A Calsequestrin-1 Mutation Associated with a Skeletal Muscle Disease Alters Sarcoplasmic Ca2+ Release

An autosomal dominant protein aggregate myopathy, characterized by high plasma creatine kinase and calsequestrin-1 (CASQ1) accumulation in skeletal muscle, has been recently associated with a missense mutation in CASQ1 gene. The mutation replaces an evolutionarily-conserved aspartic acid with glycin...

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Veröffentlicht in:	PloS one 2016-05, Vol.11 (5), p.e0155516-e0155516
Hauptverfasser:	D'Adamo, Maria Cristina, Sforna, Luigi, Visentin, Sergio, Grottesi, Alessandro, Servettini, Llenio, Guglielmi, Luca, Macchioni, Lara, Saredi, Simona, Curcio, Maurizio, De Nuccio, Chiara, Hasan, Sonia, Corazzi, Lanfranco, Franciolini, Fabio, Mora, Marina, Catacuzzeno, Luigi, Pessia, Mauro
Format:	Artikel
Sprache:	eng
Schlagworte:	Action Potentials Aspartic acid Biochemistry Biology Biology and Life Sciences Biopsy Caffeine - pharmacology Calcium (reticular) Calcium - metabolism Calcium homeostasis Calcium ions Calcium-Binding Proteins - genetics Calsequestrin Cell culture Creatine Creatine kinase Disease Electrophysiology Glycine Growth factors Homeostasis Humans Kinases Medicine Medicine and Health Sciences Missense mutation Mitochondrial Proteins - genetics Models, Molecular Muscle Fibers, Skeletal - metabolism Muscle, Skeletal - metabolism Muscles Muscular Diseases - metabolism Muscular dystrophy Musculoskeletal system Mutation Mutation, Missense Myoblasts Myopathy Myotubes Neuromuscular diseases Neurosciences Patients Penicillin Physical Sciences Physiology Proteins Research and Analysis Methods Ryanodine Receptor Calcium Release Channel - genetics Ryanodine receptors Sarcoplasmic reticulum Sarcoplasmic Reticulum - metabolism Skeletal muscle Vacuoles
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creator	D'Adamo, Maria Cristina Sforna, Luigi Visentin, Sergio Grottesi, Alessandro Servettini, Llenio Guglielmi, Luca Macchioni, Lara Saredi, Simona Curcio, Maurizio De Nuccio, Chiara Hasan, Sonia Corazzi, Lanfranco Franciolini, Fabio Mora, Marina Catacuzzeno, Luigi Pessia, Mauro
description	An autosomal dominant protein aggregate myopathy, characterized by high plasma creatine kinase and calsequestrin-1 (CASQ1) accumulation in skeletal muscle, has been recently associated with a missense mutation in CASQ1 gene. The mutation replaces an evolutionarily-conserved aspartic acid with glycine at position 244 (p.D244G) of CASQ1, the main sarcoplasmic reticulum (SR) Ca2+ binding and storage protein localized at the terminal cisternae of skeletal muscle cells. Here, immunocytochemical analysis of myotubes, differentiated from muscle-derived primary myoblasts, shows that sarcoplasmic vacuolar aggregations positive for CASQ1 are significantly larger in CASQ1-mutated cells than control cells. A strong co-immuno staining of both RyR1 and CASQ1 was also noted in the vacuoles of myotubes and muscle biopsies derived from patients. Electrophysiological recordings and sarcoplasmic Ca2+ measurements provide evidence for less Ca2+ release from the SR of mutated myotubes when compared to that of controls. These findings further clarify the pathogenic nature of the p.D244G variant and point out defects in sarcoplasmic Ca2+ homeostasis as a mechanism underlying this human disease, which could be distinctly classified as "CASQ1-couplonopathy".
doi_str_mv	10.1371/journal.pone.0155516
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The mutation replaces an evolutionarily-conserved aspartic acid with glycine at position 244 (p.D244G) of CASQ1, the main sarcoplasmic reticulum (SR) Ca2+ binding and storage protein localized at the terminal cisternae of skeletal muscle cells. Here, immunocytochemical analysis of myotubes, differentiated from muscle-derived primary myoblasts, shows that sarcoplasmic vacuolar aggregations positive for CASQ1 are significantly larger in CASQ1-mutated cells than control cells. A strong co-immuno staining of both RyR1 and CASQ1 was also noted in the vacuoles of myotubes and muscle biopsies derived from patients. Electrophysiological recordings and sarcoplasmic Ca2+ measurements provide evidence for less Ca2+ release from the SR of mutated myotubes when compared to that of controls. These findings further clarify the pathogenic nature of the p.D244G variant and point out defects in sarcoplasmic Ca2+ homeostasis as a mechanism underlying this human disease, which could be distinctly classified as "CASQ1-couplonopathy".</description><identifier>ISSN: 1932-6203</identifier><identifier>EISSN: 1932-6203</identifier><identifier>DOI: 10.1371/journal.pone.0155516</identifier><identifier>PMID: 27196359</identifier><language>eng</language><publisher>United States: Public Library of Science</publisher><subject>Action Potentials ; Aspartic acid ; Biochemistry ; Biology ; Biology and Life Sciences ; Biopsy ; Caffeine - pharmacology ; Calcium (reticular) ; Calcium - metabolism ; Calcium homeostasis ; Calcium ions ; Calcium-Binding Proteins - genetics ; Calsequestrin ; Cell culture ; Creatine ; Creatine kinase ; Disease ; Electrophysiology ; Glycine ; Growth factors ; Homeostasis ; Humans ; Kinases ; Medicine ; Medicine and Health Sciences ; Missense mutation ; Mitochondrial Proteins - genetics ; Models, Molecular ; Muscle Fibers, Skeletal - metabolism ; Muscle, Skeletal - metabolism ; Muscles ; Muscular Diseases - metabolism ; Muscular dystrophy ; Musculoskeletal system ; Mutation ; Mutation, Missense ; Myoblasts ; Myopathy ; Myotubes ; Neuromuscular diseases ; Neurosciences ; Patients ; Penicillin ; Physical Sciences ; Physiology ; Proteins ; Research and Analysis Methods ; Ryanodine Receptor Calcium Release Channel - genetics ; Ryanodine receptors ; Sarcoplasmic reticulum ; Sarcoplasmic Reticulum - metabolism ; Skeletal muscle ; Vacuoles</subject><ispartof>PloS one, 2016-05, Vol.11 (5), p.e0155516-e0155516</ispartof><rights>2016 D’Adamo et al. 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The mutation replaces an evolutionarily-conserved aspartic acid with glycine at position 244 (p.D244G) of CASQ1, the main sarcoplasmic reticulum (SR) Ca2+ binding and storage protein localized at the terminal cisternae of skeletal muscle cells. Here, immunocytochemical analysis of myotubes, differentiated from muscle-derived primary myoblasts, shows that sarcoplasmic vacuolar aggregations positive for CASQ1 are significantly larger in CASQ1-mutated cells than control cells. A strong co-immuno staining of both RyR1 and CASQ1 was also noted in the vacuoles of myotubes and muscle biopsies derived from patients. Electrophysiological recordings and sarcoplasmic Ca2+ measurements provide evidence for less Ca2+ release from the SR of mutated myotubes when compared to that of controls. 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Calsequestrin-1 Mutation Associated with a Skeletal Muscle Disease Alters Sarcoplasmic Ca2+ Release</title><author>D'Adamo, Maria Cristina ; Sforna, Luigi ; Visentin, Sergio ; Grottesi, Alessandro ; Servettini, Llenio ; Guglielmi, Luca ; Macchioni, Lara ; Saredi, Simona ; Curcio, Maurizio ; De Nuccio, Chiara ; Hasan, Sonia ; Corazzi, Lanfranco ; Franciolini, Fabio ; Mora, Marina ; Catacuzzeno, Luigi ; Pessia, Mauro</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c489t-25fadc843a4dfaf3392670e2f0186a3e3389048b4ac902ce8a5a7d313c3fe55a3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2016</creationdate><topic>Action Potentials</topic><topic>Aspartic acid</topic><topic>Biochemistry</topic><topic>Biology</topic><topic>Biology and Life Sciences</topic><topic>Biopsy</topic><topic>Caffeine - pharmacology</topic><topic>Calcium (reticular)</topic><topic>Calcium - metabolism</topic><topic>Calcium 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Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>D'Adamo, Maria Cristina</au><au>Sforna, Luigi</au><au>Visentin, Sergio</au><au>Grottesi, Alessandro</au><au>Servettini, Llenio</au><au>Guglielmi, Luca</au><au>Macchioni, Lara</au><au>Saredi, Simona</au><au>Curcio, Maurizio</au><au>De Nuccio, Chiara</au><au>Hasan, Sonia</au><au>Corazzi, Lanfranco</au><au>Franciolini, Fabio</au><au>Mora, Marina</au><au>Catacuzzeno, Luigi</au><au>Pessia, Mauro</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>A Calsequestrin-1 Mutation Associated with a Skeletal Muscle Disease Alters Sarcoplasmic Ca2+ Release</atitle><jtitle>PloS one</jtitle><addtitle>PLoS One</addtitle><date>2016-05-19</date><risdate>2016</risdate><volume>11</volume><issue>5</issue><spage>e0155516</spage><epage>e0155516</epage><pages>e0155516-e0155516</pages><issn>1932-6203</issn><eissn>1932-6203</eissn><abstract>An autosomal dominant protein aggregate myopathy, characterized by high plasma creatine kinase and calsequestrin-1 (CASQ1) accumulation in skeletal muscle, has been recently associated with a missense mutation in CASQ1 gene. The mutation replaces an evolutionarily-conserved aspartic acid with glycine at position 244 (p.D244G) of CASQ1, the main sarcoplasmic reticulum (SR) Ca2+ binding and storage protein localized at the terminal cisternae of skeletal muscle cells. Here, immunocytochemical analysis of myotubes, differentiated from muscle-derived primary myoblasts, shows that sarcoplasmic vacuolar aggregations positive for CASQ1 are significantly larger in CASQ1-mutated cells than control cells. A strong co-immuno staining of both RyR1 and CASQ1 was also noted in the vacuoles of myotubes and muscle biopsies derived from patients. Electrophysiological recordings and sarcoplasmic Ca2+ measurements provide evidence for less Ca2+ release from the SR of mutated myotubes when compared to that of controls. These findings further clarify the pathogenic nature of the p.D244G variant and point out defects in sarcoplasmic Ca2+ homeostasis as a mechanism underlying this human disease, which could be distinctly classified as "CASQ1-couplonopathy".</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>27196359</pmid><doi>10.1371/journal.pone.0155516</doi><oa>free_for_read</oa></addata></record>
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subjects	Action Potentials Aspartic acid Biochemistry Biology Biology and Life Sciences Biopsy Caffeine - pharmacology Calcium (reticular) Calcium - metabolism Calcium homeostasis Calcium ions Calcium-Binding Proteins - genetics Calsequestrin Cell culture Creatine Creatine kinase Disease Electrophysiology Glycine Growth factors Homeostasis Humans Kinases Medicine Medicine and Health Sciences Missense mutation Mitochondrial Proteins - genetics Models, Molecular Muscle Fibers, Skeletal - metabolism Muscle, Skeletal - metabolism Muscles Muscular Diseases - metabolism Muscular dystrophy Musculoskeletal system Mutation Mutation, Missense Myoblasts Myopathy Myotubes Neuromuscular diseases Neurosciences Patients Penicillin Physical Sciences Physiology Proteins Research and Analysis Methods Ryanodine Receptor Calcium Release Channel - genetics Ryanodine receptors Sarcoplasmic reticulum Sarcoplasmic Reticulum - metabolism Skeletal muscle Vacuoles
title	A Calsequestrin-1 Mutation Associated with a Skeletal Muscle Disease Alters Sarcoplasmic Ca2+ Release
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