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myoblast fusion

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https://www.readbyqxmd.com/read/28101909/efficient-transdifferentiation-of-human-dermal-fibroblasts-into-skeletal-muscle
#1
Selwa Mokhtar Boularaoui, Khaled M A Abdel-Raouf, Noaf Salah Ali Alwahab, Megan E Kondash, George A Truskey, Jeremy Choon Meng Teo, Nicolas Christoforou
Skeletal muscle holds significant regenerative potential but is incapable of restoring tissue loss caused due to severe injury, congenital defects, or tumor ablation. Consequently, skeletal muscle models are being developed to study human pathophysiology and regeneration. Their physiological accuracy, however, is hampered by the lack of an easily accessible human cell source that is readily expandable and capable of efficient differentiation. MYOD1, a master gene regulator, induces transdifferentiation of a variety of cell types into skeletal muscle, although inefficiently in human cells...
January 18, 2017: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/28097017/study-of-myoblast-differentiation-using-multi-dimensional-scaffolds-consisting-of-nano-and-micropatterns
#2
Sung Ho Cha, Hyun Jong Lee, Won-Gun Koh
BACKGROUND: The topographical cue is major influence on skeletal muscle cell culture because the structure is highly organized and consists of long parallel bundles of multinucleated myotubes that are formed by differentiation and fusion of myoblast satellite cells. In this technical report, we fabricated a multiscale scaffold using electrospinning and poly (ethylene glycol) (PEG) hydrogel micropatterns to monitor the cell behaviors on nano- and micro-alignment combined scaffolds with different combinations of angles...
2017: Biomaterials Research
https://www.readbyqxmd.com/read/28062562/keep-your-friends-close-cell-cell-contact-and-skeletal-myogenesis
#3
Robert S Krauss, Giselle A Joseph, Aviva J Goel
Development of skeletal muscle is a multistage process that includes lineage commitment of multipotent progenitor cells, differentiation and fusion of myoblasts into multinucleated myofibers, and maturation of myofibers into distinct types. Lineage-specific transcriptional regulation lies at the core of this process, but myogenesis is also regulated by extracellular cues. Some of these cues are initiated by direct cell-cell contact between muscle precursor cells themselves or between muscle precursors and cells of other lineages...
January 6, 2017: Cold Spring Harbor Perspectives in Biology
https://www.readbyqxmd.com/read/28044437/body-mass-index-change-in-gastrointestinal-cancer-and-chronic-obstructive-pulmonary-disease-is-associated-with-dedicator-of-cytokinesis-1
#4
Merry-Lynn Noelle McDonald, Sungho Won, Manuel Mattheisen, Peter J Castaldi, Michael H Cho, Erica Rutten, Megan Hardin, Wai-Ki Yip, Stephen I Rennard, David A Lomas, Emiel F M Wouters, Alvar Agusti, Richard Casaburi, Christoph P Lange, George O'Connor, Craig P Hersh, Edwin K Silverman
BACKGROUND: There have been a number of candidate gene association studies of cancer cachexia-related traits, but no genome-wide association study (GWAS) has been published to date. Cachexia presents in patients with a number of complex traits, including both cancer and COPD. The objective of the current investigation was to search for a shared genetic aetiology for change in body mass index (ΔBMI) among cancer and COPD by using GWAS data in the Framingham Heart Study. METHODS: A linear mixed effects model accounting for age, sex, and change in smoking status was used to calculate ΔBMI in participants over 40 years of age with three consecutive BMI time points (n = 4162)...
January 2, 2017: Journal of Cachexia, Sarcopenia and Muscle
https://www.readbyqxmd.com/read/27965114/myogenic-differentiation-depends-on-the-interplay-of-grb2-and-n-wasp
#5
Payal Mitra, Thirumaran Thanabalu
Myogenesis requires a well-coordinated withdrawal from cell cycle, morphological changes and cell fusion mediated by actin cytoskeleton. Grb2 is an adaptor protein whose central SH2 domain binds to phosphorylated tyrosine residues of activated receptors and activates intracellular signaling pathway, while its N-terminal and C-terminal SH3 domains bind to proline rich proteins such as N-WASP (Neural-Wiskott Aldrich Syndrome Protein). We found that the expression of Grb2 was increased at the beginning of differentiation and remained constant during differentiation in C2C12 myoblasts...
December 10, 2016: Biochimica et Biophysica Acta
https://www.readbyqxmd.com/read/27964750/laminin-521-maintains-differentiation-potential-of-mouse-and-human-satellite-cell-derived-myoblasts-during-long-term-culture-expansion
#6
Christopher M Penton, Vasudeo Badarinarayana, Joy Prisco, Elaine Powers, Mark Pincus, Ronald E Allen, Paul R August
BACKGROUND: Large-scale expansion of myogenic progenitors is necessary to support the development of high-throughput cellular assays in vitro and to advance genetic engineering approaches necessary to develop cellular therapies for rare muscle diseases. However, optimization has not been performed in order to maintain the differentiation capacity of myogenic cells undergoing long-term cell culture. Multiple extracellular matrices have been utilized for myogenic cell studies, but it remains unclear how different matrices influence long-term myogenic activity in culture...
December 13, 2016: Skeletal Muscle
https://www.readbyqxmd.com/read/27938324/analysis-and-quantification-of-in-vitro-myoblast-fusion-using-the-ladd-multiple-stain
#7
Rhys McColl, Mthokozisi Nkosi, Celia Snyman, Carola Niesler
Myoblast fusion, which is essential for muscle development, regeneration, and repair, can be assessed in vitro via the calculation of a fusion index. Traditionally, this requires use of either immunocytochemistry or fluorescently-labeled cytoskeletal staining, followed by microscopy and laborious analysis. The expense and time-consuming nature of the optimization and application of antibody-based techniques such as immunocytochemistry, as well as the need for specialized analytical equipment such as fluorescence microscopes, presents a barrier to the routine analysis of this crucial step during terminal differentiation...
December 1, 2016: BioTechniques
https://www.readbyqxmd.com/read/27920252/group-i-paks-promote-skeletal-myoblast-differentiation-in-vivo-and-in-vitro
#8
Giselle A Joseph, Min Lu, Maria Radu, Jennifer K Lee, Steven J Burden, Jonathan Chernoff, Robert S Krauss
Skeletal myogenesis is regulated by signal transduction, but the factors and mechanisms involved are not well understood. The group I Paks, Pak1 and Pak2, are related protein kinases and direct effectors of Cdc42 and Rac1. Group I Paks are ubiquitously expressed and specifically required for myoblast fusion in Drosophila We report that both Pak1 and Pak2 are activated during mammalian myoblast differentiation. One pathway of activation is initiated by N-cadherin ligation, and involves the cadherin co-receptor Cdo with its downstream effector, Cdc42...
December 5, 2016: Molecular and Cellular Biology
https://www.readbyqxmd.com/read/27911334/matrix-metalloproteinases-and-tissue-inhibitor-of-metalloproteinases-in%C3%A2-inflammation-and-fibrosis-of-skeletal-muscles
#9
Hala S Alameddine, Jennifer E Morgan
In skeletal muscles, levels and activity of Matrix MetalloProteinases (MMPs) and Tissue Inhibitors of MetalloProteinases (TIMPs) have been involved in myoblast migration, fusion and various physiological and pathological remodeling situations including neuromuscular diseases. This has opened perspectives for the use of MMPs' overexpression to improve the efficiency of cell therapy in muscular dystrophies and resolve fibrosis. Alternatively, inhibition of individual MMPs in animal models of muscular dystrophies has provided evidence of beneficial, dual or adverse effects on muscle morphology or function...
November 29, 2016: Journal of Neuromuscular Diseases
https://www.readbyqxmd.com/read/27906069/the-beneficial-role-of-proteolysis-in-skeletal-muscle-growth-and-stress-adaptation
#10
REVIEW
Ryan A V Bell, Mohammad Al-Khalaf, Lynn A Megeney
Muscle atrophy derived from excessive proteolysis is a hallmark of numerous disease conditions. Accordingly, the negative consequences of skeletal muscle protein breakdown often overshadow the critical nature of proteolytic systems in maintaining normal cellular function. Here, we discuss the major cellular proteolysis machinery-the ubiquitin/proteosome system, the autophagy/lysosomal system, and caspase-mediated protein cleavage-and the critical role of these protein machines in establishing and preserving muscle health...
April 6, 2016: Skeletal Muscle
https://www.readbyqxmd.com/read/27836432/macrophage-ppar%C3%AE-a-lipid-activated-transcription-factor-controls-the-growth-factor-gdf3-and-skeletal-muscle-regeneration
#11
Tamas Varga, Rémi Mounier, Andreas Patsalos, Péter Gogolák, Matthew Peloquin, Attila Horvath, Attila Pap, Bence Daniel, Gergely Nagy, Eva Pintye, Szilárd Poliska, Sylvain Cuvellier, Sabrina Ben Larbi, Brian E Sansbury, Matthew Spite, Chester W Brown, Bénédicte Chazaud, Laszlo Nagy
Tissue regeneration requires inflammatory and reparatory activity of macrophages. Macrophages detect and eliminate the damaged tissue and subsequently promote regeneration. This dichotomy requires the switch of effector functions of macrophages coordinated with other cell types inside the injured tissue. The gene regulatory events supporting the sensory and effector functions of macrophages involved in tissue repair are not well understood. Here we show that the lipid activated transcription factor, PPARγ, is required for proper skeletal muscle regeneration, acting in repair macrophages...
November 15, 2016: Immunity
https://www.readbyqxmd.com/read/27825154/growth-factors-for-skeletal-muscle-tissue-engineering
#12
Brian C Syverud, Keith W VanDusen, Lisa M Larkin
Tissue-engineered skeletal muscle holds promise as a source of graft tissue for repair of volumetric muscle loss and as a model system for pharmaceutical testing. To reach this potential, engineered tissues must advance past the neonatal phenotype that characterizes the current state of the art. In this review, we describe native skeletal muscle development and identify important growth factors controlling this process. By comparing in vivo myogenesis to in vitro satellite cell cultures and tissue engineering approaches, several key similarities and differences that may potentially advance tissue-engineered skeletal muscle were identified...
2016: Cells, Tissues, Organs
https://www.readbyqxmd.com/read/27825107/in-vivo-myomaker-mediated-heterologous-fusion-and-nuclear-reprogramming
#13
Yasuyuki Mitani, Ronald J Vagnozzi, Douglas P Millay
Knowledge regarding cellular fusion and nuclear reprogramming may aid in cell therapy strategies for skeletal muscle diseases. An issue with cell therapy approaches to restore dystrophin expression in muscular dystrophy is obtaining a sufficient quantity of cells that normally fuse with muscle. Here we conferred fusogenic activity without transdifferentiation to multiple non-muscle cell types and tested dystrophin restoration in mouse models of muscular dystrophy. We previously demonstrated that myomaker, a skeletal muscle-specific transmembrane protein necessary for myoblast fusion, is sufficient to fuse 10T 1/2 fibroblasts to myoblasts in vitro...
January 2017: FASEB Journal: Official Publication of the Federation of American Societies for Experimental Biology
https://www.readbyqxmd.com/read/27802164/nuclear-alignment-in-myotubes-requires-centrosome-proteins-recruited-by-nesprin-1
#14
Aude Espigat-Georger, Vyacheslav Dyachuk, Cécile Chemin, Laurent Emorine, Andreas Merdes
Myotubes are syncytial cells generated by fusion of myoblasts. Among the numerous nuclei in myotubes of skeletal muscle fibres, the majority are equidistantly positioned at the periphery, except for clusters of multiple nuclei underneath the motor endplate. The correct positioning of nuclei is thought to be important for muscle function and requires nesprin-1 (also known as SYNE1), a protein of the nuclear envelope. Consistent with this, mice lacking functional nesprin-1 show defective nuclear positioning and present aspects of Emery-Dreifuss muscular dystrophy...
November 15, 2016: Journal of Cell Science
https://www.readbyqxmd.com/read/27801482/expression-of-myogenes-in-longissimus-dorsi-muscle-during-prenatal-development-in-commercial-and-local-piau-pigs
#15
Evelyze Pinheiro Dos Reis, Débora Martins Paixão, Otávio José Bernardes Brustolini, Fabyano Fonseca E Silva, Walmir Silva, Flávio Marcos Gomes de Araújo, Anna Christina de Matos Salim, Guilherme Oliveira, Simone Eliza Facioni Guimarães
This study used qRT-PCR to examine variation in the expression of 13 myogenes during muscle development in four prenatal periods (21, 40, 70 and 90 days post-insemination) in commercial (the three-way Duroc, Landrace and Large-White cross) and local Piau pig breeds that differ in muscle mass. There was no variation in the expression of the CHD8, EID2B, HIF1AN, IKBKB, RSPO3, SOX7 and SUFU genes at the various prenatal ages or between breeds. The MAP2K1 and RBM24 genes showed similar expression between commercial and Piau pigs but greater expression (p < 0...
October 2016: Genetics and Molecular Biology
https://www.readbyqxmd.com/read/27794519/a-novel-fission-independent-role-of-dynamin-related-protein-1-in-cardiac-mitochondrial-respiration
#16
Huiliang Zhang, Pei Wang, Sara Bisetto, Yisang Yoon, Quan Chen, Shey-Shing Sheu, Wang Wang
AIMS: Mitochondria in adult cardiomyocytes exhibit static morphology and infrequent dynamic changes, despite the high abundance of fission and fusion regulatory proteins in the heart. Previous reports have indicated that fusion proteins may bear functions beyond morphology regulation. Here, we investigated the role of fission protein, dynamin-related protein 1 (DRP1), on mitochondrial respiration regulation in adult cardiomyocytes. METHODS AND RESULTS: By using genetic or pharmacological approaches, we manipulated the activity or protein level of fission and fusion proteins and found they mildly influenced mitochondrial morphology in adult rodent cardiomyocytes, which is in contrast to their significant effect in H9C2 cardiac myoblasts...
October 29, 2016: Cardiovascular Research
https://www.readbyqxmd.com/read/27793012/foxo1-a-novel-insight-into-its-molecular-mechanisms-in-the-regulation-of-skeletal-muscle-differentiation-and-fiber-type-specification
#17
REVIEW
Meng Xu, Xiaoling Chen, Daiwen Chen, Bing Yu, Zhiqing Huang
FoxO1, a member of the forkhead transcription factor forkhead box protein O (FoxO) family, is predominantly expressed in most muscle types. FoxO1 is a key regulator of muscle growth, metabolism, cell proliferation and differentiation. In the past two decades, many researches have indicated that FoxO1 is a negative regulator of skeletal muscle differentiation while contrasting opinions consider that FoxO1 is crucial for myoblast fusion. FoxO1 is expressed much higher in fast twitch fiber enriched muscles than in slow muscles and is also closely related to muscle fiber type specification...
October 25, 2016: Oncotarget
https://www.readbyqxmd.com/read/27775651/degree-of-suppression-of-mouse-myoblast-cell-line-c%C3%A2-c12-differentiation-varies-according-to-chondroitin-sulfate-subtype
#18
Katsuhiko Warita, Nana Oshima, Naoko Takeda-Okuda, Jun-Ichi Tamura, Yoshinao Z Hosaka
Chondroitin sulfate (CS), a type of glycosaminoglycan (GAG), is a factor involved in the suppression of myogenic differentiation. CS comprises two repeating sugars and has different subtypes depending on the position and number of bonded sulfate groups. However, the effect of each subtype on myogenic differentiation remains unclear. In this study, we spiked cultures of C₂C12 myoblasts, cells which are capable of undergoing skeletal muscle differentiation, with one of five types of CS (CS-A, -B, -C, -D, or -E) and induced differentiation over a fixed time...
October 21, 2016: Marine Drugs
https://www.readbyqxmd.com/read/27763639/functional-kca1-1-channels-are-crucial-for-regulating-the-proliferation-migration-and-differentiation-of-human-primary-skeletal-myoblasts
#19
Rajeev B Tajhya, Xueyou Hu, Mark R Tanner, Redwan Huq, Natee Kongchan, Joel R Neilson, George G Rodney, Frank T Horrigan, Lubov T Timchenko, Christine Beeton
Myoblasts are mononucleated precursors of myofibers; they persist in mature skeletal muscles for growth and regeneration post injury. During myotonic dystrophy type 1 (DM1), a complex autosomal-dominant neuromuscular disease, the differentiation of skeletal myoblasts into functional myotubes is impaired, resulting in muscle wasting and weakness. The mechanisms leading to this altered differentiation are not fully understood. Here, we demonstrate that the calcium- and voltage-dependent potassium channel, KCa1...
October 20, 2016: Cell Death & Disease
https://www.readbyqxmd.com/read/27748060/developmental-regulation-of-rna-processing-by-rbfox-proteins
#20
REVIEW
John G Conboy
The Rbfox genes encode an ancient family of sequence-specific RNA binding proteins (RBPs) that are critical developmental regulators in multiple tissues including skeletal muscle, cardiac muscle, and brain. The hallmark of Rbfox proteins is a single high-affinity RRM domain, highly conserved from insects to humans, that binds preferentially to UGCAUG motifs at diverse regulatory sites in pre-mRNA introns, mRNA 3'UTRs, and pre-miRNAs hairpin structures. Versatile regulatory circuits operate on Rbfox pre-mRNA and mRNA to ensure proper expression of Rbfox1 protein isoforms, which then act on the broader transcriptome to regulate alternative splicing networks, mRNA stability and translation, and microRNA processing...
October 17, 2016: Wiley Interdisciplinary Reviews. RNA
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