Gene profiling of embryonic skeletal muscle lacking type I ryanodine receptor Ca(2+) release channel

In mature skeletal muscle, the intracellular Ca(2+) concentration rises dramatically upon membrane depolarization, constituting the link between excitation and contraction. This process requires Ca(2+) release from the sarcoplasmic reticulum via the type 1 ryanodine receptor (RYR1). However, RYR1�...

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Veröffentlicht in:	Scientific reports 2016-02, Vol.6, p.20050-20050
Hauptverfasser:	Filipova, Dilyana, Walter, Anna M, Gaspar, John A, Brunn, Anna, Linde, Nina F, Ardestani, Mostafa A, Deckert, Martina, Hescheler, Jürgen, Pfitzer, Gabriele, Sachinidis, Agapios, Papadopoulos, Symeon
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Schlagworte:	Animals Calcium Signaling Embryo, Mammalian - metabolism Gene Expression Profiling Gene Expression Regulation, Developmental Mice Mice, Knockout Muscle Development Muscle Proteins - biosynthesis Muscle Proteins - genetics Muscle, Skeletal - metabolism Oligonucleotide Array Sequence Analysis Ryanodine Receptor Calcium Release Channel - deficiency
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creator	Filipova, Dilyana Walter, Anna M Gaspar, John A Brunn, Anna Linde, Nina F Ardestani, Mostafa A Deckert, Martina Hescheler, Jürgen Pfitzer, Gabriele Sachinidis, Agapios Papadopoulos, Symeon
description	In mature skeletal muscle, the intracellular Ca(2+) concentration rises dramatically upon membrane depolarization, constituting the link between excitation and contraction. This process requires Ca(2+) release from the sarcoplasmic reticulum via the type 1 ryanodine receptor (RYR1). However, RYR1's potential roles in muscle development remain obscure. We used an established RyR1- null mouse model, dyspedic, to investigate the effects of the absence of a functional RYR1 and, consequently, the lack of RyR1-mediated Ca(2+) signaling, during embryogenesis. Homozygous dyspedic mice die after birth and display small limbs and abnormal skeletal muscle organization. Skeletal muscles from front and hind limbs of dyspedic fetuses (day E18.5) were subjected to microarray analyses, revealing 318 differentially expressed genes. We observed altered expression of multiple transcription factors and members of key signaling pathways. Differential regulation was also observed for genes encoding contractile as well as muscle-specific structural proteins. Additional qRT-PCR analysis revealed altered mRNA levels of the canonical muscle regulatory factors Six1, Six4, Pax7, MyoD, MyoG and MRF4 in mutant muscle, which is in line with the severe developmental retardation seen in dyspedic muscle histology analyses. Taken together, these findings suggest an important non-contractile role of RyR1 or RYR1-mediated Ca(2+) signaling during muscle organ development.
doi_str_mv	10.1038/srep20050
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This process requires Ca(2+) release from the sarcoplasmic reticulum via the type 1 ryanodine receptor (RYR1). However, RYR1's potential roles in muscle development remain obscure. We used an established RyR1- null mouse model, dyspedic, to investigate the effects of the absence of a functional RYR1 and, consequently, the lack of RyR1-mediated Ca(2+) signaling, during embryogenesis. Homozygous dyspedic mice die after birth and display small limbs and abnormal skeletal muscle organization. Skeletal muscles from front and hind limbs of dyspedic fetuses (day E18.5) were subjected to microarray analyses, revealing 318 differentially expressed genes. We observed altered expression of multiple transcription factors and members of key signaling pathways. Differential regulation was also observed for genes encoding contractile as well as muscle-specific structural proteins. Additional qRT-PCR analysis revealed altered mRNA levels of the canonical muscle regulatory factors Six1, Six4, Pax7, MyoD, MyoG and MRF4 in mutant muscle, which is in line with the severe developmental retardation seen in dyspedic muscle histology analyses. 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This process requires Ca(2+) release from the sarcoplasmic reticulum via the type 1 ryanodine receptor (RYR1). However, RYR1's potential roles in muscle development remain obscure. We used an established RyR1- null mouse model, dyspedic, to investigate the effects of the absence of a functional RYR1 and, consequently, the lack of RyR1-mediated Ca(2+) signaling, during embryogenesis. Homozygous dyspedic mice die after birth and display small limbs and abnormal skeletal muscle organization. Skeletal muscles from front and hind limbs of dyspedic fetuses (day E18.5) were subjected to microarray analyses, revealing 318 differentially expressed genes. We observed altered expression of multiple transcription factors and members of key signaling pathways. Differential regulation was also observed for genes encoding contractile as well as muscle-specific structural proteins. Additional qRT-PCR analysis revealed altered mRNA levels of the canonical muscle regulatory factors Six1, Six4, Pax7, MyoD, MyoG and MRF4 in mutant muscle, which is in line with the severe developmental retardation seen in dyspedic muscle histology analyses. 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Additional qRT-PCR analysis revealed altered mRNA levels of the canonical muscle regulatory factors Six1, Six4, Pax7, MyoD, MyoG and MRF4 in mutant muscle, which is in line with the severe developmental retardation seen in dyspedic muscle histology analyses. Taken together, these findings suggest an important non-contractile role of RyR1 or RYR1-mediated Ca(2+) signaling during muscle organ development.</abstract><cop>England</cop><pmid>26831464</pmid><doi>10.1038/srep20050</doi><tpages>1</tpages></addata></record>
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subjects	Animals Calcium Signaling Embryo, Mammalian - metabolism Gene Expression Profiling Gene Expression Regulation, Developmental Mice Mice, Knockout Muscle Development Muscle Proteins - biosynthesis Muscle Proteins - genetics Muscle, Skeletal - metabolism Oligonucleotide Array Sequence Analysis Ryanodine Receptor Calcium Release Channel - deficiency
title	Gene profiling of embryonic skeletal muscle lacking type I ryanodine receptor Ca(2+) release channel
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