chromosome inactivation test as a tool for diagnosis and prognosis purpose in symptomatic carriers for dystrophinopathies.     

Peripheral Myelin Protein 22 gene duplication with atypical presentations: A new example of the wide spectrum of Charcot-Marie-Tooth 1A disease

Charcot-Marie-Tooth type 1A (CMT1A) and hereditary neuropathy with liability to pressure palsies (HNPP) are both autosomal-dominant disorders linked to peripheral myelin anomalies. CMT1A is associated with a Peripheral Myelin Protein 22 (PMP22) duplication, whereas HNPP is due to a PMP22 deletion on chromosome 17. In spite of this crucial difference, we report three observations of patients with the 1.4 megabase CMT1A duplication and atypical presentation (electrophysiological, clinical or pathological): a 10 year-old girl with tomaculous lesions on nerve biopsy; a 26 year-old woman with recurrent paresthesiae and block conduction on the electrophysiological study; a 46 year-old woman with transient recurrent nerve palsies mimicking HNPP. These observations highlight the wide spectrum of CMT1A and the overlap between CMT1A and HNPP (both linked to the PMP22 gene), and finally illustrate the complexity of the genotype–phenotype correlations in Charcot-Marie-Tooth diseases.     

Large SGCE deletion contributes to Taiwanese myoclonus–dystonia syndrome

We report three novel deletions of the SGCE gene in three families with myoclonus–dystonia (M–D) syndrome in Taiwan. Their clinical characteristics included: early onset, dominant myoclonus and dystonia in the neck, trunk and upper limbs. By direct sequencing of the SGCE gene coding regions, we identified a small heterozygous deletion (c.842delA) in exon 7 of the three sibs and asymptomatic father in the first family and an eight-base heterozygous deletion (c.524_531del) in exon 5 of the mother and a daughter in the second family. Using multiple ligation-dependent probe amplification (MLPA), a large heterozygous deletion of 2–11 exons was identified in the father and a son in the third family which was undetected by initial sequencing. It is the largest intragenic deletion ever reported. In conclusion, we have identified three novel mutations of SGCE in the respective three M–D families. The large deletion was responsible for one third of these M–D families which might implicate an important contribution to Taiwanese M–D syndrome. We suggest that the contribution of large deletion should be further verified in a large cohort of patients with M–D syndrome in Han Chinese.     

Alternative outcomes of pathogenic complex somatic structural variations in the genomes of NF1 and NF2 patients

Multiplex ligation-dependent probe amplification (MLPA) has been widely used to identify copy-number variations (CNVs), but MLPA’s sensitivity and specificity in mosaic CNV detection are largely unknown. Here, we present two mosaic deletions identified by MLPA as NF1 deletion of exons 17–21 and NF2 deletion of exons 9–10. Through cDNA analysis, genomic breakpoint-spanning PCR and Sanger sequencing, we found however both NF1 and NF2 deletions are each composed of two consecutive deletions, which cannot be differentiated by MLPA. Importantly, these consecutive deletions are most likely originating from a single genomic rearrangement and have been preserved independently in different populations of cells.     

Limb girdle and facial weakness in female carriers of X-linked myotubular myopathy mutations

Although X-linked myotubular myopathy (XLMTM) is a recessive disorder, heterozygous female carriers of MTM1 mutations may present with limb girdle and facial weakness. It is proposed that manifesting heterozygote females with XLMTM have a skewed pattern of X-chromosome inactivation. However, skewed X-chromosome inactivation was not detected in either the lymphocyte or muscle DNA of a woman who presented with limb girdle/facial weakness and was found to be heterozygous for the R224X mutation.     

Alu-specific microhomology-mediated deletions in CDKL5 in females with early-onset seizure disorder

Mutations in the cyclin-dependent kinase-like 5 (CDKL5) gene in Xp22.13 have been associated with infantile spasms, early-onset intractable epilepsy, and a Rett syndrome (RTT)-like phenotype. Using array comparative genomic hybridization, we identified variable-sized microdeletions involving exons 1–4 of the CDKL5 gene in three females with early-onset seizures. Two of these deletions were flanked by Alu repetitive elements and may have resulted from either non-allelic homologous recombination or the microhomology-mediated Fork Stalling and Template Switching/Microhomology-Mediated Break-Induced Replication mechanism. Our findings demonstrate the first instance of genomic deletion as the molecular basis of CDKL5 deficiency in females and highlight the importance of exon targeted array-CGH analysis for this gene in females with drug-resistant early-onset seizures.