Search results for "muscle development"

showing 10 items of 24 documents

Does Serum 25-Hydroxyvitamin D Influence Muscle Development during Puberty in Girls? - A 7-Year Longitudinal Study

2013

Vitamin D is well known for its regulatory role in calcium and phosphate homeostasis, but its role in muscle mass and strength during growth remains inconclusive. We explored the association of serum 25-hydroxyvitamin D (25(OH)D) with muscle development in girls from 11 to 18-years old. Whole body lean tissue mass (LMWB), appendicular lean mass (aLM), muscle cross-sectional area at the lower leg (mCSA), maximal voluntary contraction of elbow flexors (MVC elbow) and knee extensors (MVC knee) were assessed in 217 girls aged 10-13 years (at baseline), 215 in 2-year and 226 in 7.5-year follow-up. Serum concentration of 25(OH)D and intact parathyroid hormone (PTH) were analyzed retrospectively a…

medicine.medical_specialtyLongitudinal studyAdolescentlcsh:MedicineParathyroid hormone25-Hydroxyvitamin DMuscle DevelopmentPolymorphism Single NucleotideCalcitriol receptorvitamin D deficiencyInternal medicinemedicineVitamin D and neurologyHumansLongitudinal StudiesMuscle StrengthVitamin Dlcsh:ScienceChildMultidisciplinarybusiness.industrylcsh:RPubertyConfoundinglongitudinal studyta3141murrosikäVitamin D Deficiencymedicine.diseaseEndocrinologyParathyroid HormoneBody CompositionLean body massMenarcheReceptors Calcitriolmuscle developmentlcsh:QCalciumFemalebusinessResearch ArticlePLoS ONE
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The Drosophila Hox gene Ultrabithorax acts both in muscles and motoneurons to orchestrate formation of specific neuromuscular connections

2016

Hox genes are known to specify motoneuron pools in the developing vertebrate spinal cord and to control motoneuronal targeting in several species. However, the mechanisms controlling axial diversification of muscle innervation patterns are still largely unknown. We present data showing that the Drosophila Hox gene Ultrabithorax (Ubx) acts in the late embryo to establish target specificity of ventrally projecting RP motoneurons. In abdominal segments A2 to A7, RP motoneurons innervate the ventrolateral muscles VL1-4, with VL1 and VL2 being innervated in a Wnt4-dependent manner. In Ubx mutants, these motoneurons fail to make correct contacts with muscle VL1, a phenotype partially resembling t…

0301 basic medicineCell typeEmbryo Nonmammaliananimal structuresNeuromuscular JunctionGenes InsectMuscle DevelopmentNeuromuscular junctionAnimals Genetically ModifiedHox genes03 medical and health sciencesWNT4MorphogenesismedicineAnimalsDrosophila ProteinsHox geneWnt Signaling PathwayMolecular BiologyTranscription factorUltrabithoraxHomeodomain ProteinsMotor NeuronsGeneticsbiologyMusclesmusculoskeletal neural and ocular physiologyfungiGenes HomeoboxGene Expression Regulation Developmentalbiology.organism_classificationMuscle innervationSegmental patterningCell biologyMotoneuronsDrosophila melanogaster030104 developmental biologymedicine.anatomical_structurenervous system209embryonic structuresDrosophilaWnt signalling pathwayDrosophila melanogasterDrosophila ProteinTranscription FactorsResearch ArticleDevelopmental BiologyDevelopment
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Aging-associated genes and let-7 microRNAs: a contribution to myogenic program dysregulation in oculopharyngeal muscular dystrophy

2019

Oculopharyngeal muscular dystrophy (OPMD) is a late-onset muscle disease caused by an abnormal (GCN) triplet expansion within the polyadenylate-binding protein nuclear 1 gene and consequent mRNA pr...

0301 basic medicineMaleAgingOculopharyngealMuscle DevelopmentBiochemistryMyoblasts0302 clinical medicine80 and overMuscular DystrophyHMGB1 ProteinPAX7 Transcription FactorCell DifferentiationdifferentiationMiddle AgedCell biologymedicine.anatomical_structureFemaleMyogeninMitogen-Activated Protein KinasesBiotechnologyDifferentiation regeneration skeletal muscleAdultBiologyInclusion BodyOculopharyngeal muscular dystrophy03 medical and health sciencesmicroRNAGeneticsmedicineHumansGenetic Predisposition to Diseasedifferentiation; regeneration; skeletal muscle; Adult; Aged; Aged 80 and over; Aging; Antigens Neoplasm; Cell Differentiation; Female; Gene Expression Regulation; HMGB1 Protein; Humans; Male; MicroRNAs; Middle Aged; Mitogen-Activated Protein Kinases; Muscle Development; Muscular Dystrophy Oculopharyngeal; Myoblasts; Myogenin; Myositis Inclusion Body; PAX7 Transcription Factor; Genetic Predisposition to Diseaseskeletal muscleAntigensMolecular BiologyGeneAgedMessenger RNAMyositisRegeneration (biology)Skeletal musclemedicine.diseaseMicroRNAs030104 developmental biologyMuscle diseaseGene Expression RegulationregenerationNeoplasm030217 neurology & neurosurgery
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Arsenic promotes NF-Κb-mediated fibroblast dysfunction and matrix remodeling to impair muscle stem cell function

2016

Abstract Arsenic is a global health hazard that impacts over 140 million individuals worldwide. Epidemiological studies reveal prominent muscle dysfunction and mobility declines following arsenic exposure; yet, mechanisms underlying such declines are unknown. The objective of this study was to test the novel hypothesis that arsenic drives a maladaptive fibroblast phenotype to promote pathogenic myomatrix remodeling and compromise the muscle stem (satellite) cell (MuSC) niche. Mice were exposed to environmentally relevant levels of arsenic in drinking water before receiving a local muscle injury. Arsenic-exposed muscles displayed pathogenic matrix remodeling, defective myofiber regeneration …

0301 basic medicineMyoblastSatellite Cells Skeletal MuscleCellSkeletal muscleBiologyMuscle DevelopmentArticleMyoblasts03 medical and health sciencesMiceStem CellmedicineAnimalsHumansMyocyteRegenerationFibroblastMuscle stem cellMyofibroblastMyogenesisAnimalStem CellsRegeneration (biology)arsenicNF-kappa BTranscription Factor RelASkeletal muscleGene Expression Regulation DevelopmentalCell BiologyFibroblastsCell biology030104 developmental biologymedicine.anatomical_structureMyogenesiImmunologyFibroblastMolecular MedicineStem cellMyofibroblastHumanSignal TransductionDevelopmental Biology
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Murine muscle engineered from dermal precursors: an in vitro model for skeletal muscle generation, degeneration and fatty infiltration.

2013

Skeletal muscle can be engineered by converting dermal precursors into muscle progenitors and differentiated myocytes. However, the efficiency of muscle development remains relatively low and it is currently unclear if this is due to poor characterization of the myogenic precursors, the protocols used for cell differentiation, or a combination of both. In this study, we characterized myogenic precursors present in murine dermospheres, and evaluated mature myotubes grown in a novel three-dimensional culture system. After 5-7 days of differentiation, we observed isolated, twitching myotubes followed by spontaneous contractions of the entire tissue-engineered muscle construct on an extracellul…

Cellular differentiationSarcoplasmMuscle Fibers SkeletalBiomedical EngineeringMedicine (miscellaneous)BioengineeringBiologyMuscle DevelopmentModels BiologicalArticleExtracellular matrixMiceTissue engineeringSpheroids CellularmedicineMyocyteAnimalsCell ProliferationTissue EngineeringMyogenesisCell growthMusclesSkeletal muscleCell DifferentiationDermisLipidsAcetylcholineBiologia experimentalCell biologyExtracellular Matrixmedicine.anatomical_structureBiochemistryGene Expression RegulationFemaleEnginyeria biomèdicaIon Channel GatingBiomarkers
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Effects of aging and life-long physical training on collagen in slow and fast skeletal muscle in rats. A morphometric and immuno-histochemical study.

1987

Intramuscular collagen in a slow (m. soleus) and a fast (m. rectus femoris) skeletal muscle was studied by biochemical, morphometric, and immunohistochemical methods. Wistar white rats of 1, 4, 10, and 24 months were used as experimental animals. Our aim was to evaluate the effects of life-long physical training (treadmill running, 5 days a week for 1, 3, 9, and 23 months depending on the age attained). The biochemical concentration of collagen was higher in m. soleus than in m. rectus femoris and it increased in youth and in old age in m. soleus. The trained rats had higher concentrations of collagen than the untrained rats at 10 and 24 months. The morphometrically measured area-fractions …

Malemedicine.medical_specialtyAgingHistologyPhysical ExertionConnective tissueFluorescent Antibody TechniqueMuscle DevelopmentPathology and Forensic Medicine03 medical and health sciencesHydroxyprolinechemistry.chemical_compound0302 clinical medicineEndurance trainingInternal medicineMedicineAnimals030304 developmental biologyBasement membrane0303 health sciencesPerimysiumbusiness.industryMusclesSkeletal muscleRats Inbred StrainsCell Biologymusculoskeletal systemEndomysiumRatsHydroxyprolinemedicine.anatomical_structureEndocrinologychemistryImmunohistochemistryCollagenbusiness030217 neurology & neurosurgeryCell and tissue research
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Immunocytochemistry of M-cadherin in mature and regenerating rat muscle

1994

Background: Cadherins are transmembrane proteins mediating calcium-dependent cell–cell adhesion in a cell type-specific manner by means of homophilic binding. M(muscle)-cadherin is a recently detected member of the cadherin family. Methods: We have investigated the localization of M-cadherin innormal and aneurally regenerating skeletal muscle of rat by means of pre-embedding immunocytochemistry. The antibody was directed against the extra-cellular domain of M-cadherin. Results: Myoblasts and myotubes in regenerating muscles tended to be arranged in clusters enclosed by a common basal lamina. Satellite cells of mature muscle fibers were attached to the underlying fiber without separating bas…

MaleImmunocytochemistryBiologyMuscle DevelopmentReference ValuesExtracellularmedicineAnimalsRegenerationMyocyteTissue DistributionRats WistarCellular localizationMyogenesisCadherinMusclesSkeletal muscleCadherinsImmunohistochemistryAgricultural and Biological Sciences (miscellaneous)Molecular biologyRatsCell biologyMicroscopy Electronmedicine.anatomical_structureBasal laminaAnatomyThe Anatomical Record
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M-cadherin and its sisters in development of striated muscle

1999

Cadherins are calcium-dependent, transmembrane intercellular adhesion proteins with morphoregulatory functions in the development and maintenance of tissues. In the development of striated muscle, the expression and function of mainly M-, N-, and R-cadherin has been studied so far. While these three cadherins are expressed in skeletal muscle cells, of these only N-cadherin is expressed in cardiac muscle. In this review, M-, N-, and R-cadherin are discussed as important players in the terminal differentiation and possibly also in the commitment of skeletal muscle cells. Furthermore, reports are described which evaluate the essential role of N-cadherin in the formation of heart tissue.

medicine.medical_specialtyMyofilamentHistologyBiologyMuscle DevelopmentSarcomerePathology and Forensic MedicineEmbryonic and Fetal DevelopmentMiceInternal medicineMyosinmedicineAnimalsHumansMyocyteMuscle SkeletalCardiac muscleGene Expression Regulation DevelopmentalSkeletal muscleCell DifferentiationHeartCell BiologyCadherinsCell biologyEndocrinologymedicine.anatomical_structureITGA7MyofibrilCell and Tissue Research
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Down-regulation of transcription factors AP-1, Sp-1, and NF-kappa B precedes myocyte differentiation.

1996

Terminal differentiation of myocytes involves withdrawal from the cell cycle, induction of myogenin expression, and finally formation of myotubes. To study the factors that regulate the initial phase of muscle differentiation, we analyzed the binding activities of transcription factors AP-1, Sp-1, and NF-kappa B in L6, C2C12, and rhabdomyosarcoma BA-Han-1C cells. Temporal changes in transcription factor binding activities were compared to the activation of myogenin promoter-driven CAT reporter gene and the expression level of myogenin, a master gene of myogenic differentiation. We observed a prominent decrease in the nuclear binding activities of AP-1, Sp-1, and NF-kappa B already 12 to 24 …

Cholera ToxinSp1 Transcription FactorCellular differentiationBiophysicsDown-RegulationBiologyMuscle DevelopmentBiochemistryRetinoblastoma ProteinCell FusionMiceOkadaic AcidTumor Cells CulturedMyocyteAnimalsMuscle SkeletalMolecular BiologyTranscription factorMyogeninCell fusionMyogenesisNF-kappa BCell DifferentiationCell BiologyCell cyclemusculoskeletal systemMolecular biologyRatsUp-RegulationTranscription Factor AP-1MyogeninC2C12Protein BindingBiochemical and biophysical research communications
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Cytoskeletal features in longitudinal and circular smooth muscles during development of the rat portal vein.

1995

Immunohistochemistry of alpha-smooth muscle actin and desmin, two markers of smooth muscle cell differentiation, and electron-microscopic observation of thick filaments of myosin were performed on the media of the developing rat hepatic portal vein to gain insights into the chronology of differentiation of its longitudinal and circular smooth muscles. In accordance with the ultrastructural distribution of thin filaments, staining of alpha-smooth muscle actin is lightly positive in the myoblasts at postnatal day 1 and then extends in probably all muscle cells of the developing vessel. Desmin, which appears later than alpha-smooth muscle actin in the two muscles, is distributed throughout the…

MaleMyofilamentHistologySmooth muscle cell differentiationmacromolecular substancesActininBiologyMyosinsMuscle DevelopmentSarcomereMuscle Smooth VascularPathology and Forensic MedicineDesminMyosinMyocyteAnimalsRats WistarCytoskeletonPortal VeinGene Expression Regulation DevelopmentalCell BiologyAnatomyActinsRatsMicroscopy ElectronDesminFemaleMyofibrilCell and tissue research
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