Your search keyword '"Edoardo Malfatti"' showing total 164 results

1. Inferring disease course from differential exon usage in the wide titinopathy spectrum

Author

Maria Francesca Di Feo, Ali Oghabian, Ella Nippala, Mathias Gautel, Heinz Jungbluth, Francesca Forzano, Edoardo Malfatti, Claudia Castiglioni, Ilona Krey, David Gomez Andres, Angela F. Brady, Maria Iascone, Anna Cereda, Lidia Pezzani, Daniel Natera De Benito, Andres Nascimiento Osorio, Berta Estévez Arias, Sergei A. Kurbatov, Tania Attie‐Bitach, Sheela Nampoothiri, Erin Ryan, Michelle Morrow, Svetlana Gorokhova, Brigitte Chabrol, Juha Sinisalo, Heli Tolppanen, Johanna Tolva, Francina Munell, Jessica Camacho Soriano, Maria Angeles Sanchez Duran, Mridul Johari, Homa Tajsharghi, Peter Hackman, Bjarne Udd, and Marco Savarese

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Objective Biallelic titin truncating variants (TTNtv) have been associated with a wide phenotypic spectrum, ranging from complex prenatal muscle diseases with dysmorphic features to adult‐onset limb‐girdle muscular dystrophy, with or without cardiac involvement. Given the size and complexity of TTN, reaching an unequivocal molecular diagnosis and precise disease prognosis remains challenging. Methods In this case series, 12 unpublished cases and one already published case with biallelic TTNtv were collected from multiple international medical centers between November 2022 and September 2023. TTN mutations were detected through exome or genome sequencing. Information about familial and personal clinical history was collected in a standardized form. RNA‐sequencing and analysis of TTN exon usage were performed on an internal sample cohort including postnatal skeletal muscles, fetal skeletal muscles, postnatal heart muscles, and fetal heart muscles. In addition, publicly available RNA‐sequencing data was retrieved from ENCODE. Results We generated new RNA‐seq data on TTN exons and identified genotype–phenotype correlations with prognostic implications for each titinopathy patient (whether worsening or improving in prenatal and postnatal life) using percentage spliced in (PSI) data for the involved exons. Interestingly, thanks to exon usage, we were also able to rule out a titinopathy diagnosis in one prenatal case. Interpretation This study demonstrates that exon usage provides valuable insights for a more exhaustive clinical interpretation of TTNtv; additionally, it may serve as a model for implementing personalized medicine in many other genetic diseases, since most genes undergo alternative splicing.

Published

2024

2. Generation of iPSC lines from three Laing distal myopathy patients with a recurrent MYH7 p.Lys1617del variant

Author

Joshua S. Clayton, Christina Vo, Jordan Crane, Carolin K. Scriba, Safaa Saker, Thierry Larmonier, Edoardo Malfatti, Norma B. Romero, Gianina Ravenscroft, Nigel G. Laing, and Rhonda L. Taylor

Subjects

Biology (General), QH301-705.5

Abstract

Variants in MYH7 cause cardiomyopathies as well as myosin storage myopathy and Laing early-onset distal myopathy (MPD1). MPD1 is characterized by muscle weakness and atrophy usually beginning in the lower legs. Here, we generated iPSC lines from lymphoblastoid cells of three unrelated individuals heterozygous for the most common MPD1-causing variant; p.Lys1617del. iPSC lines showed typical morphology, expressed pluripotency markers, demonstrated trilineage differentiation potential, and had a normal karyotype. These lines represent the first iPSCs derived from MPD1 patients and complement existing MPD1 animal models. They can provide in vitro platforms to better understand and model MPD1 pathomechanisms and test therapies.

Published

2024

3. Generation of two iPSC lines from adult central core disease patients with dominant missense variants in the RYR1 gene

Author

Joshua S. Clayton, Christina Vo, Jordan Crane, Carolin K. Scriba, Safaa Saker, Thierry Larmonier, Edoardo Malfatti, Norma B. Romero, Gianina Ravenscroft, Nigel G. Laing, and Rhonda L. Taylor

Subjects

Biology (General), QH301-705.5

Abstract

RYR1 variants are a common cause of congenital myopathies, including multi-minicore disease (MmD) and central core disease (CCD). Here, we generated iPSC lines from two CCD patients with dominant RYR1 missense variants that affect the transmembrane (pore) and SPRY3 protein domains (p.His4813Tyr and p.Asn1346Lys, respectively). Both lines had typical iPSC morphology, expressed canonical pluripotency markers, exhibited trilineage differentiation potential, and had normal karyotypes. Together with existing RYR1 iPSC lines, these represent important tools to study and develop treatments for RYR1-related myopathies.

Published

2024

4. Generation of two iPSC lines from patients with inherited central core disease and concurrent malignant hyperthermia caused by dominant missense variants in the RYR1 gene

Author

Joshua S. Clayton, Christina Vo, Jordan Crane, Carolin K. Scriba, Safaa Saker, Thierry Larmonier, Edoardo Malfatti, Norma B. Romero, Gianina Ravenscroft, Nigel G. Laing, and Rhonda L. Taylor

Subjects

Biology (General), QH301-705.5

Abstract

RYR1 variants are the most common genetic cause of congenital myopathies, and typically cause central core disease (CCD) and/or malignant hyperthermia (MH). Here, we generated iPSC lines from two patients with CCD and MH caused by dominant RYR1 variants within the central region of the protein (p.Val2168Met and p.Arg2508Cys). Both lines displayed typical iPSC morphology, uniform expression of pluripotency markers, trilineage differentiation potential, and had normal karyotypes. These are the first RYR1 iPSC lines from patients with both CCD and MH. As these are common CCD/MH variants, these lines should be useful to study these conditions and test therapeutics.

Published

2024

5. Multidisciplinary team meetings in treatment of spinal muscular atrophy adult patients: a real-life observatory for innovative treatments

Author

Emmanuelle Salort-Campana, Guilhem Solé, Armelle Magot, Céline Tard, Jean-Baptiste Noury, Anthony Behin, Elisa De La Cruz, François Boyer, Claire Lefeuvre, Marion Masingue, Louise Debergé, Armelle Finet, Mélanie Brison, Marco Spinazzi, Antoine Pegat, Sabrina Sacconi, Edoardo Malfatti, Ariane Choumert, Rémi Bellance, Anne-Laure Bedat-Millet, Léonard Feasson, Carole Vuillerot, Agnès Jacquin-Piques, Maud Michaud, Yann Pereon, Tanya Stojkovic, Pascal Laforêt, Shahram Attarian, and Pascal Cintas

Subjects

Spinal muscular atrophy, SMA, Multidisciplinary team meeting, Clinical decision-making, Treatment, Medicine

Abstract

Abstract Background In 2017, a new treatment by nusinersen, an antisense oligonucleotide delivered by repeated intrathecal injections, became available for patients with spinal muscular atrophy (SMA), whereas clinical trials had mainly involved children. Since 2020, the oral, selective SMN2-splicing modifier risdiplam has been available with restrictions evolving with time. In this peculiar context of lack of data regarding adult patients, many questions were raised to define the indications of treatment and the appropriate follow-up in this population. To homogenize access to treatment in France, a national multidisciplinary team meeting dedicated to adult SMA patients, named SMA multidisciplinary team meeting, (SMDTs) was created in 2018. Our objective was to analyze the value of SMDTs in the decision-making process in SMA adult patients and to provide guidelines about treatment. Methods From October 2020 to September 2021, data extracted from the SMDT reports were collected. The primary outcome was the percentage of cases in which recommendations on validating treatment plans were given. The secondary outcomes were type of treatment requested, description of expectations regarding treatment and description of recommendations or follow-up and discontinuation. Data were analyzed using descriptive statistics. Comparisons between the type of treatment requested were performed using Mann–Whitney test or the Student t test for quantitative data and the Fisher’s exact test or the χ2 test for qualitative data. Results Cases of 107 patients were discussed at the SMDTs with a mean age of 35.3 (16–62). Forty-seven were SMA type 2, and 57 SMA type 3. Twelve cases were presented twice. Out of 122 presentations to the SMDTs, most of requests related to the initiation of a treatment (nusinersen (n = 46), risdiplam (n = 54), treatment without mentioning preferred choice (n = 5)) or a switch of treatment (n = 12). Risdiplam requests concerned significantly older patients (p = 0.002), mostly SMA type 2 (p

Published

2024

6. Myopathologic trajectory in Duchenne muscular dystrophy (DMD) reveals lack of regeneration due to senescence in satellite cells

Author

Nastasia Cardone, Valentina Taglietti, Serena Baratto, Kaouthar Kefi, Baptiste Periou, Ciryl Gitiaux, Christine Barnerias, Peggy Lafuste, France Leturcq Pharm, Juliette Nectoux Pharm, Chiara Panicucci, Isabelle Desguerre, Claudio Bruno, François-Jerome Authier, Chiara Fiorillo, Frederic Relaix, and Edoardo Malfatti

Subjects

Duchenne muscular dystrophy, Fibrosis, FAPs, Muscle regeneration, Cellular senescence, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Duchenne muscular dystrophy (DMD) is a devastating X-linked muscular disease, caused by mutations in the DMD gene encoding Dystrophin and affecting 1:5000 boys worldwide. Lack of Dystrophin leads to progressive muscle wasting and degeneration resulting in cardiorespiratory failure. Despite the absence of a definitive cure, innovative therapeutic avenues are emerging. Myopathologic studies are important to further understand the biological mechanisms of the disease and to identify histopathologic benchmarks for clinical evaluations. We conducted a myopathologic analysis on twenty-four muscle biopsies from DMD patients, with particular emphasis on regeneration, fibro-adipogenic progenitors and muscle stem cells behavior. We describe an increase in content of fibro-adipogenic progenitors, central orchestrators of fibrotic progression and lipid deposition, concurrently with a decline in muscle regenerative capacity. This regenerative impairment strongly correlates with compromised activation and expansion of muscle stem cells. Furthermore, our study uncovers an early acquisition of a senescence phenotype by DMD-afflicted muscle stem cells. Here we describe the myopathologic trajectory intrinsic to DMD and establish muscle stem cell senescence as a pivotal readout for future therapeutic interventions.

Published

2023

7. The Autophagic Activator GHF-201 Can Alleviate Pathology in a Mouse Model and in Patient Fibroblasts of Type III Glycogenosis

Author

Kumudesh Mishra, Sahar Sweetat, Saja Baraghithy, Uri Sprecher, Monzer Marisat, Sultan Bastu, Hava Glickstein, Joseph Tam, Hanna Rosenmann, Miguel Weil, Edoardo Malfatti, and Or Kakhlon

Subjects

glycogen, glycogen storage disease type III, pharmacotherapy, Microbiology, QR1-502

Abstract

Glycogen storage disease type III (GSDIII) is a hereditary glycogenosis caused by deficiency of the glycogen debranching enzyme (GDE), an enzyme, encoded by Agl, enabling glycogen degradation by catalyzing alpha-1,4-oligosaccharide side chain transfer and alpha-1,6-glucose cleavage. GDE deficiency causes accumulation of phosphorylase-limited dextrin, leading to liver disorder followed by fatal myopathy. Here, we tested the capacity of the new autophagosomal activator GHF-201 to alleviate disease burden by clearing pathogenic glycogen surcharge in the GSDIII mouse model Agl−/−. We used open field, grip strength, and rotarod tests for evaluating GHF-201’s effects on locomotion, a biochemistry panel to quantify hematological biomarkers, indirect calorimetry to quantify in vivo metabolism, transmission electron microscopy to quantify glycogen in muscle, and fibroblast image analysis to determine cellular features affected by GHF-201. GHF-201 was able to improve all locomotion parameters and partially reversed hypoglycemia, hyperlipidemia and liver and muscle malfunction in Agl−/− mice. Treated mice burnt carbohydrates more efficiently and showed significant improvement of aberrant ultrastructural muscle features. In GSDIII patient fibroblasts, GHF-201 restored mitochondrial membrane polarization and corrected lysosomal swelling. In conclusion, GHF-201 is a viable candidate for treating GSDIII as it recovered a wide range of its pathologies in vivo, in vitro, and ex vivo.

Published

2024

8. Generation of two induced pluripotent stem cell lines from a 33-year-old central core disease patient with a heterozygous dominant c.14145_14156delCTACTGGGACA (p.Asn4715_Asp4718del) deletion in the RYR1 gene

Author

Karrison Driver, Christina Vo, Carolin K. Scriba, Safaa Saker, Thierry Larmonier, Edoardo Malfatti, Norma B. Romero, Gianina Ravenscroft, Nigel G. Laing, Rhonda L. Taylor, and Joshua S. Clayton

Subjects

Biology (General), QH301-705.5

Abstract

Central core disease (CCD) is a congenital disorder that results in hypotonia, delayed motor development, and areas of reduced oxidative activity in the muscle fibre. Two induced pluripotent stem cell (iPSC) lines were generated from the lymphoblastoid cells of a 33-year-old male with CCD, caused by a previously unreported dominant c.14145_14156delCTACTGGGACA (p.Asn4715_Asp4718del) deletion in the RYR1 gene. Both lines demonstrated typical morphology, pluripotency, trilineage differentiation, and had a normal karyotype. As the first published iPSC model of CCD caused by an RYR1 variant these lines are a potential resource for further investigation of RYR1-related myopathies in a human context.

Published

2023

9. Clinical and functional characterization of a long survivor congenital titinopathy patient with a novel metatranscript-only titin variant

Author

Nastasia Cardone, Melissa Moula, Rianne J. Baelde, Ariane Biquand, Marcello Villanova, Corinne Metay, Chiara Fiorillo, Serena Baratto, Luciano Merlini, Patrizia Sabatelli, Norma B. Romero, Frederic Relaix, François Jérôme Authier, Valentina Taglietti, Marco Savarese, Josine de Winter, Coen Ottenheijm, Isabelle Richard, and Edoardo Malfatti

Subjects

Congenital myopathy, Titin, Titinopathy, Rigid spine, Metatranscript, N2A titin isoform, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Congenital titinopathies are an emerging group of a potentially severe form of congenital myopathies caused by biallelic mutations in titin, encoding the largest existing human protein involved in the formation and stability of sarcomeres. In this study we describe a patient with a congenital myopathy characterized by multiple contractures, a rigid spine, non progressive muscular weakness, and a novel homozygous TTN pathogenic variant in a metatranscript-only exon: the c.36400A > T, p.Lys12134*. Muscle biopsies showed increased internalized nuclei, variability in fiber size, mild fibrosis, type 1 fiber predominance, and a slight increase in the number of satellite cells. RNA studies revealed the retention of intron 170 and 171 in the open reading frame, and immunoflourescence and western blot studies, a normal titin content. Single fiber functional studies showed a slight decrease in absolute maximal force and a cross-sectional area with no decreases in tension, suggesting that weakness is not sarcomere-based but due to hypotrophy. Passive properties of single fibers were not affected, but the observed increased calcium sensitivity of force generation might contribute to the contractural phenotype and rigid spine of the patient. Our findings provide evidence for a pathogenic, causative role of a metatranscript-only titin variant in a long survivor congenital titinopathy patient with distal arthrogryposis and rigid spine.

Published

2023

10. Human skeletal myopathy myosin mutations disrupt myosin head sequestration

Author

Glenn Carrington, Abbi Hau, Sarah Kosta, Hannah F. Dugdale, Francesco Muntoni, Adele D’Amico, Peter Van den Bergh, Norma B. Romero, Edoardo Malfatti, Juan Jesus Vilchez, Anders Oldfors, Sander Pajusalu, Katrin Õunap, Marta Giralt-Pujol, Edmar Zanoteli, Kenneth S. Campbell, Hiroyuki Iwamoto, Michelle Peckham, and Julien Ochala

Subjects

Muscle biology, Medicine

Abstract

Myosin heavy chains encoded by MYH7 and MYH2 are abundant in human skeletal muscle and important for muscle contraction. However, it is unclear how mutations in these genes disrupt myosin structure and function leading to skeletal muscle myopathies termed myosinopathies. Here, we used multiple approaches to analyze the effects of common MYH7 and MYH2 mutations in the light meromyosin (LMM) region of myosin. Analyses of expressed and purified MYH7 and MYH2 LMM mutant proteins combined with in silico modeling showed that myosin coiled coil structure and packing of filaments in vitro are commonly disrupted. Using muscle biopsies from patients and fluorescent ATP analog chase protocols to estimate the proportion of myosin heads that were super-relaxed, together with x-ray diffraction measurements to estimate myosin head order, we found that basal myosin ATP consumption was increased and the myosin super-relaxed state was decreased in vivo. In addition, myofiber mechanics experiments to investigate contractile function showed that myofiber contractility was not affected. These findings indicate that the structural remodeling associated with LMM mutations induces a pathogenic state in which formation of shutdown heads is impaired, thus increasing myosin head ATP demand in the filaments, rather than affecting contractility. These key findings will help design future therapies for myosinopathies.

Published

2023

11. The FLNC Ala1186Val Variant Linked to Cytoplasmic Body Myopathy and Cardiomyopathy Causes Protein Instability

Author

Marion Onnée, Audrey Bénézit, Sultan Bastu, Aleksandra Nadaj-Pakleza, Béatrice Lannes, Flavie Ader, Corinne Thèze, Pascal Cintas, Claude Cances, Robert-Yves Carlier, Corinne Metay, Mireille Cossée, and Edoardo Malfatti

Subjects

cardiomyopathy, myopathy, FLNC, mutation, Biology (General), QH301-705.5

Abstract

Filamin C-related disorders include myopathies and cardiomyopathies linked to variants in the FLNC gene. Filamin C belongs to a family of actin-binding proteins involved in sarcomere stability. This study investigates the pathogenic impact of the FLNC c.3557C > T (p.Ala1186Val) pathogenic variant associated with an early-onset cytoplasmic body myopathy and cardiomyopathy in three unrelated patients. We performed clinical imaging and myopathologic and genetic characterization of three patients with an early-onset myopathy and cardiomyopathy. Bioinformatics analysis, variant interpretation, and protein structure analysis were performed to validate and assess the effects of the filamin C variant. All patients presented with a homogeneous clinical phenotype marked by a severe contractural myopathy, leading to loss of gait. There was prominent respiratory involvement and restrictive or hypertrophic cardiomyopathies. The Ala1186Val variant is located in the interstrand loop involved in intradomain stabilization and/or interdomain interactions with neighbor Ig-like domains. 3D modeling highlights local structural changes involving nearby residues and probably impacts the protein stability, causing protein aggregation in the form of cytoplasmic bodies. Myopathologic studies have disclosed the prominent aggregation and upregulation of the aggrephagy-associated proteins LC3B and p62. As a whole, the Ala1186Val variant in the FLNC gene provokes a severe myopathy with contractures, respiratory involvement, and cardiomyopathy due to protein aggregation in patients’ muscles.

Published

2024

12. Duchenne muscular dystrophy trajectory in R-DMDdel52 preclinical rat model identifies COMP as biomarker of fibrosis

Author

Valentina Taglietti, Kaouthar Kefi, Iwona Bronisz-Budzyńska, Busra Mirciloglu, Mathilde Rodrigues, Nastasia Cardone, Fanny Coulpier, Baptiste Periou, Christel Gentil, Melissa Goddard, François-Jérôme Authier, France Pietri-Rouxel, Edoardo Malfatti, Peggy Lafuste, Laurent Tiret, and Frederic Relaix

Subjects

Duchenne muscular dystrophy, Skeletal muscle, Preclinical modelling, Translational medicine, Long QT, scRNAseq, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Duchenne muscular dystrophy (DMD) is a fatal muscle-wasting disorder caused by mutations in the Dystrophin gene and for which there is currently no cure. To bridge the gap between preclinical and therapeutic evaluation studies, we have generated a rat model for DMD that carries an exon 52 deletion (R-DMDdel52) causing a complete lack of dystrophin protein. Here we show that R-DMDdel52 animals recapitulated human DMD pathophysiological trajectory more faithfully than the mdx mouse model. We report that R-DMDdel52 rats displayed progressive and severe skeletal muscle loss associated with fibrotic deposition, fat infiltration and fibre type switch. Early fibrosis was also apparent in the cardiac muscle. These histological modifications led to severe muscle, respiratory and cardiac functional impairments leading to premature death around 1 year. Moreover, DMD muscle exhibited systemic inflammation with a mixed M1/M2 phenotype. A comparative single cell RNAseq analysis of the diaphragm muscle was performed, revealing cellular populations alteration and molecular modifications in all muscle cell types. We show that DMD fibroadipogenic progenitors produced elevated levels of cartilage oligomeric matrix protein, a glycoprotein responsible for modulating homeostasis of extracellular matrix, and whose increased concentration correlated with muscle fibrosis both in R-DMDdel52 rats and human patients. Fibrosis is a component of tissue remodelling impacting the whole musculature of DMD patients, at the tissue level but most importantly at the functional level. We therefore propose that this specific biomarker can optimize the prognostic monitoring of functional improvement of patients included in clinical trials.

Published

2022

13. Deep Characterization of a Greek Patient with Desmin-Related Myofibrillar Myopathy and Cardiomyopathy

Author

Constantinos Papadopoulos, Edoardo Malfatti, Corinne Métay, Boris Keren, Elodie Lejeune, Julien Buratti, Sophia Xirou, Margarita Chrysanthou-Piterou, and George K. Papadimas

Subjects

desmin, myofibrillar myopathy, cardiomyopathy, ribonucleic acid sequencing, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Desmin is a class III intermediate filament protein highly expressed in cardiac, smooth and striated muscle. Autosomal dominant or recessive mutations in the desmin gene (DES) result in a variety of diseases, including cardiomyopathies and myofibrillar myopathy, collectively called desminopathies. Here we describe the clinical, histological and radiological features of a Greek patient with a myofibrillar myopathy and cardiomyopathy linked to the c.734A>G,p.(Glu245Gly) heterozygous variant in the DES gene. Moreover, through ribonucleic acid sequencing analysis in skeletal muscle we show that this variant provokes a defect in exon 3 splicing and thus should be considered clearly pathogenic.

Published

2023

14. Editorial: Myopathology of inherited myopathies

Author

Chiara Fiorillo, Edoardo Malfatti, and Giovanni Meola

Subjects

muscle biopsy, NGS, congenital myopathies, floppy infant, TNPO3, RYR1, Neurology. Diseases of the nervous system, RC346-429

Published

2022

15. Generation of an induced pluripotent stem cell line from a 3-month-old nemaline myopathy patient with a heterozygous dominant c.515C > A (p.Ala172Glu) variant in the ACTA1 gene

Author

Joshua S. Clayton, Isabella Suleski, Christina Vo, Robert Smith, Carolin K. Scriba, Safaa Saker, Thierry Larmonier, Edoardo Malfatti, Norma B. Romero, Peter J. Houweling, Kristen J. Nowak, Gianina Ravenscroft, Nigel G. Laing, and Rhonda L. Taylor

Subjects

Biology (General), QH301-705.5

Abstract

Variants in the ACTA1 gene are a common cause of nemaline myopathy (NM); a muscle disease that typically presents at birth or early childhood with hypotonia and muscle weakness. Here, we generated an induced pluripotent stem cell line (iPSC) from lymphoblastoid cells of a 3-month-old female patient with intermediate NM caused by a dominant ACTA1 variant (c.515C > A (p.Ala172Glu)). iPSCs showed typical morphology, expressed pluripotency markers, demonstrated trilineage differentiation potential, and had a normal karyotype. This line complements our previously published ACTA1 iPSC lines derived from patients with typical and severe NM.

Published

2022

16. Generation of two isogenic induced pluripotent stem cell lines from a 1-month-old nemaline myopathy patient harbouring a homozygous recessive c.121C > T (p.Arg39Ter) variant in the ACTA1 gene

Author

Isabella S. Suleski, Robert Smith, Christina Vo, Carolin K. Scriba, Safaa Saker, Thierry Larmonier, Edoardo Malfatti, Norma B. Romero, Peter J. Houweling, Kristen J. Nowak, Nigel G. Laing, Rhonda L. Taylor, and Joshua S. Clayton

Subjects

Biology (General), QH301-705.5

Abstract

Nemaline myopathy (NM) is a congenital skeletal muscle disorder that typically results in muscle weakness and the presence of rod-like structures (nemaline bodies) in the sarcoplasma and/or in the nuclei of myofibres. Two induced pluripotent stem cell (iPSC) lines were generated from the lymphoblastoid cells of a 1-month-old male with severe NM caused by a homozygous recessive mutation in the ACTA1 gene (c.121C > T, p.Arg39Ter). The iPSC lines demonstrated typical morphology, expressed pluripotency markers, exhibited trilineage differentiation potential and displayed a normal karyotype. These isogenic lines represent a potential resource to investigate and model recessive ACTA1 disease in a human context.

Published

2022

17. Case Report: A Novel AChR Epsilon Variant Causing a Clinically Discordant Salbutamol Responsive Congenital Myasthenic Syndrome in Two Egyptian Siblings

Author

Marta Gómez-García de la Banda, Emmanuel Simental-Aldaba, Nagia Fahmy, Damien Sternberg, Patricia Blondy, Susana Quijano-Roy, and Edoardo Malfatti

Subjects

congenital myasthenic syndrome, CHRNE, neuromuscular junction, β2 adrenergic agonists, salbutamol, Neurology. Diseases of the nervous system, RC346-429

Abstract

Congenital myasthenic syndromes (CMS) are inherited disorders that lead to abnormal neuromuscular transmission. Post-synaptic mutations are the main cause of CMS, particularly mutations in CHRNE. We report a novel homozygous CHRNE pathogenic variant in two Egyptian siblings showing a CMS. Interestingly, they showed different degrees of extraocular and skeletal muscle involvement; both presented only a partial response to cholinesterase inhibitors, and rapidly and substantially ameliorated after the addition of oral β2 adrenergic agonists. Here, we enlarge the genetic spectrum of CHRNE-related congenital myasthenic syndromes and highlight the importance of a β2 adrenergic agonists treatment.

Published

2022

18. A new congenital multicore titinopathy associated with fast myosin heavy chain deficiency

Author

Aurélien Perrin, Corinne Metay, Marcello Villanova, Robert‐Yves Carlier, Elena Pegoraro, Raul Juntas Morales, Tanya Stojkovic, Isabelle Richard, Pascale Richard, Norma B. Romero, Henk Granzier, Michel Koenig, Edoardo Malfatti, and Mireille Cossée

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Congenital titinopathies are myopathies with variable phenotypes and inheritance modes. Here, we fully characterized, using an integrated approach (deep phenotyping, muscle morphology, mRNA and protein evaluation in muscle biopsies), two siblings with congenital multicore myopathy harboring three TTN variants predicted to affect titin stability and titin‐myosin interactions. Muscle biopsies showed multicores, type 1 fiber uniformity and sarcomeric structure disruption with some thick filament loss. Immunohistochemistry and Western blotting revealed a marked reduction of fast myosin heavy chain isoforms. This is the first observation of a titinopathy suggesting that titin defect leads to secondary loss of fast myosin heavy chain isoforms.

Published

2020

19. Human muscle-derived CLEC14A-positive cells regenerate muscle independent of PAX7

Author

Andreas Marg, Helena Escobar, Nikos Karaiskos, Stefanie A. Grunwald, Eric Metzler, Janine Kieshauer, Sascha Sauer, Diana Pasemann, Edoardo Malfatti, Dominique Mompoint, Susanna Quijano-Roy, Anastasiya Boltengagen, Joanna Schneider, Markus Schülke, Séverine Kunz, Robert Carlier, Carmen Birchmeier, Helge Amthor, Andreas Spuler, Christine Kocks, Nikolaus Rajewsky, and Simone Spuler

Subjects

Science

Abstract

Skeletal muscle stem cells express the transcription factor Pax7. Here, the authors isolate, from human muscle, cells that are positive for the endothelial marker CLEC14A and show that despite not expressing pax7, these cells regenerate muscle and contribute to the muscle stem cell niche when transplanted into mice.

Published

2019

20. Generation of two isogenic induced pluripotent stem cell lines from a 10-year-old typical nemaline myopathy patient with a heterozygous dominant c.541G>A (p.Asp179Asn) pathogenic variant in the ACTA1 gene

Author

Joshua S. Clayton, Carolin K. Scriba, Norma B. Romero, Edoardo Malfatti, Safaa Saker, Thierry Larmonier, Kristen J. Nowak, Gianina Ravenscroft, Nigel G. Laing, and Rhonda L. Taylor

Subjects

Biology (General), QH301-705.5

Abstract

Nemaline myopathy (NM) is a congenital myopathy typically characterized by skeletal muscle weakness and the presence of nemaline bodies in myofibres. Approximately 25% of NM cases are caused by variants in ACTA1. We generated two induced pluripotent stem cell lines from lymphoblastoid cells of a 10-year-old female with typical NM harbouring a dominant pathogenic variant in ACTA1 (c.541C>A). The isogenic lines displayed typical iPSC morphology, expressed pluripotency markers, and could differentiate into each of the three germ layers. Although the lines have partial or complete X chromosome duplication, they may still prove useful as models of human ACTA1 disease.

Published

2021

21. Deep morphological analysis of muscle biopsies from type III glycogenesis (GSDIII), debranching enzyme deficiency, revealed stereotyped vacuolar myopathy and autophagy impairment

Author

Pascal Laforêt, Michio Inoue, Evelyne Goillot, Claire Lefeuvre, Umut Cagin, Nathalie Streichenberger, Sarah Leonard-Louis, Guy Brochier, Angeline Madelaine, Clemence Labasse, Carola Hedberg-Oldfors, Thomas Krag, Louisa Jauze, Julien Fabregue, Philippe Labrune, Jose Milisenda, Aleksandra Nadaj-Pakleza, Sabrina Sacconi, Federico Mingozzi, Giuseppe Ronzitti, François Petit, Benedikt Schoser, Anders Oldfors, John Vissing, Norma B. Romero, Ichizo Nishino, and Edoardo Malfatti

Subjects

Glycogen storage disease III, Muscle glycogenosis, Metabolic myopathies, Myopathology, Autophagy, Autophagic impairment, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Glycogen storage disorder type III (GSDIII), or debranching enzyme (GDE) deficiency, is a rare metabolic disorder characterized by variable liver, cardiac, and skeletal muscle involvement. GSDIII manifests with liver symptoms in infancy and muscle involvement during early adulthood. Muscle biopsy is mainly performed in patients diagnosed in adulthood, as routine diagnosis relies on blood or liver GDE analysis, followed by AGL gene sequencing. The GSDIII mouse model recapitulate the clinical phenotype in humans, and a nearly full rescue of muscle function was observed in mice treated with the dual AAV vector expressing the GDE transgene. In order to characterize GSDIII muscle morphological spectrum and identify novel disease markers and pathways, we performed a large international multicentric morphological study on 30 muscle biopsies from GSDIII patients. Autophagy flux studies were performed in human muscle biopsies and muscles from GSDIII mice. The human muscle biopsies revealed a typical and constant vacuolar myopathy, characterized by multiple and variably sized vacuoles filled with PAS-positive material. Using electron microscopy, we confirmed the presence of large non-membrane bound sarcoplasmic deposits of normally structured glycogen as well as smaller rounded sac structures lined by a continuous double membrane containing only glycogen, corresponding to autophagosomes. A consistent SQSTM1/p62 decrease and beclin-1 increase in human muscle biopsies suggested an enhanced autophagy. Consistent with this, an increase in the lipidated form of LC3, LC3II was found in patients compared to controls. A decrease in SQSTM1/p62 was also found in the GSDIII mouse model. In conclusion, we characterized the morphological phenotype in GSDIII muscle and demonstrated dysfunctional autophagy in GSDIII human samples. These findings suggest that autophagic modulation combined with gene therapy might be considered as a novel treatment for GSDIII.

Published

2019

22. Clinical, histological, and genetic characterization of PYROXD1-related myopathy

Author

Xavière Lornage, Vanessa Schartner, Inès Balbueno, Valérie Biancalana, Tracey Willis, Andoni Echaniz-Laguna, Sophie Scheidecker, Ros Quinlivan, Michel Fardeau, Edoardo Malfatti, Béatrice Lannes, Caroline Sewry, Norma B. Romero, Jocelyn Laporte, and Johann Böhm

Subjects

PYROXD1, Oxidoreductase, Congenital myopathy, LGMD, Myofibrillar inclusions, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Recessive mutations in PYROXD1, encoding an oxidoreductase, were recently reported in families with congenital myopathy or limb-girdle muscular dystrophy. Here we describe three novel PYROXD1 families at the clinical, histological, and genetic level. Histological analyses on muscle biopsies from all families revealed fiber size variability, endomysial fibrosis, and muscle fibers with multiple internal nuclei and cores. Further characterization of the structural muscle defects uncovered aggregations of myofibrillar proteins, and provided evidence for enhanced oxidative stress. Sequencing identified homozygous or compound heterozygous PYROXD1 mutations including the first deep intronic mutation reinforcing a cryptic donor splice site and resulting in mRNA instability through exonisation of an intronic segment. Overall, this work expands the PYROXD1 mutation spectrum, defines and specifies the histopathological hallmarks of the disorder, and indicates that oxidative stress contributes to the pathomechanism. Comparison of all new and published cases uncovered a genotype/phenotype correlation with a more severe and early-onset phenotypic presentation of patients harboring splice mutations resulting in reduced PYROXD1 protein levels compared with patients carrying missense mutations.

Published

2019

23. Myoglobinopathy is an adult-onset autosomal dominant myopathy with characteristic sarcoplasmic inclusions

Author

Montse Olivé, Martin Engvall, Gianina Ravenscroft, Macarena Cabrera-Serrano, Hong Jiao, Carlo Augusto Bortolotti, Marcello Pignataro, Matteo Lambrughi, Haibo Jiang, Alistair R. R. Forrest, Núria Benseny-Cases, Stefan Hofbauer, Christian Obinger, Gianantonio Battistuzzi, Marzia Bellei, Marco Borsari, Giulia Di Rocco, Helena M. Viola, Livia C. Hool, Josep Cladera, Kristina Lagerstedt-Robinson, Fengqing Xiang, Anna Wredenberg, Francesc Miralles, Juan José Baiges, Edoardo Malfatti, Norma B. Romero, Nathalie Streichenberger, Christophe Vial, Kristl G. Claeys, Chiara S. M. Straathof, An Goris, Christoph Freyer, Martin Lammens, Guillaume Bassez, Juha Kere, Paula Clemente, Thomas Sejersen, Bjarne Udd, Noemí Vidal, Isidre Ferrer, Lars Edström, Anna Wedell, and Nigel G. Laing

Subjects

Science

Abstract

Myoglobin is a hemeprotein that reversibly binds oxygen and gives muscle its red color. Here, the authors report a genetic variant in the MB gene that associates with myoglobinopathy, an autosomal dominant progressive myopathy, and altered oxygen binding properties of the mutant protein.

Published

2019

24. ‘Dusty core disease’ (DuCD): expanding morphological spectrum of RYR1 recessive myopathies

Author

Matteo Garibaldi, John Rendu, Julie Brocard, Emmanuelle Lacene, Julien Fauré, Guy Brochier, Maud Beuvin, Clemence Labasse, Angeline Madelaine, Edoardo Malfatti, Jorge Alfredo Bevilacqua, Fabiana Lubieniecki, Soledad Monges, Ana Lia Taratuto, Jocelyn Laporte, Isabelle Marty, Giovanni Antonini, and Norma Beatriz Romero

Subjects

RYR1 recessive, Dusty Core Disease, Central Core Disease, Congenital Myopathy, Centronuclear myopathy, Ryanodine receptor, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Several morphological phenotypes have been associated to RYR1-recessive myopathies. We recharacterized the RYR1-recessive morphological spectrum by a large monocentric study performed on 54 muscle biopsies from a large cohort of 48 genetically confirmed patients, using histoenzymology, immunohistochemistry, and ultrastructural studies. We also analysed the level of RyR1 expression in patients’ muscle biopsies. We defined “dusty cores” the irregular areas of myofibrillar disorganisation characterised by a reddish-purple granular material deposition with uneven oxidative stain and devoid of ATPase activity, which represent the characteristic lesion in muscle biopsy in 54% of patients. We named Dusty Core Disease (DuCD) the corresponding entity of congenital myopathy. Dusty cores had peculiar histological and ultrastructural characteristics compared to the other core diseases. DuCD muscle biopsies also showed nuclear centralization and type1 fibre predominance. Dusty cores were not observed in other core myopathies and centronuclear myopathies. The other morphological groups in our cohort of patients were: Central Core (CCD: 21%), Core-Rod (C&R:15%) and Type1 predominance “plus” (T1P+:10%). DuCD group was associated to an earlier disease onset, a more severe clinical phenotype and a lowest level of RyR1 expression in muscle, compared to the other groups. Variants located in the bridge solenoid and the pore domains were more frequent in DuCD patients. In conclusion, DuCD is the most frequent histopathological presentation of RYR1-recessive myopathies. Dusty cores represent the unifying morphological lesion among the DuCD pathology spectrum and are the morphological hallmark for the recessive form of disease.

Published

2019

25. Generation of two isogenic induced pluripotent stem cell lines from a 4-month-old severe nemaline myopathy patient with a heterozygous dominant c.553C > A (p.Arg183Ser) variant in the ACTA1 gene

Author

Joshua S. Clayton, Carolin K. Scriba, Norma B. Romero, Edoardo Malfatti, Safaa Saker, Thierry Larmonier, Kristen J. Nowak, Gianina Ravenscroft, Nigel G. Laing, and Rhonda L. Taylor

Subjects

Biology (General), QH301-705.5

Abstract

Nemaline myopathy (NM) is a congenital myopathy typically characterized by skeletal muscle weakness and the presence of abnormal thread- or rod-like structures (nemaline bodies) in myofibres. Pathogenic variants in the skeletal muscle alpha actin gene, ACTA1, cause approximately 25% of all NM cases. We generated two induced pluripotent stem cell lines from lymphoblastoid cells of a 4-month-old female with severe NM harbouring a dominant variant in ACTA1 (c.553C > A). The isogenic lines displayed characteristic iPSC morphology, expressed pluripotency markers, differentiated into cells of all three germ layers, and possessed normal karyotypes. These lines could be useful models of human ACTA1 disease.

Published

2021

26. Glycogenin-1 deficiency mimicking limb-girdle muscular dystrophy

Author

Claire Lefeuvre, Stéphane Schaeffer, Robert-Yves Carlier, Maxime Fournier, Françoise Chapon, Valérie Biancalana, Guillaume Nicolas, Edoardo Malfatti, and Pascal Laforêt

Subjects

Neuromuscular disease, Glycogenin-1, GYG-1, Glycogen storage disease type XV, GSD XV, Polyglucosan body myopathy-2, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Glycogen storage disease type XV (GSD XV) is a recently described muscle glycogenosis due to glycogenin-1 (GYG1) deficiency characterized by the presence of polyglucosan bodies on muscle biopsy (Polyglucosan body myopathy-2, PGBM2). Here we describe a 44 year-old man with limb-girdle muscle weakness mimicking a limb-girdle muscular dystrophy (LGMD), and early onset exertional myalgia. Neurologic examination revealed a waddling gait with hyperlordosis, bilateral asymmetric scapular winging, mild asymmetric deltoid and biceps brachii weakness, and pelvic-girdle weakness involving the gluteal muscles and, to a lesser extent, the quadriceps. Serum creatine kinase levels were slightly elevated. Electrophysiological examination showed a myopathic pattern. There was no cardiac or respiratory involvement. Whole-body muscle MRI revealed atrophy and fat replacement of the tongue, biceps brachii, pelvic girdle and erector spinae. A deltoid muscle biopsy showed the presence of PAS-positive inclusions that remained non-digested with alpha-amylase treatment. Electron microscopy studies confirmed the presence of polyglucosan bodies. A diagnostic gene panel designed by the Genetic Diagnosis Laboratory of Strasbourg University Hospital (France) for 210 muscular disorders genes disclosed two heterozygous, pathogenic GYG1 gene mutations (c.304G>C;p.(Asp102His) + c.164_165del).Considering the clinical heterogeneity found in the previously described 38 GYG-1 deficient patients, we suggest that GYG1 should be systematically included in targeted NGS gene panels for LGMDs, distal myopathies, and metabolic myopathies.

Published

2020

27. Miopatías congénitas

Author

Edoardo Malfatti, MD, PhD

Subjects

Medicine

Abstract

ABSTRACT: Congenital myopathies are a group of primary hereditary, clinically and genetically heterogeneous skeletal muscle disorders, defined according to histopathologic lesions observed in muscle biopsies. The most common histopathologic lesions are protein aggregates, cores, and increased nuclear centralizations. The field of muscle congenital myopathies has met progress in the recent years by defining new disorders. In particular, next generation sequencing (NGS) techniques allowed the identification of around 20 novel forms of congenital myopathies. Some insights on the alteration of muscle contractility have been gained in the field of nemaline myopathies. In the perspective of future clinical trials, reaching out a confirmed genetic and histopathologic diagnosis and establish internationally accepted care measures are pivotal to reduce the disease burden of congenital myopathies patients. Keywords: Congenital myopathies, nemaline myopathies, congenital myopathies with cores, core-rod myopathies, reducing body myopathy, cap myopathy, centronuclear myopathies

Published

2018

28. Some DNM2 mutations cause extremely severe congenital myopathy and phenocopy myotubular myopathy

Author

Valérie Biancalana, Norma B. Romero, Inger Johanne Thuestad, Jaakko Ignatius, Janne Kataja, Maria Gardberg, Delphine Héron, Edoardo Malfatti, Anders Oldfors, and Jocelyn Laporte

Subjects

DNM2, MTM1, Congenital myopathy, Centronuclear myopathy, Hypotonia, Neurology. Diseases of the nervous system, RC346-429

Published

2018

29. Novel Phenotypes and Cardiac Involvement Associated With DNA2 Genetic Variants

Author

Ariadna González-del Angel, Michela Bisciglia, Steven Vargas-Cañas, Francisca Fernandez-Valverde, Ekaterina Kazakova, Rosa Elena Escobar, Norma B. Romero, Claude Jardel, Benoit Rucheton, Tanya Stojkovic, and Edoardo Malfatti

Subjects

mitochondrial disease, early onset myopathy, DNA2, cardiomyopathy, velopharyngeal weakness, rhabdomyolysis, Neurology. Diseases of the nervous system, RC346-429

Abstract

Objectives: To report two novel DNA2 gene mutations causing early onset myopathy with cardiac involvement and late onset mitochondriopathy with rhabdomyolysis.Methods: We performed detailed clinical, muscle histopathology and molecular studies including mitochondrial gene NGS analysis in two patients (Patient 1 and 2), a mother and her son, belonging to a Mexican family, and a third sporadic French patient.Results: Patient 1 and 2 presented with an early onset myopathy associated with ptosis, velopharyngeal weakness, and cardiac involvement. Patient 3 presented rhabdomyolysis unmasking a mitochondrial disease characterized by a sensorineural hearing loss, ptosis, and lipomas. Muscle biopsies performed in all patients showed variable mitochondrial alterations. Patient 3 had multiple mtDNA deletion in his muscle. Genetic studies revealed a novel heterozygous frameshift mutation in DNA2 gene (c.2346delT p.Phe782Leufs*3) in P1 and P2, and a novel heterozygous missense mutation in DNA2 gene (c.578T>C p.Leu193Ser) in the P3.Conclusions: To date only few AD cases presenting either missense or truncating DNA2 variants have been reported. None of them presented with a cardiac involvement or rhabdomyolysis. Here we enlarge the genetic and phenotypic spectrum of DNA2-related mitochondrial disorders.

Published

2019

30. A novel FLNC frameshift and an OBSCN variant in a family with distal muscular dystrophy.

Author

Daniela Rossi, Johanna Palmio, Anni Evilä, Lucia Galli, Virginia Barone, Tracy A Caldwell, Rachel A Policke, Esraa Aldkheil, Christopher E Berndsen, Nathan T Wright, Edoardo Malfatti, Guy Brochier, Enrico Pierantozzi, Albena Jordanova, Velina Guergueltcheva, Norma Beatriz Romero, Peter Hackman, Bruno Eymard, Bjarne Udd, and Vincenzo Sorrentino

Subjects

Medicine, Science

Abstract

A novel FLNC c.5161delG (p.Gly1722ValfsTer61) mutation was identified in two members of a French family affected by distal myopathy and in one healthy relative. This FLNC c.5161delG mutation is one nucleotide away from a previously reported FLNC mutation (c.5160delC) that was identified in patients and in asymptomatic carriers of three Bulgarian families with distal muscular dystrophy, indicating a low penetrance of the FLNC frameshift mutations. Given these similarities, we believe that the two FLNC mutations alone can be causative of distal myopathy without full penetrance. Moreover, comparative analysis of the clinical manifestations indicates that patients of the French family show an earlier onset and a complete segregation of the disease. As a possible explanation of this, the two French patients also carry a OBSCN c.13330C>T (p.Arg4444Trp) mutation. The p.Arg4444Trp variant is localized within the OBSCN Ig59 domain that, together with Ig58, binds to the ZIg9/ZIg10 domains of titin at Z-disks. Structural and functional studies indicate that this OBSCN p.Arg4444Trp mutation decreases titin binding by ~15-fold. On this line, we suggest that the combination of the OBSCN p.Arg4444Trp variant and of the FLNC c.5161delG mutation, can cooperatively affect myofibril stability and increase the penetrance of muscular dystrophy in the French family.

Published

2017

31. An integrated diagnosis strategy for congenital myopathies.

Author

Johann Böhm, Nasim Vasli, Edoardo Malfatti, Stéphanie Le Gras, Claire Feger, Bernard Jost, Nicole Monnier, Julie Brocard, Hatice Karasoy, Marion Gérard, Maggie C Walter, Peter Reilich, Valérie Biancalana, Christine Kretz, Nadia Messaddeq, Isabelle Marty, Joël Lunardi, Norma B Romero, and Jocelyn Laporte

Subjects

Medicine, Science

Abstract

Congenital myopathies are severe muscle disorders affecting adults as well as children in all populations. The diagnosis of congenital myopathies is constrained by strong clinical and genetic heterogeneity. Moreover, the majority of patients present with unspecific histological features, precluding purposive molecular diagnosis and demonstrating the need for an alternative and more efficient diagnostic approach. We used exome sequencing complemented by histological and ultrastructural analysis of muscle biopsies to identify the causative mutations in eight patients with clinically different skeletal muscle pathologies, ranging from a fatal neonatal myopathy to a mild and slowly progressive myopathy with adult onset. We identified RYR1 (ryanodine receptor) mutations in six patients and NEB (nebulin) mutations in two patients. We found novel missense and nonsense mutations, unraveled small insertions/deletions and confirmed their impact on splicing and mRNA/protein stability. Histological and ultrastructural findings of the muscle biopsies of the patients validated the exome sequencing results. We provide the evidence that an integrated strategy combining exome sequencing with clinical and histopathological investigations overcomes the limitations of the individual approaches to allow a fast and efficient diagnosis, accelerating the patient's access to a better healthcare and disease management. This is of particular interest for the diagnosis of congenital myopathies, which involve very large genes like RYR1 and NEB as well as genetic and phenotypic heterogeneity.

Published

2013

32. Duchenne Muscular Dystrophy in Kazakhstan: A Journey from Diagnosis to the Treatment, the Biases and Achievements

Author

Altynshash Jaxybayeva, Dana Chunkayeva, Bakhytkul Myrzaliyeva, Dinmukhamed Ayaganov, Marzhan Lepessova, Sholpan Bulekbayeva, Zhannat Idrissova, Gulnar Mukhambetova, Mirgul Bayanova, Edoardo Malfatti, and Andoni Urtizberea

Subjects

Neurology, Neurology (clinical)

Abstract

Background: Neuro-muscular disorders constitutes a group of rare but heterogeneous conditions. The onset of these diseases ranges widely from birth to elderly. Many of them are life threatening and progressive. Neuromuscular science is a very specialised medical field for which specific knowledge and expertise are necessary. Such an expertise is available only partially in Kazakhstan where underdiagnosis, misdiagnosis and mismanagement of patients with muscle diseases are commonplace. Hopefully, times are changing. With the implementation of international guidelines for the diagnosis and treatment of Duchenne Muscular Dystrophy (DMD), patients are now given better care including pharmacological interventions (including steroids in DMD), respiratory and nutritional support. Objectives: To report on clinical data and genetic variants in a nationwide cohort of DMD patients. To describe and analyse management strategies applied in Kazakhstan in these patients. Methods: The medical records of 84 patients recruited by the national expert-consulting board based at the national multidisciplinary centre of reference in neuro-muscular disorders in Astana, Kazakhstan, have been ascertained for the study. The national expert committee meets monthly to decide over the prescription of disease-modifying therapies in paediatric neuromuscular disorders. Data on the age of disease onset, the age at genetic testing, spectrum of genetic variants, the stage of disease and the serum CK levels have been collected. Results The mean age of 84 examined patients was 10 years. In Kazakhstan, the average age of disease manifestation was 3 years and 3 months. The vast majority of patients passed through genetic test due to the clinical manifestations. The average age of genetic confirmation was 7 years and 6 months. There were 58,33%of gross variations, of which 55,95%were deletions and 2,38%were duplications. Nonsense mutations were identified in 29,7%. Conclusion: The authors contend that strictly keeping the clinical guides in the diagnosis of DMD is essential, as the genetic variations may affect the stage and feasibility of novel therapies. The way of management of neuro-muscular diseases used in Kazakhstan is strictly recommended for implementation in developing countries.

Published

2023

33. Systemic light chain amyloidosis myopathy responsive to daratumumab monotherapy

Author

Diana Maria Chitimus, Edouard Berling, Laurent Garderet, Nadia Venturelli, Edoardo Malfatti, François Jérôme Authier, Guillaume Nicolas, Pascal Laforêt, and Claire Lefeuvre

Subjects

Neurology, Neurology (clinical)

Abstract

Amyloid myopathy is a rare and severe manifestation of systemic light chain (AL) amyloidosis. Early diagnosis and staging are mandatory for optimal therapy, given the rapid progression of muscle weakness. Despite the efficacy of bortezomib-based treatment regimens, there is a lack of therapeutic alternatives in non-responsive patients.The case report of a patient with systemic AL amyloidosis myopathy treated with daratumumab is presented.A 70-year-old man displayed severe proximal muscle weakness which had developed over a 10-month period. Blood tests revealed an immunoglobulin A lambda monoclonal gammopathy, whilst muscle biopsy showed amyloid deposits within the arteriolar walls, confirming the diagnosis of amyloid myopathy associated with AL amyloidosis. Initial treatment with a bortezomib-based regimen showed no clinical or hematological improvement. After switching to daratumumab monotherapy, our patient achieved a favorable evolution with respect to functional muscle scoring and a complete hematological response.To our knowledge, this is the first case report of an amyloid myopathy showing a remarkable clinical improvement in response to daratumumab monotherapy. It thereby highlights the potential of daratumumab as a monotherapeutical approach to the treatment of amyloid myopathy complicating AL amyloidosis.

Published

2022

34. La deuxième École Balte de Neuromyologie

Author

J. Andoni Urtizberea, Edoardo Malfatti, and Pierre G. Carlier

Subjects

General Medicine, General Biochemistry, Genetics and Molecular Biology

Abstract

La deuxième édition de l’École Balte de Neuromyologie s’est tenue du 26 au 27 août 2022 à Riga (Lettonie) dans une ambiance un peu particulière étant donné la situation internationale. Ce fut l’occasion pour les auteurs de mesurer le chemin parcouru par leurs homologues baltes tant dans le domaine du diagnostic que celui de la prise en charge des maladies neuromusculaires. Cette entreprise difficile mais couronnée de succès a conduit à l’intégration de trois centres de référence neuromusculaire baltes au sein de l’ERN (réseau européen des maladies rares) Euro-NMD. Au-delà de cette forme de consécration, et même si beaucoup reste à faire, au niveau de l’histopathologie musculaire notamment, les différentes équipes baltes ont présenté des travaux de recherche clinique tout à fait remarquables et utiles à l’ensemble de la communauté myologique.

Published

2022

35. Human light meromyosin mutations linked to skeletal myopathies disrupt the coiled coil structure and myosin head sequestration

Author

Glenn Carrington, Abbi Hau, Sarah Kosta, Hannah F. Dugdale, Francesco Muntoni, Adele D’Amico, Peter Van den Bergh, Norma B. Romero, Edoardo Malfatti, Juan Jesus Vilchez, Anders Oldfors, Sander Pajusalu, Katrin Õunap, Marta Giralt-Pujol, Edmar Zanoteli, Kenneth S. Campbell, Hiroyuki Iwamoto, Michelle Peckham, and Julien Ochala

Abstract

Myosin heavy chains encoded byMYH7andMYH2are among the most abundant proteins in human skeletal muscle. After decades of intense research using a wide range of biophysical and biological approaches, their functions have begun to be elucidated. Despite this, it remains unclear how mutations in these genes and resultant proteins disrupt myosin structure and function, inducing pathological states and skeletal myopathies termed myosinopathies. Here, we have analysed the effects of several commonMYH7andMYH2mutations located in light meromyosin (LMM) using a broad range of approaches. We determined the secondary structure and filament forming capabilities of expressed and purified LMM constructs in vitro, performedin-silicomodelling of LMM constructs, and evaluated the incorporation of eGFP-myosin heavy chain constructs into sarcomeres in cultured myotubes. Using muscle biopsies from patients, we applied Mant-ATP chase protocols to estimate the proportion of myosin heads that were super-relaxed, X-ray diffraction measurements to estimate myosin head order and myofibre mechanics to investigate contractile function. We found that humanMYH7andMYH2LMM mutations commonly disrupt myosin coiled-coil structure and packing of filamentsin vitro; decrease the myosin super-relaxed statein vivoand increase the basal myosin ATP consumption; but are not associated with myofibre contractile deficits. Altogether, these findings indicate that the structural remodelling resulting from LMM mutations induces a pathogenic state in which formation of shutdown heads is impaired, thus increasing myosin head ATP demand in the filaments, rather than affecting contractility. These key findings will help in the design of future therapies for myosinopathies.

Published

2023

36. Deep Characterization of a Greek Patient With a Desmin-Related Myofibrillar Myopathy and Cardiomyopathy

Author

Constantinos Papadopoulos, Edoardo Malfatti, Corinne Metay, Boris Keren, Elodie Lejeune, Julien Buratti, Sophia Xirou, Margarita Chrysanthou-Piterou, and George K Papadimas

Abstract

Desmin is a class III intermediate filament highly expressed in cardiac, smooth and striated muscle Autosomal dominant or recessive mutations in the desmin gene (DES) result in a variety of diseases, including cardiomyopathies and myofibrillar myopathy, collectively called desminopathies. Here we describe the clinical, histological and radiological features of a Greek patient with a myofibrillar myopathy and cardiomyopathy linked to the c.734A>G,p.(Glu245Gly) heterozygous variant in the DES gene. Moreover, through ribonucleic acid sequencing analysis in skeletal muscle we show that this variant provokes a defect in exon 3 splicing and thus should be considered clearly pathogenic

Published

2023

37. Thyroid-stimulating hormone receptor signaling restores skeletal muscle stem cell regeneration in rats with muscular dystrophy

Author

Valentina Taglietti, Kaouthar Kefi, Lea Rivera, Oriane Bergiers, Nastasia Cardone, Fanny Coulpier, Stamatia Gioftsidi, Bernadette Drayton-Libotte, Cyrielle Hou, François-Jérôme Authier, France Pietri-Rouxel, Matthieu Robert, Dominique Bremond-Gignac, Claudio Bruno, Chiara Fiorillo, Edoardo Malfatti, Peggy Lafuste, Laurent Tiret, and Frédéric Relaix

Subjects

General Medicine

Abstract

Duchenne muscular dystrophy (DMD) is a severe and progressive myopathy leading to motor and cardiorespiratory impairment. We analyzed samples from patients with DMD and a preclinical rat model of severe DMD and determined that compromised repair capacity of muscle stem cells in DMD is associated with early and progressive muscle stem cell senescence. We also found that extraocular muscles (EOMs), which are spared by the disease in patients, contain muscle stem cells with long-lasting regenerative potential. Using single-cell transcriptomics analysis of muscles from a rat model of DMD, we identified the gene encoding thyroid-stimulating hormone receptor ( Tshr ) as highly expressed in EOM stem cells. Further, TSHR activity was involved in preventing senescence. Forskolin, which activates signaling downstream of TSHR, was found to reduce senescence of skeletal muscle stem cells, increase stem cell regenerative potential, and promote myogenesis, thereby improving muscle function in DMD rats. These findings indicate that stimulation of adenylyl cyclase leads to muscle repair in DMD, potentially providing a therapeutic approach for patients with the disease.

Published

2023

38. Efficacité du daratumumab dans le traitement d’une amylose musculaire réfractaire

Author

Diana Chitimus, Edouard Berling, Laurent Garderet, Nadia Venturelli, Edoardo Malfatti, Pascal Laforet, and Claire Lefeuvre

Subjects

Neurology, Neurology (clinical)

Published

2023

39. Victor(iou)’s myologists: snapshots of a legacy

Author

Edoardo Malfatti and Gianina Ravenscroft

Subjects

World Wide Web, Neurology, Computer science, Pediatrics, Perinatology and Child Health, Neurology (clinical), Genetics (clinical)

Published

2021

40. Molecular Mechanisms of Diaphragm Myopathy in Humans with Severe Heart Failure

Author

Edoardo Malfatti, Jennifer Hommel, Volker Adams, Joanna Jozwiak-Nozdrzykowska, Clara Schmitz, Jens Garbade, Ephraim B. Winzer, Sven Lehmann, Anna L. Meyer, Michael Schwarzer, Marloes van den Berg, Coen A.C. Ottenheijm, Axel Linke, Norman Mangner, E. Heyne, T. Scott Bowen, Marcus Sandri, Anesthesiology, ACS - Pulmonary hypertension & thrombosis, and Physiology

Subjects

Male, medicine.medical_specialty, Physiology, Ubiquitin-Protein Ligases, Diaphragm, Muscle Proteins, Exercise intolerance, Protein oxidation, Tripartite Motif Proteins, Atrophy, Internal medicine, Mitophagy, Respiratory muscle, Medicine, Humans, Myopathy, Heart Failure, Muscle Weakness, business.industry, NADPH Oxidases, Ryanodine Receptor Calcium Release Channel, Middle Aged, medicine.disease, Diaphragm (structural system), Mitochondria, Muscle, Endocrinology, Heart failure, cardiovascular system, Calcium, Female, medicine.symptom, Cardiology and Cardiovascular Medicine, business

Abstract

Rationale: Diaphragm weakness impairs quality of life, exercise capacity, and survival in patients with chronic heart failure (CHF) and reduced left ventricular ejection fraction. However, the underlying cellular mechanisms responsible in humans remain poorly resolved. Objectives: We prospectively evaluated clinical, functional (in vivo/in vitro), histological/ultrastructural, and molecular alterations of the diaphragm from patients with CHF receiving a left ventricular assist device compared with patients without CHF undergoing elective coronary bypass grafting (control) in the observational LIPAMUS-HF (Lipsia Diaphragm And Muscle Heart Failure). Methods and Results: Participants (controls=21, CHF=18) underwent cardiopulmonary exercise and spirometry/respiratory muscle testing alongside diaphragm and cardiac imaging. Diaphragm biopsies were phenotyped for mitochondrial respiration, muscle fiber function, histology/ultrastructure, and protein expression. In vivo respiratory muscle function and diaphragm thickness were reduced in CHF by 38% and 23%. Diaphragm biopsies revealed a fiber-type shift and severe fiber atrophy in CHF alongside elevated proteasome-dependent proteolysis (ie, MuRF1 [muscle-specific RING finger protein 1] expression, ubiquitination, ubiquitin-proteasome activity) and myofibrillar protein oxidation, which corresponded to upregulated Nox (NADPH [nicotinamide adenine dinucleotide phosphate oxidase] oxidase; Nox2/Nox4) signaling. Mitochondria demonstrated severe intrinsic functional and ultrastructural abnormalities in CHF characterized by accumulation of small mitochondria and inhibited autophagy/mitophagy. Single muscle fiber contractile function revealed reduced Ca 2+ sensitivity in CHF and there was evidence of RyR1 (ryanodine receptor 1) dysfunction indicating Ca 2+ leak from the sarcoplasmic reticulum. Mitochondrial and Ca 2+ measures corresponded to upregulated Nox4 isoform NADPH oxidase expression. Molecular markers correlated to whole-body exercise intolerance and diaphragm dysfunction/wasting. Conclusions: Patients with CHF demonstrate an obvious diaphragm myopathy independent of disuse or other confounding factors, such as aging, obesity, or hypertension. Diaphragm weakness in CHF was associated with intracellular abnormalities characterized by fiber atrophy, oxidative stress, mitochondrial dysfunction, impaired Ca 2+ homeostasis, elevated proteasome-dependent proteolysis, but inhibited autophagy/mitophagy, which we speculate offers a novel therapeutic molecular target regulated by a Nox-MuRF1/ubiquitin-proteasome-mitochondria-RyR1/Ca 2+ signaling axis. Registration: URL: https://www.clinicaltrials.gov ; Unique identifier: NCT02663115.

Published

2021

41. Metabolic Myopathies in the Era of Next-Generation Sequencing

Author

Jon Andoni Urtizberea, Gianmarco Severa, and Edoardo Malfatti

Subjects

Genetics, Genetics (clinical)

Abstract

Metabolic myopathies are rare inherited disorders that deserve more attention from neurologists and pediatricians. Pompe disease and McArdle disease represent some of the most common diseases in clinical practice; however, other less common diseases are now better-known. In general the pathophysiology of metabolic myopathies needs to be better understood. Thanks to the advent of next-generation sequencing (NGS), genetic testing has replaced more invasive investigations and sophisticated enzymatic assays to reach a final diagnosis in many cases. The current diagnostic algorithms for metabolic myopathies have integrated this paradigm shift and restrict invasive investigations for complicated cases. Moreover, NGS contributes to the discovery of novel genes and proteins, providing new insights into muscle metabolism and pathophysiology. More importantly, a growing number of these conditions are amenable to therapeutic approaches such as diets of different kinds, exercise training protocols, and enzyme replacement therapy or gene therapy. Prevention and management—notably of rhabdomyolysis—are key to avoiding serious and potentially life-threatening complications and improving patients’ quality of life. Although not devoid of limitations, the newborn screening programs that are currently mushrooming across the globe show that early intervention in metabolic myopathies is a key factor for better therapeutic efficacy and long-term prognosis. As a whole NGS has largely increased the diagnostic yield of metabolic myopathies, but more invasive but classical investigations are still critical when the genetic diagnosis is unclear or when it comes to optimizing the follow-up and care of these muscular disorders.

Published

2023

42. Generation of two isogenic induced pluripotent stem cell lines from a 1-month-old nemaline myopathy patient harbouring a homozygous recessive c.121C T (p.Arg39Ter) variant in the ACTA1 gene

Author

Isabella S. Suleski, Robert Smith, Christina Vo, Carolin K. Scriba, Safaa Saker, Thierry Larmonier, Edoardo Malfatti, Norma B. Romero, Peter J. Houweling, Kristen J. Nowak, Nigel G. Laing, Rhonda L. Taylor, and Joshua S. Clayton

Subjects

Male, Homozygote, Induced Pluripotent Stem Cells, Mutation, Humans, Infant, Cell Biology, General Medicine, Muscle, Skeletal, Myopathies, Nemaline, Actins, Developmental Biology

Abstract

Nemaline myopathy (NM) is a congenital skeletal muscle disorder that typically results in muscle weakness and the presence of rod-like structures (nemaline bodies) in the sarcoplasma and/or in the nuclei of myofibres. Two induced pluripotent stem cell (iPSC) lines were generated from the lymphoblastoid cells of a 1-month-old male with severe NM caused by a homozygous recessive mutation in the ACTA1 gene (c.121C T, p.Arg39Ter). The iPSC lines demonstrated typical morphology, expressed pluripotency markers, exhibited trilineage differentiation potential and displayed a normal karyotype. These isogenic lines represent a potential resource to investigate and model recessive ACTA1 disease in a human context.

Published

2022

43. Phenotypic Spectrum of Myopathies with Recessive Anoctamin-5 Mutations

Author

José Vázquez, Claire Lefeuvre, Rosa Elena Escobar, Alexandra Berenice Luna Angulo, Antonio Miranda Duarte, Alma Delia Hernandez, Marion Brisset, Robert-Yves Carlier, France Leturcq, Marie-Christine Durand-Canard, Guillaume Nicolas, Pascal Laforet, and Edoardo Malfatti

Subjects

Adult, 0301 basic medicine, Pathology, medicine.medical_specialty, Anoctamins, Compound heterozygosity, Asymptomatic, Pulmonary function testing, Cohort Studies, Manual Muscle Testing, 03 medical and health sciences, Exon, 0302 clinical medicine, Muscular Diseases, Humans, Medicine, Muscular dystrophy, Myopathy, Creatine Kinase, Mexico, Muscle Weakness, Muscle biopsy, medicine.diagnostic_test, business.industry, Myalgia, medicine.disease, Pedigree, Distal Myopathies, Muscular Atrophy, 030104 developmental biology, Muscular Dystrophies, Limb-Girdle, Neurology, Mutation, France, Neurology (clinical), medicine.symptom, business, Metabolism, Inborn Errors, 030217 neurology & neurosurgery

Abstract

Background: Biallelic variants in Anoctamin 5 (ANO5) gene are causative of limb-girdle muscular dystrophy (LGMD) R12 anoctamin5-related, non-dysferlin Miyoshi-like distal myopathy (MMD3), and asymptomatic hyperCKemia. Objective: To describe clinic, histologic, genetic and imaging features, of ANO5 mutated patients. Methods: Five patients, four from France (P1, P2, P3 and P4) and one from Mexico (P5), from four families were included. P1 and P2, belonging to group 1, had normal muscle strength; Group 2, P3, P4 and P5, presented with muscular weakness. Muscle strength was measured by manual muscle testing, Medical Research Council (MRC) grades 1/5 to 5/5. Laboratory exams included serum CK levels, nerve conduction studies (NCS)/needle electromyography (EMG), pulmonary function tests, EKG and cardiac ultrasound. ANO5 molecular screening was performed with different approaches. Results: Group 1 patients showed myalgias with hyperCKemia or isolated hyperCKemia. Group 2 patients presented with limb-girdle or proximo-distal muscular weakness. Serum CK levels ranged from 897 to 5000 UI/L. Muscle biopsy analysis in P4 and P5 showed subsarcolemmal mitochondrial aggregates. Electron microscopy confirmed mitochondrial proliferation and revealed discontinuity of the sarcolemmal membrane. Muscle MRI showed asymmetrical fibro-fatty substitution predominant in the lower limbs. P1 and P2 were compound heterozygous for c.191dupA (p.Asn64Lysfs*15) and c.1898 + G>A; P3 was homozygous for the c.692G>T. (p.Gly231Val); P4 harbored a novel biallelic homozygous exons 1–7 ANO5 gene deletion, and P5 was homozygous for a c.172 C > T (p.(Arg 58 Trp)) ANO5 pathogenic variant. Conclusions: Our cohort confirms the wide clinical variability and enlarge the genetic spectrum of ANO5-related myopathies.

Published

2020

44. A new congenital multicore titinopathy associated with fast myosin heavy chain deficiency

Author

Robert Carlier, Mireille Cossée, Corinne Metay, Edoardo Malfatti, Pascale Richard, Norma B. Romero, Henk Granzier, Isabelle Richard, Michel Koenig, Elena Pegoraro, Aurélien Perrin, Tanya Stojkovic, Raul Juntas Morales, Marcello Villanova, Centre Hospitalier Régional Universitaire [Montpellier] (CHRU Montpellier), Laboratoire de génétique des maladies rares. Pathologie moleculaire, etudes fonctionnelles et banque de données génétiques (LGMR), IFR3, Université Montpellier 1 (UM1)-Université Montpellier 1 (UM1)-Université de Montpellier (UM)-Institut National de la Santé et de la Recherche Médicale (INSERM), Centre de Recherche en Myologie, Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU), Institut de Myologie, Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Association française contre les myopathies (AFM-Téléthon)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Unité de Recherche sur les Maladies Cardiovasculaires, du Métabolisme et de la Nutrition = Institute of cardiometabolism and nutrition (ICAN), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Sorbonne Université (SU), Unité Fonctionnelle de Cardiogénétique et Myogénétique Moléculaire et Cellulaire, Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-CHU Pitié-Salpêtrière [AP-HP], Service de Biochimie Métabolique et Centre de Génétique moléculaire et chromosomique [CHU Pitié Salpêtrière], Hôpital Raymond Poincaré [AP-HP], Handicap neuromusculaire : Physiopathologie, Biothérapie et Pharmacologies appliquées (END-ICAP), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Institut National de la Santé et de la Recherche Médicale (INSERM), Universita degli Studi di Padova, CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU), Approches génétiques intégrées et nouvelles thérapies pour les maladies rares (INTEGRARE), Université d'Évry-Val-d'Essonne (UEVE)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris-Saclay-Généthon, University of Arizona, Gestionnaire, Hal Sorbonne Université, Université Montpellier 1 (UM1)-IFR3, Université Montpellier 1 (UM1)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Montpellier (UM), Centre de recherche en Myologie – U974 SU-INSERM, Unité de Recherche sur les Maladies Cardiovasculaires, du Métabolisme et de la Nutrition = Research Unit on Cardiovascular and Metabolic Diseases (ICAN), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Institut de Cardiométabolisme et Nutrition = Institute of Cardiometabolism and Nutrition [CHU Pitié Salpêtrière] (IHU ICAN), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-CHU Pitié-Salpêtrière [AP-HP], Università degli Studi di Padova = University of Padua (Unipd), and Centre National de la Recherche Scientifique (CNRS)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Association française contre les myopathies (AFM-Téléthon)-Sorbonne Université (SU)

Subjects

0301 basic medicine, Gene isoform, Male, Fast myosin, Adolescent, [SDV]Life Sciences [q-bio], Child, Connectin, Deltoid Muscle, Female, Humans, Myosin Heavy Chains, Pedigree, Siblings, Muscular Diseases, Neurosciences. Biological psychiatry. Neuropsychiatry, macromolecular substances, Brief Communication, 03 medical and health sciences, 0302 clinical medicine, Myosin, Medicine, RC346-429, Messenger RNA, [SDV.MHEP] Life Sciences [q-bio]/Human health and pathology, biology, business.industry, General Neuroscience, Phenotype, Cell biology, [SDV] Life Sciences [q-bio], Blot, 030104 developmental biology, biology.protein, Immunohistochemistry, Titin, Neurology. Diseases of the nervous system, Neurology (clinical), business, [SDV.MHEP]Life Sciences [q-bio]/Human health and pathology, 030217 neurology & neurosurgery, RC321-571

Abstract

International audience; Congenital titinopathies are myopathies with variable phenotypes and inheritance modes. Here, we fully characterized, using an integrated approach (deep phenotyping, muscle morphology, mRNA and protein evaluation in muscle biopsies), two siblings with congenital multicore myopathy harboring three TTN variants predicted to affect titin stability and titin-myosin interactions. Muscle biopsies showed multicores, type 1 fiber uniformity and sarcomeric structure disruption with some thick filament loss. Immunohistochemistry and Western blotting revealed a marked reduction of fast myosin heavy chain iso-forms. This is the first observation of a titinopathy suggesting that titin defect leads to secondary loss of fast myosin heavy chain isoforms.

Published

2020

45. Congenital Nemaline Myopathy with Dense Protein Masses

Author

Jorge A Bevilacqua, Edoardo Malfatti, Clémence Labasse, Guy Brochier, Angeline Madelaine, Emmanuelle Lacène, Bérénice Doray, Pascal Laforêt, Bruno Eymard, John Rendu, and Norma B Romero

Subjects

Cellular and Molecular Neuroscience, Neurology, Muscular Diseases, Humans, Muscle Proteins, Neurology (clinical), General Medicine, Muscle, Skeletal, Myopathies, Nemaline, Pathology and Forensic Medicine

Published

2022

46. Interferon-gamma mediates skeletal muscle lesions through JAK/STAT pathway activation in inclusion body myositis

Author

Cyrielle Hou, Baptiste Periou, Marianne Gervais, Juliette Berthier, Yasmine Baba-Amer, Sarah Souvannanorath, Edoardo Malfatti, Fréderic Relaix, Maximilien Bencze, and François Jérôme Authier

Abstract

Dysimmune and Inflammatory Myopathies (DIMs) are acquired idiopathic myopathy associated with immune response dysregulation. Inclusion Body Myositis (IBM), the most common DIMs, is characterized by endomysial infiltrates of cytotoxic T lymphocytes CD8, muscle type II-interferon (IFNγ) signature, and by the lack of response to immunomodulatory therapies. We showed that IBM was pathologically characterized by the presence of chronic degenerative myopathic features including myofiber atrophy, fibrosis, adipose involution, and the altered functions of skeletal muscle stem cells. Here, we demonstrated that protracted systemic exposure to IFNγ delayed muscle regeneration and led to IBM-like muscular degenerative changes in mice. In vitro, IFNγ treatment inhibited the activation, proliferation, migration, differentiation, and fusion of myogenic progenitor cells and promoted their senescence through JAK-STAT-dependent activation. Finally, JAK-STAT inhibitor, ruxolitinib abrogated the deleterious effects of IFNγ on muscle regeneration, suggesting that the JAK-STAT pathway could represent a new therapeutic target for IBM.

Published

2021

47. [A case of congenital limb girdle myasthenia solved through a tripartite collaboration]

Author

Sonia, Nouioua, Edoardo, Malfatti, Ravenscroft, Gianina, Sihem, Hellal, Tazir, Meriem, and J Andoni, Urtizberea

Subjects

Adult, Myasthenic Syndromes, Congenital, Cytoskeletal Proteins, Mutation, Myasthenia Gravis, Humans, Membrane Proteins, Female, Cholinesterase Inhibitors, Middle Aged

Published

2021

48. A novel homozygous ALPK3 variant associated with cardiomyopathy and skeletal muscle involvement

Author

Costas G. Papadopoulos, Kyriaki Kekou, G.K. Papadimas, C Paschou, Edoardo Malfatti, G K Efthimiadis, Maria Svingou, C Metay, D Milipoulos, M Chrysanthou, S Adamopoulos, and A Anastasakis

Subjects

Pathology, medicine.medical_specialty, Physiology, business.industry, Homozygote, Cardiomyopathy, Skeletal muscle, Vacuole, medicine.disease, Myofibrillar disorganization, Skeletal myopathy, Cellular and Molecular Neuroscience, medicine.anatomical_structure, Physiology (medical), Medicine, Humans, Neurology (clinical), business, Cardiomyopathies, Muscle, Skeletal

Published

2021

49. Proteomic characterisation of polyglucosan bodies in skeletal muscle in RBCK1 deficiency

Author

Ognian Kalev, Edoardo Malfatti, Mark Roberts, Ana Jovanovic, Christer Thomsen, Christopher Lindberg, and Anders Oldfors

Subjects

Proteomics, Histology, Ubiquitin-Protein Ligases, Protein aggregation, Lafora disease, Pathology and Forensic Medicine, chemistry.chemical_compound, Western blot, Physiology (medical), medicine, Humans, Glycogen storage disease, Muscle, Skeletal, Myopathy, Glucans, Laser capture microdissection, medicine.diagnostic_test, Glycogen, Chemistry, Skeletal muscle, Glycogen Storage Disease, medicine.disease, medicine.anatomical_structure, Neurology, Biochemistry, Neurology (clinical), medicine.symptom, Transcription Factors

Abstract

AIMS Several neurodegenerative and neuromuscular disorders are characterised by storage of polyglucosan, consisting of proteins and amylopectin-like polysaccharides, which are less branched than in normal glycogen. Such diseases include Lafora disease, branching enzyme deficiency, glycogenin-1 deficiency, polyglucosan body myopathy type 1 (PGBM1) due to RBCK1 deficiency and others. The protein composition of polyglucosan bodies is largely unknown. METHODS We combined quantitative mass spectrometry, immunohistochemical and western blot analyses to identify the principal protein components of polyglucosan bodies in PGBM1. Histologically stained tissue sections of skeletal muscle from four patients were used to isolate polyglucosan deposits and control regions by laser microdissection. Prior to mass spectrometry, samples were labelled with tandem mass tags that enable quantitative comparison and multiplexed analysis of dissected samples. To study the distribution and expression of the accumulated proteins, immunohistochemical and western blot analyses were performed. RESULTS Accumulated proteins were mainly components of glycogen metabolism and protein quality control pathways. The majority of fibres showed depletion of glycogen and redistribution of key enzymes of glycogen metabolism to the polyglucosan bodies. The polyglucosan bodies also showed accumulation of proteins involved in the ubiquitin-proteasome and autophagocytosis systems and protein chaperones. CONCLUSIONS The sequestration of key enzymes of glycogen metabolism to the polyglucosan bodies may explain the glycogen depletion in the fibres and muscle function impairment. The accumulation of components of the protein quality control systems and other proteins frequently found in protein aggregate disorders indicates that protein aggregation may be an essential part of the pathobiology of polyglucosan storage.

Published

2021

50. Generation of two isogenic induced pluripotent stem cell lines from a 10-year-old typical nemaline myopathy patient with a heterozygous dominant c.541G>A (p.Asp179Asn) pathogenic variant in the ACTA1 gene

Author

Kristen J. Nowak, Thierry Larmonier, Safaa Saker, Rhonda L. Taylor, Gianina Ravenscroft, Carolin K. Scriba, Norma B. Romero, Nigel G. Laing, Edoardo Malfatti, Joshua S. Clayton, The University of Western Australia (UWA), Institut de Myologie, Centre National de la Recherche Scientifique (CNRS)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Association française contre les myopathies (AFM-Téléthon)-Sorbonne Université (SU), Institut Mondor de Recherche Biomédicale (IMRB), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12)-IFR10, Généthon, Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Association française contre les myopathies (AFM-Téléthon)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Institut National de la Santé et de la Recherche Médicale (INSERM)-IFR10-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12), and HAL-SU, Gestionnaire

Subjects

[SDV.BIO]Life Sciences [q-bio]/Biotechnology, QH301-705.5, Induced Pluripotent Stem Cells, Germ layer, [SDV.BC]Life Sciences [q-bio]/Cellular Biology, Biology, Myopathies, Nemaline, 03 medical and health sciences, 0302 clinical medicine, Nemaline myopathy, Gene duplication, medicine, Humans, Biology (General), Child, Muscle, Skeletal, Nemaline bodies, Induced pluripotent stem cell, [SDV.BC] Life Sciences [q-bio]/Cellular Biology, Gene, 030304 developmental biology, 0303 health sciences, Lymphoblast, Cell Biology, General Medicine, medicine.disease, Congenital myopathy, Molecular biology, Actins, [SDV.BIO] Life Sciences [q-bio]/Biotechnology, 3. Good health, Mutation, Female, 030217 neurology & neurosurgery, Developmental Biology

Abstract

International audience; Nemaline myopathy (NM) is a congenital myopathy typically characterized by skeletal muscle weakness and the presence of nemaline bodies in myofibres. Approximately 25% of NM cases are caused by variants in ACTA1. We generated two induced pluripotent stem cell lines from lymphoblastoid cells of a 10-year-old female with typical NM harbouring a dominant pathogenic variant in ACTA1 (c.541C>A). The isogenic lines displayed typical iPSC morphology, expressed pluripotency markers, and could differentiate into each of the three germ layers. Although the lines have partial or complete X chromosome duplication, they may still prove useful as models of human ACTA1 disease.

Published

2021