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1. Mutations in HSPB8 causing a new phenotype of distal myopathy and motor neuropathy

Author

Ghaoui, R., Palmio, J., Brewer, J., Lek, M., Needham, M., Evilä, A., Hackman, P., Jonson, P-H, Penttilä, S., Vihola, A., Huovinen, S., Lindfors, M., Davis, R.L., Waddell, L., Kaur, S., Yiannikas, C., North, K., Clarke, N., MacArthur, D.G., Sue, C.M., Udd, B., Ghaoui, R., Palmio, J., Brewer, J., Lek, M., Needham, M., Evilä, A., Hackman, P., Jonson, P-H, Penttilä, S., Vihola, A., Huovinen, S., Lindfors, M., Davis, R.L., Waddell, L., Kaur, S., Yiannikas, C., North, K., Clarke, N., MacArthur, D.G., Sue, C.M., and Udd, B.

Abstract

OBJECTIVE: To report novel disease and pathology due to HSPB8 mutations in 2 families with autosomal dominant distal neuromuscular disease showing both myofibrillar and rimmed vacuolar myopathy together with neurogenic changes. METHODS: We performed whole-exome sequencing (WES) in tandem with linkage analysis and candidate gene approach as well as targeted next-generation sequencing (tNGS) to identify causative mutations in 2 families with dominant rimmed vacuolar myopathy and a motor neuropathy. Pathogenic variants and familial segregation were confirmed using Sanger sequencing. RESULTS: WES and tNGS identified a heterozygous change in HSPB8 in both families: c.421A > G p.K141E in family 1 and c.151insC p.P173SfsX43 in family 2. Affected patients had a distal myopathy that showed myofibrillar aggregates and rimmed vacuoles combined with a clear neurogenic component both on biopsy and neurophysiologic studies. MRI of lower limb muscles demonstrated diffuse tissue changes early in the disease stage progressing later to fatty replacement typical of a myopathy. CONCLUSION: We expand the understanding of disease mechanisms, tissue involvement, and phenotypic outcome of HSPB8 mutations. HSPB8 is part of the chaperone-assisted selective autophagy (CASA) complex previously only associated with Charcot-Marie-Tooth type 2L (OMIM 60673) and distal hereditary motor neuronopathy type IIa. However, we now demonstrate that patients can develop a myopathy with histologic features of myofibrillar myopathy with aggregates and rimmed vacuoles, similar to the pathology in myopathies due to gene defects in other compounds of the CASA complex such as BAG3 and DNAJB6 after developing the early neurogenic effects.

Published
2016

15. Current advance on distal myopathy genetics.

Author

Ranta-Aho J, Johari M, and Udd B

Subjects
Humans, Distal Myopathies genetics, Distal Myopathies pathology
Abstract

Purpose of Review: Distal myopathies are a clinically heterogenous group of rare, genetic muscle diseases, that present with weakness in hands and/or feet at onset. Some of these diseases remain accentuated in the distal muscles whereas others may later progress to the proximal muscles. In this review, the latest findings related to genetic and clinical features of distal myopathies are summarized., Recent Findings: Variants in SMPX , DNAJB2, and HSPB6 have been identified as a novel cause of late-onset distal myopathy and neuromyopathy. In oculopharyngodistal myopathies, repeat expansions were identified in two novel disease-causing genes, RILPL1 and ABCD3. In multisystem proteinopathies, variants in HNRNPA1 and TARDBP , genes previously associated with amyotrophic lateral sclerosis, have been shown to cause late-onset distal myopathy without ALS. In ACTN2 -related distal myopathy, the first recessive forms of the disease have been described, adding it to the growing list of genes were both dominant and recessive forms of myopathy are present., Summary: The identification of novel distal myopathy genes and pathogenic variants contribute to our ability to provide a final molecular diagnosis to a larger number of patients and increase our overall understanding of distal myopathy genetics and pathology., (Copyright © 2024 The Author(s). Published by Wolters Kluwer Health, Inc.)

Published
2024
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16. CACNA1S Variant Associated With a Myalgic Myopathy Phenotype.

Author

Periviita V, Palmio J, Jokela M, Hartikainen P, Vihola A, Rauramaa T, and Udd B

Subjects
Humans, Quality of Life, Muscle Weakness genetics, Phenotype, Calcium Channels, L-Type genetics, Myalgia genetics, Muscular Diseases genetics, Muscular Diseases diagnosis
Abstract

Background and Objectives: This study aimed to characterize the phenotype of a novel myalgic myopathy encountered in a Finnish family., Methods: Four symptomatic and 3 asymptomatic individuals from 2 generations underwent clinical, neurophysiologic, imaging, and muscle biopsy examinations. Targeted sequencing of all known myopathy genes was performed., Results: A very rare CACNA1S gene variant c.2893G>C (p.E965Q) was identified in the family. The symptomatic patients presented with exercise-induced myalgia, cramping, muscle stiffness, and fatigue and eventually developed muscle weakness. Examinations revealed mild ptosis and unusual muscle hypertrophy in the upper limbs. In the most advanced disease stage, muscle weakness and muscle atrophy of the limbs were evident. In some patients, muscle biopsy showed mild myopathic findings and creatine kinase levels were slightly elevated., Discussion: Myalgia is a very common symptom affecting quality of life. Widespread myalgia may be confused with other myalgic syndromes such as fibromyalgia. In this study, we show that variants in CACNA1S gene may be one cause of severe exercise-induced myalgia., (© 2023 American Academy of Neurology.)

Published
2023
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17. The constantly evolving spectrum of phenotypes in titinopathies - will it ever stop?

Author

Udd B

Subjects
Humans, Connectin genetics, Muscular Diseases genetics, Phenotype
Abstract

Purpose of Review: The last few years have confirmed previous assumptions of an enormous impact of the titin gene (TTN) on the occurrence of muscle disease, cardiomyopathy, or both together. The reason for this rather late understanding of its importance is because of the huge size which prevented sequencing of the whole gene by the previous Sanger technique in the individual cases. An update of the advances in diagnosing titinopathies is the main focus of this review., Recent Findings: High throughput methods are now widely available for TTN sequencing and a corresponding explosion of different types of identified titinopathies is observed and published in the literature, although final confirmation is lacking in many cases with recessive missense variants., Summary: The implications of these findings for clinical practice are easy to understand: patients with previously undiagnosed muscle disease can now have a correct diagnosis and subsequently receive a likely prognosis, can have accurate genetic counseling for the whole family and early treatment for predictable complications from the heart and respiratory muscles. In addition not to forget, they can avoid wrong diagnoses leading to wrong treatments.

Published
2020
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18. Consensus-based care recommendations for adults with myotonic dystrophy type 2.

Author

Schoser B, Montagnese F, Bassez G, Fossati B, Gamez J, Heatwole C, Hilbert J, Kornblum C, Kostera-Pruszczyk A, Krahe R, Lusakowska A, Meola G, Moxley R 3rd, Thornton C, Udd B, and Formaker P

Abstract

Purpose of Review: Myotonic dystrophy type 2 (DM2) is a rare, progressive multisystem disease particularly affecting the skeletal muscle. A causal therapy is not yet available; however, prompt, appropriate symptomatic treatments are essential to limit disease-related complications. Evidence-based guidelines to assist medical practitioners in the care of DM2 patients do not exist., Recent Findings: The Myotonic Dystrophy Foundation (MDF) previously worked with an international group of 66 clinicians to develop consensus-based care recommendations for myotonic dystrophy type 1. Following a similar approach, the MDF recruited 15 international clinicians with long-standing experience in the care of DM2 patients to develop consensus-based care recommendations. The single text procedure was adopted. This process generated a 4-page Quick Reference Guide and a comprehensive 55-page document that provides care recommendations for DM2 patients., Summary: The resulting recommendations will help standardize and improve care for DM2 patients and facilitate appropriate management in centers without neuromuscular specialists., (Copyright © 2019 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published
2019
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19. An unusual ryanodine receptor 1 (RYR1) phenotype: Mild calf-predominant myopathy.

Author

Jokela M, Tasca G, Vihola A, Mercuri E, Jonson PH, Lehtinen S, Välipakka S, Pane M, Donati M, Johari M, Savarese M, Huovinen S, Isohanni P, Palmio J, Hartikainen P, and Udd B

Subjects
Adolescent, Adult, Aged, Child, Creatine Kinase metabolism, Distal Myopathies metabolism, Distal Myopathies pathology, Distal Myopathies physiopathology, Female, Humans, INDEL Mutation, Leg, Male, Middle Aged, Muscle, Skeletal metabolism, Muscle, Skeletal pathology, Pedigree, Ryanodine Receptor Calcium Release Channel metabolism, Distal Myopathies genetics, Ryanodine Receptor Calcium Release Channel genetics
Abstract

Objective: To identify the genetic defect causing a distal calf myopathy with cores., Methods: Families with a genetically undetermined calf-predominant myopathy underwent detailed clinical evaluation, including EMG/nerve conduction studies, muscle biopsy, laboratory investigations, and muscle MRI. Next-generation sequencing and targeted Sanger sequencing were used to identify the causative genetic defect in each family., Results: A novel deletion-insertion mutation in ryanodine receptor 1 ( RYR1 ) was found in the proband of the index family and segregated with the disease in 6 affected relatives. Subsequently, we found 2 more families with a similar calf-predominant myopathy segregating with unique RYR1 -mutated alleles. All patients showed a very slowly progressive myopathy without episodes of malignant hyperthermia or rhabdomyolysis. Muscle biopsy showed cores or core-like changes in all families., Conclusions: Our findings expand the spectrum of RYR1 -related disorders to include a calf-predominant myopathy with core pathology and autosomal dominant inheritance. Two families had unique and previously unreported RYR1 mutations, while affected persons in the third family carried 2 previously known mutations in the same dominant allele., (© 2019 American Academy of Neurology.)

Published
2019
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20. Myasthenic congenital myopathy from recessive mutations at a single residue in Na V 1.4.

Author

Elia N, Palmio J, Castañeda MS, Shieh PB, Quinonez M, Suominen T, Hanna MG, Männikkö R, Udd B, and Cannon SC

Subjects
Adult, Animals, Electromyography, Female, Finland, Humans, Laryngismus genetics, Laryngismus physiopathology, Loss of Function Mutation, Male, Muscle Hypotonia genetics, Muscle Hypotonia physiopathology, Muscle, Skeletal pathology, Mutation, Missense, Myasthenic Syndromes, Congenital metabolism, Myasthenic Syndromes, Congenital physiopathology, Myotonia genetics, Myotonia physiopathology, NAV1.4 Voltage-Gated Sodium Channel metabolism, Oocytes, Patch-Clamp Techniques, Pedigree, Exome Sequencing, Xenopus, Myasthenic Syndromes, Congenital genetics, NAV1.4 Voltage-Gated Sodium Channel genetics
Abstract

Objective: To identify the genetic and physiologic basis for recessive myasthenic congenital myopathy in 2 families, suggestive of a channelopathy involving the sodium channel gene, SCN4A ., Methods: A combination of whole exome sequencing and targeted mutation analysis, followed by voltage-clamp studies of mutant sodium channels expressed in fibroblasts (HEK cells) and Xenopus oocytes., Results: Missense mutations of the same residue in the skeletal muscle sodium channel, R1460 of Na V 1.4, were identified in a family and a single patient of Finnish origin (p.R1460Q) and a proband in the United States (p.R1460W). Congenital hypotonia, breathing difficulties, bulbar weakness, and fatigability had recessive inheritance (homozygous p.R1460W or compound heterozygous p.R1460Q and p.R1059X), whereas carriers were either asymptomatic (p.R1460W) or had myotonia (p.R1460Q). Sodium currents conducted by mutant channels showed unusual mixed defects with both loss-of-function (reduced amplitude, hyperpolarized shift of inactivation) and gain-of-function (slower entry and faster recovery from inactivation) changes., Conclusions: Novel mutations in families with myasthenic congenital myopathy have been identified at p.R1460 of the sodium channel. Recessive inheritance, with experimentally established loss-of-function, is a consistent feature of sodium channel based myasthenia, whereas the mixed gain of function for p.R1460 may also cause susceptibility to myotonia., (Copyright © 2019 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published
2019
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21. Clinical Reasoning: A 54-year-old man with dyspnea and muscle weakness.

Author

Chertcoff A, Saucedo M, Bandeo L, Pantiu F, León Cejas L, Borsini E, Reisin R, and Udd B

Subjects
Diagnosis, Differential, Dyspnea genetics, Genetic Diseases, Inborn diagnosis, Genetic Diseases, Inborn genetics, Humans, Lower Extremity diagnostic imaging, Male, Middle Aged, Muscle Weakness genetics, Muscular Diseases diagnosis, Muscular Diseases genetics, Respiratory Insufficiency diagnosis, Respiratory Insufficiency genetics, Dyspnea diagnosis, Muscle Weakness diagnosis
Published
2019
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22. Predominantly myalgic phenotype caused by the c.3466G>A p.A1156T mutation in SCN4A gene.

Author

Palmio J, Sandell S, Hanna MG, Männikkö R, Penttilä S, and Udd B

Subjects
Adolescent, Adult, Child, Child, Preschool, Cohort Studies, DNA Mutational Analysis, Family, Female, Fibromyalgia genetics, Fibromyalgia physiopathology, Finland, HEK293 Cells, Humans, Male, Middle Aged, Myotonic Dystrophy genetics, Myotonic Dystrophy physiopathology, Patch-Clamp Techniques, Phenotype, White People genetics, Young Adult, Mutation, Myalgia genetics, Myalgia physiopathology, NAV1.4 Voltage-Gated Sodium Channel genetics, NAV1.4 Voltage-Gated Sodium Channel metabolism
Abstract

Objective: To characterize the clinical phenotype in patients with p.A1156T sodium channel mutation., Methods: Twenty-nine Finnish patients identified with the c.3466G>A p.A1156T mutation in the SCN4A gene were extensively examined. In a subsequent study, 63 patients with similar myalgic phenotype and with negative results in myotonic dystrophy type 2 genetic screening (DM2-neg group) and 93 patients diagnosed with fibromyalgia were screened for the mutation. Functional consequences of the p.A1156T mutation were studied in HEK293 cells with whole-cell patch clamp., Results: The main clinical manifestation in p.A1156T patients was not myotonia or periodic paralysis but exercise- and cold-induced muscle cramps, muscle stiffness, and myalgia. EMG myotonic discharges were detected in most but not all. Electrophysiologic compound muscle action potentials exercise test showed variable results. The p.A1156T mutation was identified in one patient in the DM2-neg group but not in the fibromyalgia group, making a total of 30 patients so far identified. Functional studies of the p.A1156T mutation showed mild attenuation of channel fast inactivation., Conclusions: The unspecific symptoms of myalgia stiffness and exercise intolerance without clinical myotonia or periodic paralysis in p.A1156T patients make the diagnosis challenging. The symptoms of milder SCN4A mutations may be confused with other similar myalgic syndromes, including fibromyalgia and myotonic dystrophy type 2., (Copyright © 2017 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published
2017
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23. The genetic basis of undiagnosed muscular dystrophies and myopathies: Results from 504 patients.

Author

Savarese M, Di Fruscio G, Torella A, Fiorillo C, Magri F, Fanin M, Ruggiero L, Ricci G, Astrea G, Passamano L, Ruggieri A, Ronchi D, Tasca G, D'Amico A, Janssens S, Farina O, Mutarelli M, Marwah VS, Garofalo A, Giugliano T, Sampaolo S, Del Vecchio Blanco F, Esposito G, Piluso G, D'Ambrosio P, Petillo R, Musumeci O, Rodolico C, Messina S, Evilä A, Hackman P, Filosto M, Di Iorio G, Siciliano G, Mora M, Maggi L, Minetti C, Sacconi S, Santoro L, Claes K, Vercelli L, Mongini T, Ricci E, Gualandi F, Tupler R, De Bleecker J, Udd B, Toscano A, Moggio M, Pegoraro E, Bertini E, Mercuri E, Angelini C, Santorelli FM, Politano L, Bruno C, Comi GP, and Nigro V

Subjects
Cohort Studies, Diagnosis, Differential, Female, Genetic Variation, Humans, Italy, Male, Sequence Analysis, Muscular Dystrophies diagnosis, Muscular Dystrophies genetics
Abstract

Objective: To apply next-generation sequencing (NGS) for the investigation of the genetic basis of undiagnosed muscular dystrophies and myopathies in a very large cohort of patients., Methods: We applied an NGS-based platform named MotorPlex to our diagnostic workflow to test muscle disease genes with a high sensitivity and specificity for small DNA variants. We analyzed 504 undiagnosed patients mostly referred as being affected by limb-girdle muscular dystrophy or congenital myopathy., Results: MotorPlex provided a complete molecular diagnosis in 218 cases (43.3%). A further 160 patients (31.7%) showed as yet unproven candidate variants. Pathogenic variants were found in 47 of 93 genes, and in more than 30% of cases, the phenotype was nonconventional, broadening the spectrum of disease presentation in at least 10 genes., Conclusions: Our large DNA study of patients with undiagnosed myopathy is an example of the ongoing revolution in molecular diagnostics, highlighting the advantages in using NGS as a first-tier approach for heterogeneous genetic conditions., (© 2016 American Academy of Neurology.)

Published
2016
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24. Mutations in HSPB8 causing a new phenotype of distal myopathy and motor neuropathy.

Author

Ghaoui R, Palmio J, Brewer J, Lek M, Needham M, Evilä A, Hackman P, Jonson PH, Penttilä S, Vihola A, Huovinen S, Lindfors M, Davis RL, Waddell L, Kaur S, Yiannikas C, North K, Clarke N, MacArthur DG, Sue CM, and Udd B

Subjects
Adult, Distal Myopathies pathology, Exome, Female, Hereditary Sensory and Motor Neuropathy pathology, Humans, Male, Middle Aged, Molecular Chaperones, Myopathies, Structural, Congenital genetics, Myopathies, Structural, Congenital pathology, Pedigree, Phenotype, Distal Myopathies genetics, Heat-Shock Proteins genetics, Hereditary Sensory and Motor Neuropathy genetics, Protein Serine-Threonine Kinases genetics
Abstract

Objective: To report novel disease and pathology due to HSPB8 mutations in 2 families with autosomal dominant distal neuromuscular disease showing both myofibrillar and rimmed vacuolar myopathy together with neurogenic changes., Methods: We performed whole-exome sequencing (WES) in tandem with linkage analysis and candidate gene approach as well as targeted next-generation sequencing (tNGS) to identify causative mutations in 2 families with dominant rimmed vacuolar myopathy and a motor neuropathy. Pathogenic variants and familial segregation were confirmed using Sanger sequencing., Results: WES and tNGS identified a heterozygous change in HSPB8 in both families: c.421A > G p.K141E in family 1 and c.151insC p.P173SfsX43 in family 2. Affected patients had a distal myopathy that showed myofibrillar aggregates and rimmed vacuoles combined with a clear neurogenic component both on biopsy and neurophysiologic studies. MRI of lower limb muscles demonstrated diffuse tissue changes early in the disease stage progressing later to fatty replacement typical of a myopathy., Conclusion: We expand the understanding of disease mechanisms, tissue involvement, and phenotypic outcome of HSPB8 mutations. HSPB8 is part of the chaperone-assisted selective autophagy (CASA) complex previously only associated with Charcot-Marie-Tooth type 2L (OMIM 60673) and distal hereditary motor neuronopathy type IIa. However, we now demonstrate that patients can develop a myopathy with histologic features of myofibrillar myopathy with aggregates and rimmed vacuoles, similar to the pathology in myopathies due to gene defects in other compounds of the CASA complex such as BAG3 and DNAJB6 after developing the early neurogenic effects., (© 2015 American Academy of Neurology.)

Published
2016
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25. A new titinopathy: Childhood-juvenile onset Emery-Dreifuss-like phenotype without cardiomyopathy.

Author

De Cid R, Ben Yaou R, Roudaut C, Charton K, Baulande S, Leturcq F, Romero NB, Malfatti E, Beuvin M, Vihola A, Criqui A, Nelson I, Nectoux J, Ben Aim L, Caloustian C, Olaso R, Udd B, Bonne G, Eymard B, and Richard I

Subjects
Female, Humans, Male, Middle Aged, Young Adult, Cardiomyopathies, Connectin genetics, Frameshift Mutation genetics, Muscular Dystrophy, Emery-Dreifuss diagnosis, Muscular Dystrophy, Emery-Dreifuss genetics, Phenotype
Abstract

Objective: To identify the genetic defects present in 3 families with muscular dystrophy, contractures, and calpain 3 deficiency., Methods: We performed targeted exome sequencing on one patient presenting a deficiency in calpain 3 on Western blot but for which mutations in the gene had been excluded. The identification of a homozygous truncating mutation in the M-line part of titin prompted us to sequence this region in 2 additional patients presenting similar clinical and biochemical characteristics., Results: The 3 patients shared similar features: coexistence of limb-girdle weakness and early-onset diffuse joint contractures without cardiomyopathy. The biopsies showed rimmed vacuoles, a dystrophic pattern, and secondary reduction in calpain 3. We identified a novel homozygous mutation in the exon Mex3 of the TTN gene in the first patient. At protein level, this mutation introduces a stop codon at the level of Mex3. Interestingly, we identified truncating mutations in both alleles in the same region of the TTN gene in patients from 2 additional families. Molecular protein analyses confirm loss of the C-ter part of titin., Conclusions: Our study broadens the phenotype of titinopathies with the report of a new clinical entity with prominent contractures and no cardiac abnormality and where the recessive mutations lead to truncation of the M-line titin and secondary calpain 3 deficiency., (© 2015 American Academy of Neurology.)

Published
2015
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26. SQSTM1 splice site mutation in distal myopathy with rimmed vacuoles.

Author

Bucelli RC, Arhzaouy K, Pestronk A, Pittman SK, Rojas L, Sue CM, Evilä A, Hackman P, Udd B, Harms MB, and Weihl CC

Subjects
Distal Myopathies pathology, Distal Myopathies physiopathology, Exome, Humans, Male, Middle Aged, Mutation genetics, Pedigree, Sequestosome-1 Protein, Vacuoles metabolism, Adaptor Proteins, Signal Transducing genetics, Distal Myopathies genetics, Vacuoles pathology
Abstract

Objective: To identify the genetic etiology and characterize the clinicopathologic features of a novel distal myopathy., Methods: We performed whole-exome sequencing on a family with an autosomal dominant distal myopathy and targeted exome sequencing in 1 patient with sporadic distal myopathy, both with rimmed vacuolar pathology. We also evaluated the pathogenicity of identified mutations using immunohistochemistry, Western blot analysis, and expression studies., Results: Sequencing identified a likely pathogenic c.1165+1 G>A splice donor variant in SQSTM1 in the affected members of 1 family and in an unrelated patient with sporadic distal myopathy. Affected patients had late-onset distal lower extremity weakness, myopathic features on EMG, and muscle pathology demonstrating rimmed vacuoles with both TAR DNA-binding protein 43 and SQSTM1 inclusions. The c.1165+1 G>A SQSTM1 variant results in the expression of 2 alternatively spliced SQSTM1 proteins: 1 lacking the C-terminal PEST2 domain and another lacking the C-terminal ubiquitin-associated (UBA) domain, both of which have distinct patterns of cellular and skeletal muscle localization., Conclusions: SQSTM1 is an autophagic adaptor that shuttles aggregated and ubiquitinated proteins to the autophagosome for degradation via its C-terminal UBA domain. Similar to mutations in VCP, dominantly inherited mutations in SQSTM1 are now associated with rimmed vacuolar myopathy, Paget disease of bone, amyotrophic lateral sclerosis, and frontotemporal dementia. Our data further suggest a pathogenic connection between the disparate phenotypes., (© 2015 American Academy of Neurology.)

Published
2015
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27. Premutation allele pool in myotonic dystrophy type 2.

Author

Bachinski LL, Czernuszewicz T, Ramagli LS, Suominen T, Shriver MD, Udd B, Siciliano MJ, and Krahe R

Subjects
Adult, Europe epidemiology, Female, Genetic Predisposition to Disease genetics, Genetic Variation genetics, Humans, Male, Myotonic Dystrophy classification, United States, Gene Frequency genetics, Genetic Testing methods, Myotonic Dystrophy diagnosis, Myotonic Dystrophy genetics, Polymorphism, Single Nucleotide genetics, Repetitive Sequences, Nucleic Acid genetics
Abstract

Background: The myotonic dystrophies (DM1, DM2) are the most common adult muscle diseases and are characterized by multisystem involvement. DM1 has been described in diverse populations, whereas DM2 seems to occur primarily in European Caucasians. Both are caused by the expression of expanded microsatellite repeats. In DM1, there is a reservoir of premutation alleles; however, there have been no reported premutation alleles for DM2. The (CCTG)(DM2) expansion is part of a complex polymorphic repeat tract of the form (TG)(n)(TCTG)(n)(CCTG)(n)(NCTG)(n)(CCTG)(n). Expansions are as large as 40 kb, with the expanded (CCTG)(n) motif uninterrupted. Reported normal alleles have up to (CCTG)(26) with one or more interruptions., Methods: To identify and characterize potential DM2 premutation alleles, we cloned and sequenced 43 alleles from 23 individuals. Uninterrupted alleles were identified, and their instability was confirmed by small-pool PCR. We determined the genotype of a nearby single nucleotide polymorphism (rs1871922) known to be in linkage disequilibrium with the DM2 mutation., Results: We identified three classes of large non-DM2 repeat alleles: 1) up to (CCTG)(24) with two interruptions, 2) up to (CCTG)(32) with up to four interruptions, and 3) uninterrupted (CCTG)(22-33). Large non-DM2 alleles were more common in African Americans than in European Caucasians. Uninterrupted alleles were significantly more unstable than interrupted alleles (p = 10(-4) to 10(-7)). Genotypes at rs1871922 were consistent with the hypothesis that all large alleles occur on the same haplotype as the DM2 expansion., Conclusions: We conclude that unstable uninterrupted (CCTG)(22-33) alleles represent a premutation allele pool for DM2 full mutations.

Published
2009
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28. Distinct muscle imaging patterns in myofibrillar myopathies.

Author

Fischer D, Kley RA, Strach K, Meyer C, Sommer T, Eger K, Rolfs A, Meyer W, Pou A, Pradas J, Heyer CM, Grossmann A, Huebner A, Kress W, Reimann J, Schröder R, Eymard B, Fardeau M, Udd B, Goldfarb L, Vorgerd M, and Olivé M

Subjects
Adaptor Proteins, Signal Transducing genetics, Adolescent, Adult, Aged, Female, Humans, LIM Domain Proteins, Magnetic Resonance Imaging methods, Male, Middle Aged, Muscle Proteins genetics, Muscle Proteins metabolism, Muscular Atrophy pathology, Muscular Diseases classification, Muscular Diseases genetics, Mutation, Tomography Scanners, X-Ray Computed, alpha-Crystallin B Chain genetics, Desmin metabolism, Muscle, Skeletal pathology, Muscular Diseases pathology, Myofibrils pathology
Abstract

Objective: To compare muscle imaging findings in different subtypes of myofibrillar myopathies (MFM) in order to identify characteristic patterns of muscle alterations that may be helpful to separate these genetic heterogeneous muscular disorders., Methods: Muscle imaging and clinical findings of 46 patients with MFM were evaluated (19 desminopathy, 12 myotilinopathy, 11 filaminopathy, 1 alphaB-crystallinopathy, and 3 ZASPopathy). The data were collected retrospectively in 43 patients and prospectively in 3 patients., Results: In patients with desminopathy, the semitendinosus was at least equally affected as the biceps femoris, and the peroneal muscles were never less involved than the tibialis anterior (sensitivity of these imaging criteria to detect desminopathy in our cohort 100%, specificity 95%). In most of the patients with myotilinopathy, the adductor magnus showed more alterations than the gracilis muscle, and the sartorius was at least equally affected as the semitendinosus (sensitivity 90%, specificity 93%). In filaminopathy, the biceps femoris and semitendinosus were at least equally affected as the sartorius muscle, and the medial gastrocnemius was more affected than the lateral gastrocnemius. The semimembranosus mostly showed more alterations than the adductor magnus (sensitivity 88%, specificity 96%). Early adult onset and cardiac involvement was most often associated with desminopathy. In patients with filaminopathy, muscle weakness typically beginning in the 5th decade of life was mostly pronounced proximally, while late adult onset (>50 years) with distal weakness was more often present in myotilinopathy., Conclusions: Muscle imaging in combination with clinical data may be helpful for separation of distinct myofibrillar myopathy subtypes and in scheduling of genetic analysis.

Published
2008
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29. The first European family with tibial muscular dystrophy outside the Finnish population.

Author

de Seze J, Udd B, Haravuori H, Sablonnière B, Maurage CA, Hurtevent JF, Boutry N, Stojkovic T, Schraen S, Petit H, and Vermersch P

Subjects
Aged, Aged, 80 and over, Electromyography, Female, Finland, Haplotypes, Humans, Male, Middle Aged, Muscular Dystrophies diagnosis, Pedigree, Tibia, Chromosomes, Human, Pair 2, Family Health, Genetic Linkage, Muscular Dystrophies genetics
Abstract

We report the first European tibial muscular dystrophy (TMD) family outside the Finnish population. Clinical examination showed late onset distal leg myopathy similar to the description of TMD. A molecular genetic study was made owing to the very recent TMD linkage findings on chromosome 2q31. All five clinically affected patients segregated a specific haplotype for the locus, whereas two unaffected patients had different haplotype. The results of this family without Finnish ancestors show that TMD exists outside the Finnish population.

Published
1998
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