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Abstract We asked whether myopathology features of immune or inflammatory myopathies (IIM), without reference to clinical or laboratory attributes, correlate with serum autoantibodies. Retrospective study included 148 muscle biopsies with: B-cell inflammatory foci (BIM), myovasculopathy, perimysial pathology (IMPP), myofiber necrosis without perimysial or vessel damage or inflammation (MNec), inflammation and myofiber vacuoles or mitochondrial pathology (IM-VAMP), granulomas, chronic graft-versus-host disease, or none of these criteria. 18 IIM-related serum autoantibodies were tested. Strong associations between myopathology and autoantibodies included: BIM with PM/Scl-100 (63%; odds ratio [OR] = 72); myovasculopathies with TIF1-γ or NXP2 (70%; OR = 72); IMPP with Jo-1 (33%; OR = 28); MNec with SRP54 (23%; OR = 37); IM-VAMP with NT5C1a (95%; OR = 83). Hydroxymethylglutaryl-CoA reductase (HMGCR) antibodies related to presence of myofiber necrosis across all groups (82%; OR = 9), but not to one IIM pathology group. Our results validate characterizations of IIM by myopathology features, showing strong associations with some serum autoantibodies, another objective IIM-related marker. BIM with PM/Scl-100 antibodies can be described pathologically as polymyositis. Tif1-γ and NXP2 antibodies are both common in myovasculopathies. HMGCR antibodies associate with myofiber necrosis, but not one IIM pathology subtype. Relative association strengths of IIM-related autoantibodies to IIM myopathology features versus clinical characteristics require further study.

Mutations in SOD1 cause 13% of familial amyotrophic lateral sclerosis. In the SOD1 Gly93Ala rat model of amyotrophic lateral sclerosis, the antisense oligonucleotide ISIS 333611 delivered to CSF decreased SOD1 mRNA and protein concentrations in spinal cord tissue and prolonged survival. We aimed to assess the safety, tolerability, and pharmacokinetics of ISIS 333611 after intrathecal administration in patients with SOD1-related familial amyotrophic lateral sclerosis. In this randomised, placebo-controlled, phase 1 trial, we delivered ISIS 333611 by intrathecal infusion using an external pump over 11·5 h at increasing doses (0·15 mg, 0·50 mg, 1·50 mg, 3·00 mg) to four cohorts of eight patients with SOD1-positive amyotrophic lateral sclerosis (six patients assigned to ISIS 333611, two to placebo in each cohort). We did the randomisation with a web-based system, assigning patients in blocks of four. Patients and investigators were masked to treatment assignment. Participants were allowed to re-enrol in subsequent cohorts. Our primary objective was to assess the safety and tolerability of ISIS 333611. Assessments were done during infusion and over 28 days after infusion. This study was registered with Clinicaltrials.gov, number NCT01041222. Seven of eight (88%) patients in the placebo group versus 20 of 24 (83%) in the ISIS 333611 group had adverse events. The most common events were post-lumbar puncture syndrome (3/8 [38%] vs 8/24 [33%]), back pain (4/8 [50%] vs 4/24 [17%]), and nausea (0/8 [0%] vs 3/24 [13%]). We recorded no dose-limiting toxic effects or any safety or tolerability concerns related to ISIS 333611. No serious adverse events occurred in patients given ISIS 333611. Re-enrolment and re-treatment were also well tolerated. This trial is the first clinical study of intrathecal delivery of an antisense oligonucleotide. ISIS 333611 was well tolerated when administered as an intrathecal infusion. Antisense oligonucleotides delivered to the CNS might be a feasible treatment for neurological disorders. The ALS Association, Muscular Dystrophy Association, Isis Pharmaceuticals.

We compared features of nerve enlargement in inherited and acquired demyelinating neuropathies using ultrasound. We measured median and ulnar nerve cross-sectional areas in proximal and distal regions in 128 children and adults with inherited [Charcot–Marie–Tooth-1 (CMT-1) ( n  = 35)] and acquired [chronic inflammatory demyelinating polyneuropathy (CIDP) ( n  = 55), Guillaine–Barre syndrome (GBS) ( n  = 21) and multifocal motor neuropathy (MMN) ( n  = 17)] demyelinating neuropathies. We classified nerve enlargement by degree and number of regions affected. We defined patterns of nerve enlargement as: none, no enlargement; mild, nerves enlarged but never more than twice normal; regional, nerves normal in at least one region and enlarged more than twice normal in at least one region; diffuse, nerves enlarged at all four regions with at least one region more than twice normal size. Nerve enlargement was commonly diffuse (89 %) and generally more than twice normal size in CMT-1, but not ( p  < 0.001) in acquired disorders which mostly had either no, mild or regional nerve enlargement [CIDP (64 %), GBS (95 %), and MMN (100 %)]. In CIDP, subjects treated within 3 months of disease onset had less nerve enlargement than those treated later. Ultrasound identified patterns of diffuse nerve enlargement can be used to screen patients suspected of having CMT-1. Normal, mildly, or regionally enlarged nerves in demyelinating polyneuropathy suggests an acquired etiology. Early treatment in CIDP may impede nerve enlargement.

Background Dysferlin (DYSF) has a crucial role in sarcolemmal repair. While DYSF mutations commonly manifest as limb-girdle muscular dystrophy (LGMDR2) or distal Miyoshi myopathy, atypical manifestations, such as asymptomatic hyperCKemia and pseudometabolic myopathy, are rarely reported. We describe clinical, serologic, radiologic, genetic, and muscle pathology findings of three patients with rare dysferlinopathy phenotypes and long-term follow up in one of them. We also review the literature pertinent to uncommon forms of dysferlinopathy presenting with hyperCKemia and pseudometabolic phenotype. Results Patient 1 is a 51-year-old female with exercise-induced myalgia predominantly affecting calf muscles for 7 years. She had a 22-year history of asymptomatic hyperCKemia (CK 812–2,223 U/L). Neurologic exam showed mild calf enlargement without weakness. CT of the lower limb revealed fatty infiltration of distal peroneal and calf muscles. Genetic testing showed two DYSF variants, c.2163-2A > G (pathogenic) and c.866C > G, p.Ser289Cys (VUS), unknown if heteroallelic. Muscle biopsy demonstrated nuclei internalization and absent dysferlin immunoreactivity. Patient 2 is a 20-year-old male, football player, with an episode of exercise-induced myalgia followed by asymptomatic persistent hyperCKemia (729–2,645 U/L). He had normal strength but mild calf muscle atrophy. Muscle MRI demonstrated subtle T2 hyperintensity in the posterior leg compartment musculature. He has two heteroallelic DYSF variants, c.6008G > A, p.Gly2003Asp (pathogenic) and c.854C > T, p.Thr285Met (VUS). Muscle biopsy showed no myopathic changes but reduced dysferlin immunoreactivity. Patient 3 is a 58-year-old female with incidentally detected asymptomatic hyperCKemia (CK: 249–2,096 U/L) for 2 years. She had normal strength and normal lower limb muscle MRI. She carries two heteroallelic DYSF variants, c.2517del, p.Met840Trpfs*108 (pathogenic) and c.6058C > T, p.Arg2020Cys (VUS). Muscle biopsy showed minimal myopathic changes and attenuated dysferlin immunoreactivity. Reduced dysferlin expression was confirmed by western blot in patients 2 and 3. Needle EMG was normal in all patients. Conclusions Dysferlinopathy should be considered in the differential diagnosis of metabolic myopathies and asymptomatic hyperCKemia. Patient 1’s long history of hyperCKemia without weakness over two decades suggests that CK elevation in dysferlinopathy does not necessarily predict development of weakness. Additionally, the lack of dystrophic changes on muscle biopsy of patients with asymptomatic or minimally symptomatic hyperCKemia should not discourage the search for dysferlin deficiency in muscle, particularly in the setting of DYSF variants.

Pompe's disease is caused by a deficiency of acid alpha glucosidase, which degrades lysosomal glycogen. Late-onset Pompe's disease is characterized by progressive muscle weakness and loss of respiratory function, leading to early death. In this randomized, placebo-controlled trial of a recombinant human acid alpha glucosidase, walking distance improved and pulmonary function stabilized over an 18-month period in patients treated with the active drug. Late-onset Pompe's disease is characterized by progressive muscle weakness and loss of respiratory function, leading to early death. In this trial of a recombinant human acid alpha glucosidase, walking distance improved and pulmonary function stabilized over an 18-month period in patients treated with the active drug. Pompe's disease is a rare, autosomal recessive, progressive neuromuscular disease caused by a deficiency of acid α-glucosidase (GAA), which degrades lysosomal glycogen. In patients with the classic infantile form, the deposition of glycogen in the heart, skeletal, and respiratory muscles causes severe cardiomyopathy, hypotonia, and respiratory failure, typically leading to death within the first year of life. 1 – 5 Children and adults, in contrast, have variable rates of disease progression. Glycogen deposition is confined mainly to skeletal and respiratory muscles, causing progressive limb-girdle myopathy and respiratory insufficiency. 1 , 5 – 9 Respiratory failure is a major cause of death. 7 , 10 , 11 No disease-specific . . .

Abstract Myopathies during chronic graft-versus-host disease (cGvHD) are syndromes for which tissue targets and mechanisms of muscle damage remain incompletely defined. This study reviewed, and pathologically analyzed, 14 cGvHD myopathies, comparing myopathology to other immune myopathies. Clinical features in cGvHD myopathy included symmetric, proximal weakness, associated skin, gastrointestinal and lung disorders, a high serum aldolase (77%), and a 38% 2-year survival. Muscle showed noninflammatory pathology involving all 3 tissue components. Perimysial connective tissue had damaged structure and histiocytic cells. Vessel pathology included capillary loss, and reduced α-l-fucosyl and chondroitin sulfate moieties on endothelial cells. Muscle fibers often had surface pathology. Posttranslational glycosylation moieties on α-dystroglycan had reduced staining and abnormal distribution in 86%. Chondroitin-SO4 was reduced in 50%, a subgroup with 3-fold longer times from transplant to myopathy, and more distal weakness. cGvHD myopathies have noninflammatory pathology involving all 3 tissue components in muscle, connective tissue, small vessels, and myofibers. Abnormal cell surface glycosylation moieties are common in cGvHD myopathies, distinguishing them from other immune myopathies. This is the first report of molecular classes that may be immune targets in cGvHD. Disordered cell surface glycosylation moieties could produce disease-related tissue and cell damage, and be biomarkers for cGvHD features and activity.

ImportanceUnderstanding the natural history of familial amyotrophic lateral sclerosis (ALS) caused by SOD1 mutations (ALSSOD1) will provide key information for optimising clinical trials in this patient population.ObjectiveTo establish an updated natural history of ALSSOD1.Design, setting and participantsRetrospective cohort study from 15 medical centres in North America evaluated records from 175 patients with ALS with genetically confirmed SOD1 mutations, cared for after the year 2000.Main outcomes and measuresAge of onset, survival, ALS Functional Rating Scale (ALS-FRS) scores and respiratory function were analysed. Patients with the A4V (Ala-Val) SOD1 mutation (SOD1A4V), the largest mutation population in North America with an aggressive disease progression, were distinguished from other SOD1 mutation patients (SOD1non-A4V) for analysis.ResultsMean age of disease onset was 49.7±12.3 years (mean±SD) for all SOD1 patients, with no statistical significance between SOD1A4V and SOD1non-A4V (p=0.72, Kruskal-Wallis). Total SOD1 patient median survival was 2.7 years. Mean disease duration for all SOD1 was 4.6±6.0 and 1.4±0.7 years for SOD1A4V. SOD1A4V survival probability (median survival 1.2 years) was significantly decreased compared with SOD1non-A4V (median survival 6.8 years; p<0.0001, log-rank). A statistically significant increase in ALS-FRS decline in SOD1A4V compared with SOD1non-A4V participants (p=0.02) was observed, as well as a statistically significant increase in ALS-forced vital capacity decline in SOD1A4V compared with SOD1non-A4V (p=0.02).Conclusions and relevanceSOD1A4V is an aggressive, but relatively homogeneous form of ALS. These SOD1-specific ALS natural history data will be important for the design and implementation of clinical trials in the ALSSOD1 patient population.

Analysis of Dystrophin Deletion Mutations Predicts Age of Cardiomyopathy Onset in Becker Muscular Dystrophy Rita Wen Kaspar, PhD, RN ; Hugh D. Allen, MD ; Will C. Ray, PhD ; Carlos E. Alvarez, PhD ; John T. Kissel, MD ; Alan Pestronk, MD ; Robert B. Weiss, PhD ; Kevin M. Flanigan, MD ; Jerry R. Mendell, MD and Federica Montanaro, PhD From the Center for Gene Therapy (R.W.K., J.R.M., F.M.), The Research Institute at Nationwide Children’s Hospital; College of Nursing (R.W.K.), The Ohio State University; Division of Pediatric Cardiology (H.D.A.), The Ohio State University College of Medicine, Nationwide Children’s Hospital, Heart Center; Battelle Center for Mathematical Medicine (W.C.R.), The Research Institute at Nationwide Children’s Hospital; Biophysics Graduate Program (W.C.R.), The Ohio State University; Center for Molecular and Human Genetics (C.E.A.), The Research Institute at Nationwide Children’s Hospital; Departments of Pediatrics (C.E.A., J.R.M., F.M.) and Neurology (J.T.K., J.R.M.), The Ohio State University College of Medicine, Columbus, Ohio; Department of Neurology (A.P.), Washington University, St. Louis, Mo; and Departments of Genetics (R.B.W.) and Pediatrics (K.M.F.), University of Utah School of Medicine, Salt Lake City, Utah. Correspondence to Federica Montanaro, PhD, The Research Institute at Nationwide Children’s Hospital, Center for Gene Therapy, 700 Children’s Drive, WA3020, Columbus, OH 43205. E-mail montanaf{at}pediatrics.ohio-state.edu Received March 25, 2009; accepted September 21, 2009. Background— Becker muscular dystrophy (BMD) and X-linked dilated cardiomyopathy often result from deletion mutations in the dystrophin gene that may lead to expression of an altered dystrophin protein in cardiac muscle. Cardiac involvement is present in 70% of BMD and all X-linked dilated cardiomyopathy cases. To date, the timing of cardiomyopathy development remains unpredictable. We analyzed 78 BMD and X-linked dilated cardiomyopathy patients with common deletion mutations predicted to alter the dystrophin protein and correlated their mutations to cardiomyopathy age of onset. This approach was chosen to connect dystrophin structure with function in the heart. Methods and Results— Detailed cardiac information was collected for BMD and X-linked dilated cardiomyopathy patients with defined dystrophin gene deletion mutations. Patients were grouped based on the dystrophin protein domain affected by the deletion. Deletions affecting the amino-terminal domain are associated with early-onset dilated cardiomyopathy (DCM; mid-20s), whereas deletions removing part of the rod domain and hinge 3 have a later-onset DCM (mid-40s). Further, we modeled the effects of the most common mutations occurring in the rod domain on the overall structure of the dystrophin protein. By combining genetic and protein information, this analysis revealed a strong correlation between specific protein structural modifications and DCM age of onset. Conclusions— We identified specific regions of the dystrophin gene that when mutated predispose BMD patients to early-onset DCM. In addition, we propose that some mutations lead to early-onset DCM by specific alterations in protein folding. These findings have potential implications for early intervention in the cardiac care of BMD patients and for therapeutic approaches that target the heart in dystrophinopathies. Key Words: cardiomyopathy • genetics • risk factors • muscular dystrophy • dystrophin   CLINICAL PERSPECTIVE The online-only Data Supplement is available at http://circgenetics.ahajournals.org/cgi/content/full/CIRCGENETICS.109.867242. Home | Subscriptions | Archives | Feedback | Authors | Help | Circulation Journals Home | AHA Journals Home | Search Copyright © 2009 American Heart Association, Inc. All rights reserved. Unauthorized use prohibited. var _rsCI=\"us-lippincott\"; var _rsCG=\"0\"; var _rsDN=\"//secure-us.imrworldwide.com/\"; var _rsSE=1; var _rsSM=1.0;

CLN3 disease is a neuronopathic lysosomal storage disorder that severely impacts the central nervous system (CNS) while also inducing notable peripheral neuromuscular symptoms. Although considerable attention has been directed towards the neurodegenerative consequences within the CNS, the involvement of peripheral tissues, including skeletal muscles and their innervation, has been largely neglected. We hypothesized that, CLN3 deficiency could directly influence peripheral nerves and investigated the neuromuscular system in Cln3 Δex7/8 mice. Our study found no overt loss of sciatic nerve axons or demyelination in 18-month-old Cln3 Δex7/8 mice at disease endstage, but a marked reduction of terminal Schwann cells (tSCs) at lower limb neuromuscular junctions (NMJs), culminating in progressive denervation of these NMJs which appeared abnormal. This led us to investigate skeletal muscle where we found significant myofiber atrophy and decreased and misplaced myofibril nuclei. Similar myopathic alterations were present in a muscle biopsy from an 8-year-old human CLN3 patient shortly after diagnosis. To assess a potential therapeutic intervention, we administered intravenous gene therapy using AAV9.hCLN3 to neonatal Cln3 Δex7/8 mice, which at disease endstage, entirely prevented tSC loss and NMJ abnormalities, while also averting skeletal muscle atrophy. These findings underscore the underappreciated, yet substantial effects of CLN3 disease beyond the CNS, highlighting peripheral neuromuscular pathologies as novel features of this disorder. Our findings also indicate that these manifestations could be amenable to treatment via gene therapy, opening new therapeutic strategies in the management of CLN3 disease.

Background Limb–girdle muscular dystrophy (MD) type R2 (LGMDR2, formerly LGMD2B) is an autosomal recessive form of MD caused by variants in the dysferlin gene, DYSF. It leads to slow proximal and distal muscle weakening that generally results in loss of ambulation around early adulthood but without the lethal cardiorespiratory dysfunction observed in the more severe Duchenne MD. How loss of dysferlin causes muscle fibre death is poorly understood, but recent evidence suggests a link between muscle wasting and loss of muscle cholesterol homeostasis with circulating lipoprotein abnormalities in many forms of MD. Methods Cross‐sectional circulating total cholesterol (CHOL), high‐density lipoprotein‐associated cholesterol (HDL‐C), non‐HDL‐C, creatine kinase (CK), transaminase levels and bilirubin were collected as part of the Jain Clinical Outcomes Study of Dysferlinopathy, a large multicentre LGMDR2 patient cohort (N = 188), along with ambulatory function values. Results We report that 43%, 49% and 50% of male patients were found to have abnormal circulating CHOL, HDL‐C and non‐HDL‐C levels, respectively, whereas in female patients 39%, 37% and 30% of values were in the abnormal range. Overall, 68% of the total cohort had at least one abnormal cholesterol value (78% of males and 60% of females) and 89% of male CHOL/HDL‐C ratios were in the suboptimal range (above 3.5). Although most patients were ambulant, the severity of circulating lipid abnormalities did not correlate with early loss of ambulation. Transaminase levels were lower in late‐stage LGMDR2 samples, whereas bilirubin remained unchanged, suggesting a low muscular mass rather than hepatic origin and the absence of major liver damage. Conclusions Data from the largest natural history cohort of LGMDR2 patients support the concept that dyslipidemia is a comorbidity of LGMDR2, and the causal role of cholesterol abnormalities in muscle death should be further investigated.