TY - JOUR A1 - Schreiber, Olivia A1 - Schneiderat, Peter A1 - Kress, Wolfram A1 - Rautenstrauss, Bernd A1 - Senderek, Jan A1 - Schoser, Bendikt A1 - Walter, Maggie C. T1 - Facioscapulohumeral muscular dystrophy and Charcot-Marie-Tooth neuropathy 1A-evidence for "double trouble" overlapping syndromes JF - BMC Medical Genetics N2 - Background: We report on a patient with genetically confirmed overlapping diagnoses of CMT1A and FSHD. This case adds to the increasing number of unique patients presenting with atypical phenotypes, particularly in FSHD. Even if a mutation in one disease gene has been found, further genetic testing might be warranted in cases with unusual clinical presentation. Case presentation: The reported 53 years old male patient suffered from walking difficulties and foot deformities first noticed at age 20. Later on, he developed scapuloperoneal and truncal muscle weakness, along with atrophy of the intrinsic hand and foot muscles, pes cavus, claw toes and a distal symmetric hypoesthesia. Motor nerve conduction velocities were reduced to 20 m/s in the upper extremities, and not educible in the lower extremities, sensory nerve conduction velocities were not attainable. Electromyography showed both, myopathic and neurogenic changes. A muscle biopsy taken from the tibialis anterior muscle showed a mild myopathy with some neurogenic findings and hypertrophic type 1 fibers. Whole-body muscle MRI revealed severe changes in the lower leg muscles, tibialis anterior and gastrocnemius muscles were highly replaced by fatty tissue. Additionally, fatty degeneration of shoulder girdle and straight back muscles, and atrophy of dorsal upper leg muscles were seen. Taken together, the presenting features suggested both, a neuropathy and a myopathy. Patient's family history suggested an autosomal dominant inheritance. Molecular testing revealed both, a hereditary motor and sensory neuropathy type 1A (HMSN1A, also called Charcot-Marie-Tooth neuropathy 1A, CMT1A) due to a PMP22 gene duplication and facioscapulohumeral muscular dystrophy (FSHD) due to a partial deletion of the D4Z4 locus (19 kb). Conclusion: Molecular testing in hereditary neuromuscular disorders has led to the identification of an increasing number of atypical phenotypes. Nevertheless, finding the right diagnosis is crucial for the patient in order to obtain adequate medical care and appropriate genetic counseling, especially in the background of arising curative therapies. KW - D4Z4 partial deletion KW - sensory neuropathy KW - hereditary motor KW - disease KW - phenotype KW - FSHD KW - myopathy KW - patient KW - duplication KW - diagnosis KW - facioscapulohumeral muscular dystrophy KW - Charcot-Marie-Tooth neuropathy 1A KW - hereditary motor and sensory neuropathy KW - double trouble KW - overlapping syndrome Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-121963 SN - 1471-2350 VL - 14 IS - 92 ER - TY - JOUR A1 - Böhm, Johann A1 - Vasli, Nasim A1 - Maurer, Marie A1 - Cowling, Belinda A1 - Shelton, G. Diane A1 - Kress, Wolfram A1 - Toussaint, Anne A1 - Prokic, Ivana A1 - Schara, Ulrike A1 - Anderson, Thomas James A1 - Weis, Joachim A1 - Tiret, Laurent A1 - Laporte, Jocelyn T1 - Altered Splicing of the BIN1 Muscle-Specific Exon in Humans and Dogs with Highly Progressive Centronuclear Myopathy JF - PLOS Genetics N2 - Amphiphysin 2, encoded by BIN1, is a key factor for membrane sensing and remodelling in different cell types. Homozygous BIN1 mutations in ubiquitously expressed exons are associated with autosomal recessive centronuclear myopathy (CNM), a mildly progressive muscle disorder typically showing abnormal nuclear centralization on biopsies. In addition, misregulation of BIN1 splicing partially accounts for the muscle defects in myotonic dystrophy (DM). However, the muscle-specific function of amphiphysin 2 and its pathogenicity in both muscle disorders are not well understood. In this study we identified and characterized the first mutation affecting the splicing of the muscle-specific BIN1 exon 11 in a consanguineous family with rapidly progressive and ultimately fatal centronuclear myopathy. In parallel, we discovered a mutation in the same BIN1 exon 11 acceptor splice site as the genetic cause of the canine Inherited Myopathy of Great Danes (IMGD). Analysis of RNA from patient muscle demonstrated complete skipping of exon 11 and BIN1 constructs without exon 11 were unable to promote membrane tubulation in differentiated myotubes. Comparative immunofluorescence and ultrastructural analyses of patient and canine biopsies revealed common structural defects, emphasizing the importance of amphiphysin 2 in membrane remodelling and maintenance of the skeletal muscle triad. Our data demonstrate that the alteration of the muscle-specific function of amphiphysin 2 is a common pathomechanism for centronuclear myopathy, myotonic dystrophy, and IMGD. The IMGD dog is the first faithful model for human BIN1-related CNM and represents a mammalian model available for preclinical trials of potential therapies. KW - linked myotubular myopathy KW - skeletal muscle KW - inherited myopathy KW - SH3 domain KW - amphiphysin-2 BIN1 KW - membrane curvature KW - tumor-suppressor KW - great dane KW - mutation KW - gene Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-127590 SN - 1553-7404 VL - 9 IS - 6 ER - TY - JOUR A1 - Neusch, Clemens A1 - Kuhlmann, Tanja A1 - Kress, Wolfram A1 - Schneider-Gold, Christiane T1 - Late-onset myopathy of the posterior calf muscles mimicking Miyoshi myopathy unrelated to dysferlin mutation: a case report JF - Journal of Medical Case Reports N2 - Introduction Miyoshi myopathy, a type of distal myopathy with predominant involvement of the posterior calf muscles, has been assigned to mutations in the dysferlin gene. However, many of the late-onset limb-girdle and distal myopathies that resemble dysferlinopathy or Miyoshi myopathy remain unclassified, even after extensive immunohistological and genetic analysis. Case presentation We report the case of a 59-year-old Caucasian man with distal myopathy and exercise-induced myalgia, preferentially of the leg muscles, closely resembling the Miyoshi phenotype. Magnetic resonance imaging of his calf muscles showed typical fatty replacement of the medial heads of the gastrocnemius muscles and soleus muscles, with progression to the adductor longus muscles over a time course of two years. However, genetic analysis revealed that the phenotype of our patient was not related to a mutation in the dysferlin gene but to a novel homozygous splice mutation in the anoctamin 5 gene. Mutations in the anoctamin 5 gene have so far been identified only in some cases of limb-girdle and distal myopathy. Mutations in the anoctamin 5 gene have been assigned to limb-girdle muscular dystrophy type 2L, while distal Miyoshi-like phenotypes have been classified as Miyoshi myopathy type 3. Conclusion The case presented in this report further strengthens the underlying genetic heterogeneity in Miyoshi myopathy-like phenotypes and adds another family to non-dysferlin, Miyoshi myopathy type 3 of late-onset. Furthermore, our case supports the recent observation that anoctamin 5 mutations are a primary cause of distal non-dysferlin myopathies. Therefore, given the increasing number of anoctamin 5 mutations in Miyoshi-like phenotypes, genetic analysis should include an anoctamin 5 screen in late-onset limb-girdle and distal myopathies. Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-124365 VL - 6 IS - 345 ER - TY - JOUR A1 - Walter, Maggie C. A1 - Reilich, Peter A1 - Thiele, Simone A1 - Schessl, Joachim A1 - Schreiber, Herbert A1 - Reiners, Karlheinz A1 - Kress, Wolfram A1 - Müller-Reible, Clemens A1 - Vorgerd, Matthias A1 - Urban, Peter A1 - Schrank, Bertold A1 - Deschauer, Marcus A1 - Schlotter-Weigel, Beate A1 - Kohnen, Ralf A1 - Lochmüller, Hans T1 - Treatment of dysferlinopathy with deflazacort: a double-blind, placebo-controlled clinical trial JF - Orphanet Journal of Rare Diseases N2 - Background: Dysferlinopathies are autosomal recessive disorders caused by mutations in the dysferlin (DYSF) gene encoding the dysferlin protein. DYSF mutations lead to a wide range of muscular phenotypes, with the most prominent being Miyoshi myopathy (MM) and limb girdle muscular dystrophy type 2B (LGMD2B). Methods: We assessed the one-year-natural course of dysferlinopathy, and the safety and efficacy of deflazacort treatment in a double-blind, placebo-controlled cross-over trial. After one year of natural course without intervention, 25 patients with genetically defined dysferlinopathy were randomized to receive deflazacort and placebo for six months each (1 mg/kg/day in month one, 1 mg/kg every 2nd day during months two to six) in one of two treatment sequences. Results: During one year of natural course, muscle strength declined about 2% as measured by CIDD (Clinical Investigation of Duchenne Dystrophy) score, and 76 Newton as measured by hand-held dynamometry. Deflazacort did not improve muscle strength. In contrast, there is a trend of worsening muscle strength under deflazacort treatment, which recovers after discontinuation of the study drug. During deflazacort treatment, patients showed a broad spectrum of steroid side effects. Conclusion: Deflazacort is not an effective therapy for dysferlinopathies, and off-label use is not warranted. This is an important finding, since steroid treatment should not be administered in patients with dysferlinopathy, who may be often misdiagnosed as polymyositis. KW - Deflazacort KW - muscle strength KW - gridle muscular-dystrophy KW - Duchenne dystrphy KW - Miyoshi myopathy KW - mutation KW - prednisone KW - gene KW - 2B KW - children KW - design KW - steroids KW - therapy KW - dysferlinopathy KW - Limb girdle muscular dystrophy (LGMD) Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-125663 SN - 1750-1172 VL - 8 IS - 26 ER - TY - JOUR A1 - Petersen, Jens A. A1 - Kuntzer, Thierry A1 - Fischer, Dirk A1 - von der Hagen, Maja A1 - Veronika, Angela A1 - Lobrinus, Johannes A. A1 - Kress, Wolfram A1 - Rushing, Elisabeth J. A1 - Sinnreich, Michael A1 - Jung, Hans H. T1 - Dysferlinopathy in Switzerland: clinical phenotypes and potential founder effects JF - BMC Neurology N2 - Background: Dysferlin is reduced in patients with limb girdle muscular dystrophy type 2B, Miyoshi myopathy, distal anterior compartment myopathy, and in certain Ethnic clusters. Methods: We evaluated clinical and genetic patient data from three different Swiss Neuromuscular Centers. Results: Thirteen patients from 6 non-related families were included. Age of onset was 18.8 +/- 4.3 years. In all patients, diallelic disease-causing mutations were identified in the DYSF gene. Nine patients from 3 non-related families from Central Switzerland carried the identical homozygous mutation, c.3031 + 2T>C. A possible founder effect was confirmed by haplotype analysis. Three patients from two different families carried the heterozygous mutation, c.1064_1065delAA. Two novel mutations were identified (c.2869C>T (p.Gln957Stop), c.5928G>A (p.Trp1976Stop)). Conclusions: Our study confirms the phenotypic heterogeneity associated with DYSF mutations. Two mutations (c.3031 + 2T>C, c.1064_1065delAA) appear common in Switzerland. Haplotype analysis performed on one case (c.3031 + 2T>C) suggested a possible founder effect. KW - gene mutations KW - miyoshi myopathy KW - gridle muscular-dystrophy KW - features KW - deficiency KW - heterogeneity KW - 2B KW - italian patients KW - molecular analysis KW - membrane repair Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-139920 VL - 15 IS - 182 ER - TY - JOUR A1 - Semmler, Anna-Lena A1 - Sacconi, Sabrina A1 - Bach, J. Elisa A1 - Liebe, Claus A1 - Bürmann, Jan A1 - Kley, Rudolf A. A1 - Ferbert, Andreas A1 - Anderheiden, Roland A1 - Van den Bergh, Peter A1 - Martin, Jean-Jacques A1 - De Jonghe, Peter A1 - Neuen-Jacob, Eva A1 - Müller, Oliver A1 - Deschauer, Marcus A1 - Bergmann, Markus A1 - Schröder, J. Michael A1 - Vorgerd, Matthias A1 - Schulz, Jörg B. A1 - Weis, Joachim A1 - Kress, Wolfram A1 - Claeys, Kristl G. T1 - Unusual multisystemic involvement and a novel BAG3 mutation revealed by NGS screening in a large cohort of myofibrillar myopathies JF - Orphanet Journal of Rare Diseases N2 - Background: Myofibrillar myopathies (MFM) are a group of phenotypically and genetically heterogeneous neuromuscular disorders, which are characterized by protein aggregations in muscle fibres and can be associated with multisystemic involvement. Methods: We screened a large cohort of 38 index patients with MFM for mutations in the nine thus far known causative genes using Sanger and next generation sequencing (NGS). We studied the clinical and histopathological characteristics in 38 index patients and five additional relatives (n = 43) and particularly focused on the associated multisystemic symptoms. Results: We identified 14 heterozygous mutations (diagnostic yield of 37%), among them the novel p. Pro209Gln mutation in the BAG3 gene, which was associated with onset in adulthood, a mild phenotype and an axonal sensorimotor polyneuropathy, in the absence of giant axons at the nerve biopsy. We revealed several novel clinical phenotypes and unusual multisystemic presentations with previously described mutations: hearing impairment with a FLNC mutation, dysphonia with a mutation in DES and the first patient with a FLNC mutation presenting respiratory insufficiency as the initial symptom. Moreover, we described for the first time respiratory insufficiency occurring in a patient with the p. Gly154Ser mutation in CRYAB. Interestingly, we detected a polyneuropathy in 28% of the MFM patients, including a BAG3 and a MYOT case, and hearing impairment in 13%, including one patient with a FLNC mutation and two with mutations in the DES gene. In four index patients with a mutation in one of the MFM genes, typical histological findings were only identified at the ultrastructural level (29%). Conclusions: We conclude that extraskeletal symptoms frequently occur in MFM, particularly cardiac and respiratory involvement, polyneuropathy and/or deafness. BAG3 mutations should be considered even in cases with a mild phenotype or an adult onset. We identified a genetic defect in one of the known genes in less than half of the MFM patients, indicating that more causative genes are still to be found. Next generation sequencing techniques should be helpful in achieving this aim. KW - polyneuropathy KW - MFM KW - next generation sequencing KW - bcl-2 associated athanogene protein 3 KW - protein aggregation KW - hearing impairment KW - early respiratory-failure KW - myopathy KW - muscular-dystrophy KW - skeletal myopathy Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-115623 SN - 1750-1172 N1 - Additional files are available here: http://www.ojrd.com/content/9/1/121/additional VL - 9 IS - 121 ER - TY - JOUR A1 - Zaum, Ann‐Kathrin A1 - Nanda, Indrajit A1 - Kress, Wolfram A1 - Rost, Simone T1 - Detection of pericentric inversion with breakpoint in DMD by whole genome sequencing JF - Molecular Genetics & Genomic Medicine N2 - Background Dystrophinopathies caused by variants in the DMD gene are a well‐studied muscle disease. The most common type of variant in DMD are large deletions. Very rarely reported forms of variants are chromosomal translocations, inversions and deep intronic variants (DIVs) because they are not detectable by standard diagnostic techniques (sequencing of coding sequence, copy number variant detection). This might be the reason that some clinically and histologically proven dystrophinopathy cases remain unsolved. Methods We used whole genome sequencing (WGS) to screen the entire DMD gene for variants in one of two brothers suffering from typical muscular dystrophy with strongly elevated creatine kinase levels. Results Although a pathogenic DIV could not be detected, we were able to identify a pericentric inversion with breakpoints in DMD intron 44 and Xq13.3, which could be confirmed by Sanger sequencing in the index as well as in his brother and mother. As this variation affects a major part of DMD it is most likely disease causing. Conclusion Our findings elucidate that WGS is capable of detecting large structural rearrangements and might be suitable for the genetic diagnostics of dystrophinopathies in the future. In particular, inversions might be a more frequent cause for dystrophinopathies as anticipated and should be considered in genetically unsolved dystrophinopathy cases. KW - chromosome inversion KW - Duchenne muscular dystrophy KW - dystrophin KW - genetic diagnostics KW - whole genome sequencing Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-293940 VL - 10 IS - 10 ER - TY - JOUR A1 - Mahyera, Alexis S. A1 - Schneider, Tamara A1 - Halliger-Keller, Birgit A1 - Schrooten, Katja A1 - Hörner, Eva-Maria A1 - Rost, Simone A1 - Kress, Wolfram T1 - Distribution and Structure of DM2 Repeat Tract Alleles in the German Population JF - Frontiers in Neurology N2 - Autosomal dominant inherited Myotonic dystrophy type 1 and 2 (DM1 and DM2) are the most frequent muscle dystrophies in the European population and are caused by repeat expansion mutations. For Germany cumulative empiric evidence suggests an estimated prevalence of DM2 of roughly 9 in 100,000, therefore being as prevalent as DM1. In DM2, a (CCTG)n repeat tract located in the first intron of the CNBP gene is expanded. The CCTG repeat tract is part of a complex repeat structure comprising not only CCTG tetraplets but also repeated TG dinucleotides and TCTG tetraplet elements as well as NCTG interruptions. Here, we provide the distribution of normal sized alleles in the German population, which was found to be highly similar to the Slovak population. Sequencing of 34 unexpanded healthy range alleles in DM2 positive patients (heterozygous for a full expansion) revealed that the CCTG repeat tract is usually interrupted by at least three tetraplets which according to current opinion is supposed to render it stable against expansion. Interestingly, only the largest analyzed normal allele had 23 uninterrupted CCTGs and consequently could represent an instable early premutation allele. In our diagnostic history of DM2 cases, a total of 18 premutations were detected in 16 independent cases. Here, we describe two premutation families, one with an expansion from a premutation allele and the other with a contraction of a full expansion down to a premutation allele. Our diagnostic results support the general assumption that the premutation range of unstable CCTG stretches lies obviously between 25 and 75 CCTGs. However, the clinical significance of premutation alleles is still unclear. In the light of the two described families we suggest incomplete penetrance. Thus, as it was proposed for other repeat expansion diseases (e.g., Huntington's disease), a fluid transition of penetrance is more likely rather than a clear cut CCTG number threshold. KW - DM2 KW - intergenerational contraction KW - expansion KW - premutation KW - penetrance KW - prevalence Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-196252 SN - 1664-2295 VL - 9 IS - 463 ER - TY - JOUR A1 - Kölbel, Heike A1 - Roos, Andreas A1 - van der Ven, Peter F. M. A1 - Evangelista, Teresinha A1 - Nolte, Kay A1 - Johnson, Katherine A1 - Töpf, Ana A1 - Wilson, Michael A1 - Kress, Wolfram A1 - Sickmann, Albert A1 - Straub, Volker A1 - Kollipara, Laxmikanth A1 - Weis, Joachim A1 - Fürst, Dieter O. A1 - Schara, Ulrike T1 - First clinical and myopathological description of a myofibrillar myopathy with congenital onset and homozygous mutation in FLNC JF - Human Mutation N2 - Filamin C (encoded by the FLNC gene) is a large actin‐cross‐linking protein involved in shaping the actin cytoskeleton in response to signaling events both at the sarcolemma and at myofibrillar Z‐discs of cross‐striated muscle cells. Multiple mutations in FLNC are associated with myofibrillar myopathies of autosomal‐dominant inheritance. Here, we describe for the first time a boy with congenital onset of generalized muscular hypotonia and muscular weakness, delayed motor development but no cardiac involvement associated with a homozygous FLNC mutation c.1325C>G (p.Pro442Arg). We performed ultramorphological, proteomic, and functional investigations as well as immunological studies of known marker proteins for dominant filaminopathies. We show that the mutant protein is expressed in similar quantities as the wild‐type variant in control skeletal muscle fibers. The proteomic signature of quadriceps muscle is altered and ultrastructural perturbations are evident. Moreover, filaminopathy marker proteins are comparable both in our homozygous and a dominant control case (c.5161delG). Biochemical investigations demonstrate that the recombinant mutant protein is less stable and more prone to degradation by proteolytic enzymes than the wild‐type variant. The unusual congenital presentation of the disease clearly demonstrates that homozygosity for mutations in FLNC severely aggravates the phenotype. KW - congenital myopathy KW - filamin C KW - myofibrillar myopathy KW - proteomic signature KW - recessive inheritance Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-215481 VL - 41 IS - 9 SP - 1600 EP - 1614 ER - TY - JOUR A1 - Lorenz, Delia A1 - Kress, Wolfram A1 - Zaum, Ann-Kathrin A1 - Speer, Christian P. A1 - Hebestreit, Helge T1 - Report of two siblings with spondylodysplastic Ehlers-Danlos syndrome and B4GALT7 deficiency JF - BMC Pediatrics N2 - Background The spondylodysplastic Ehlers-Danlos subtype (OMIM #130070) is a rare connective tissue disorder characterized by a combination of connective tissue symptoms, skeletal features and short stature. It is caused by variants in genes encoding for enzymes involved in the proteoglycan biosynthesis or for a zinc transporter. Presentation of cases We report two brothers with a similar phenotype of short stature, joint hypermobility, distinct craniofacial features, developmental delay and severe hypermetropia indicative for a spondylodysplastic Ehlers-Danlos subtype. One also suffered from a recurrent pneumothorax. Gene panel analysis identified two compound heterozygous variants in the B4GALT7 gene: c.641G > A and c.723 + 4A > G. B4GALT7 encodes for galactosyltransferase I, which is required for the initiation of glycosaminoglycan side chain synthesis of proteoglycans. Conclusions This is a first full report on two cases with spondylodysplastic Ehlers-Danlos syndrome and the c.723 + 4A > G variant of B4GALT7. The recurrent pneumothoraces observed in one case expand the variable phenotype of the syndrome. KW - connective tissue disorder KW - spondylodysplastic Ehlers-Danlos syndrome KW - B4GALT7 gene KW - case report Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-261084 VL - 21 ER -