Search results for "Exercise."

showing 10 items of 3068 documents

Rhodococcus aetherivorans BCP1 as cell factory for the production of intracellular tellurium nanorods under aerobic conditions

2016

Tellurite (TeO3 2−) is recognized as a toxic oxyanion to living organisms. However, mainly anaerobic or facultative-anaerobic microorganisms are able to tolerate and convert TeO3 2− into the less toxic and available form of elemental Tellurium (Te0), producing Te-deposits or Te-nanostructures. The use of TeO3 2−-reducing bacteria can lead to the decontamination of polluted environments and the development of “green-synthesis” methods for the production of nanomaterials. In this study, the tolerance and the consumption of TeO3 2− have been investigated, along with the production and characterization of Te-nanorods by Rhodococcus aetherivorans BCP1 grown under aerobic conditions. Aerobically …

0301 basic medicineMicroorganism030106 microbiologyOxyanionBioengineeringSettore BIO/19 - Microbiologia GeneraleApplied Microbiology and Biotechnology03 medical and health scienceschemistry.chemical_compoundMinimum inhibitory concentrationBiogenic nanostructuresTelluriteRhodococcusFood scienceTellurium nanorodsSettore CHIM/02 - Chimica FisicaNanorods biosynthesisNanotubesbiologyStrain (chemistry)ResearchBiogenic nanostructureNanorods biosynthesiAerobiosiRhodococcus aetherivoranElemental telluriumTellurium nanorodbiology.organism_classificationAerobiosisNanotubeRhodococcus aetherivoranschemistryBiochemistryTelluriumAnaerobic exerciseRhodococcusBacteriaIntracellularRhodococcuBiotechnology
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Influence of middle-distance running on muscular micro RNAs

2018

A specific subset of micro RNAs (miRs), including miR-133 and miR-206, is specifically expressed in muscle tissue, so that they are currently defined as muscular miRs (myomiRs). To further elucidate the role of myomiRs in muscle biology, we measured miR-133a and miR-206 in plasma of 28 middle-age recreational athletes. The study population consisted of 28 middle aged, recreation athletes (11 women and 17 men; mean age, 46 years) who completed a 21.1 km, half-marathon. The plasma concentration of miR-133a and miR-206, the serum concentration of creatine kinase (CK) and high-sensitivity (HS) cardiac troponin T (cTnT), as well as capillary lactate, were measured before and immediately after th…

0301 basic medicineMuscle tissueMalemedicine.medical_specialtyClinical BiochemistryRunning03 medical and health sciencesTroponin complexDistance runningTroponin TInternal medicinemedicineHumansLactic AcidMuscle SkeletalCreatine KinasemiRNAProlonged exercisebiologyepigeneticsexercisemicroRNAepigenetics; exercise; microRNA; miRNA; Running; sport; Athletes; Creatine Kinase; Female; Gene Expression Regulation; Humans; Lactic Acid; Male; MicroRNAs; Middle Aged; Multivariate Analysis; Muscle Skeletal; Physical Endurance; Running; Troponin TGeneral MedicineSkeletalrunning; epigenetics; exercise; miRNA; microRNA; sportMiddle AgedRunning timeMicroRNAs030104 developmental biologyEndocrinologymedicine.anatomical_structureGene Expression RegulationBiological significanceAthletesMultivariate Analysisbiology.proteinPhysical EndurancePopulation studyMuscleCreatine kinaseFemalesport
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Morphological Evidence of Telocytes in Skeletal Muscle Interstitium of Exercised and Sedentary Rodents

2021

Skeletal muscle atrophy, resulting from states of hypokinesis or immobilization, leads to morphological, metabolic, and functional changes within the muscle tissue, a large variety of which are supported by the stromal cells populating the interstitium. Telocytes represent a recently discovered population of stromal cells, which has been increasingly identified in several human organs and appears to participate in sustaining cross-talk, promoting regenerative mechanisms and supporting differentiation of local stem cell niche. The aim of this morphologic study was to investigate the presence of Telocytes in the tibialis anterior muscle of healthy rats undergoing an endurance training protoco…

0301 basic medicineMuscle tissuePathologymedicine.medical_specialtyStromal cellQH301-705.5PopulationMedicine (miscellaneous)telocytesGeneral Biochemistry Genetics and Molecular BiologyArticleCD117CD117; CD34; Exercise; Sedentary behavior; Skeletal muscle; Stem cell niche; Telocytes; Vimentin03 medical and health sciences0302 clinical medicinevimentinTibialis anterior muscleEndurance trainingsedentary behaviorMedicinestem cell nicheBiology (General)skeletal muscleeducationeducation.field_of_studyexercisebusiness.industrySkeletal musclemedicine.diseaseMuscle atrophy030104 developmental biologymedicine.anatomical_structure030220 oncology & carcinogenesisSarcopeniaCD34medicine.symptombusinessBiomedicines
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Lactate as a Metabolite and a Regulator in the Central Nervous System

2016

More than two hundred years after its discovery, lactate still remains an intriguing molecule. Considered for a long time as a waste product of metabolism and the culprit behind muscular fatigue, it was then recognized as an important fuel for many cells. In particular, in the nervous system, it has been proposed that lactate, released by astrocytes in response to neuronal activation, is taken up by neurons, oxidized to pyruvate and used for synthesizing acetyl-CoA to be used for the tricarboxylic acid cycle. More recently, in addition to this metabolic role, the discovery of a specific receptor prompted a reconsideration of its role, and lactate is now seen as a sort of hormone, even invol…

0301 basic medicineNervous systemlactate transporterCentral nervous systemReviewBiologyBlood–brain barrierlactate receptorsNeuroprotectionCatalysislcsh:ChemistryInorganic Chemistry03 medical and health sciences0302 clinical medicineSettore BIO/10 - Biochimicalactate receptormedicineAnimalsHumanslactate transportersPhysical and Theoretical ChemistryReceptorExerciselcsh:QH301-705.5Molecular BiologySpectroscopyOrganic ChemistryNeurodegenerationlactic acidBrainGeneral MedicineMetabolismblood-brain barriermedicine.diseaseComputer Science ApplicationsCitric acid cycle030104 developmental biologymedicine.anatomical_structurelcsh:Biology (General)lcsh:QD1-999Biochemistrybrain metabolismActic acidexercise and lactateEnergy MetabolismNeuroscience030217 neurology & neurosurgerySignal Transductionactic acid; brain metabolism; lactate transporters; blood-brain barrier; lactate receptors; exercise and lactate
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αB-crystallin response to a pro-oxidant non-cytotoxic environment in murine cardiac cells: An "in vitro" and "in vivo" study.

2020

The αB-crystallin (HSPB5) protein is modulated in response to a wide variety of stressors generated by multiple physio-pathological conditions, sustained by reactive oxygen species (ROS) production. In cardiac muscle tissue, this protein regulates various cellular processes, such as protein degradation, apoptosis and the stabilization of cytoskeletal elements. In this work, we studied the role of HSPB5 expression, activation and localization in HL-1 murine cardiomyocytes exposed to pro-oxidant and non-cytotoxic H2O2 concentration, as well as in cardiac tissue isolated from mice following an acute, non-damaging endurance exercise. Our results demonstrated that HSPB5 is the most abundant HSP …

0301 basic medicineOxidative eustressOxidative phosphorylationProtein degradationBiochemistry03 medical and health sciencesMice0302 clinical medicineIn vivoPhysiology (medical)medicineAnimalsCardiac musclePhosphorylationchemistry.chemical_classificationReactive oxygen speciesHSPB5ChemistryCardiac musclealpha-Crystallin B ChainHydrogen PeroxidePro-oxidantEndurance exerciseHSPA1ACell biology030104 developmental biologymedicine.anatomical_structureProteolysisCardiac muscle tissueReactive Oxygen SpeciesOxidation-Reduction030217 neurology & neurosurgeryFree radical biologymedicine
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Substantial fat mass loss reduces low-grade inflammation and induces positive alteration in cardiometabolic factors in normal-weight individuals

2019

AbstractThe accumulation of fat, especially in visceral sites, is a significant risk factor for several chronic diseases with altered cardiometabolic homeostasis. We studied how intensive long-term weight loss and subsequent weight regain affect physiological changes, by longitudinally interrogating the lipid metabolism and white blood cell transcriptomic markers in healthy, normal-weight individuals. The current study examined 42 healthy, young (age: 27.5 ± 4.0 years), normal-weight (body mass index, BMI: 23.4 ± 1.7 kg/m2) female athletes, of which 25 belong to the weight loss and regain group (diet group), and 17 to the control group. Participants were evaluated, and fasting blood samples…

0301 basic medicinePanniculitisPhysiologyPROTEINmarkerslcsh:MedicinebiomarkkeritBody Mass IndexSERUM0302 clinical medicineWeight losslcsh:Scienceaineenvaihdunta2. Zero hungereducation.field_of_studyMultidisciplinarytulehdusCHOLESTEROLOrgan Size3. Good healthmedicine.anatomical_structureAdipose TissueCardiovascular DiseasesBody CompositionMetabolomemedicine.symptomOBESE WOMENBODY-COMPOSITIONPopulationInflammationHDL PARTICLE-SIZEArticle03 medical and health sciencesWhite blood cellmedicineHumansMetabolomicseducationExercisekehonkoostumusbody compositionbusiness.industryBody Weightlcsh:RDISEASE RISKLipid metabolismDietHIGH-RISKREDUCTION030104 developmental biologyPHYSICAL-ACTIVITYmarkkeritinflammation3121 General medicine internal medicine and other clinical medicinelcsh:Q3111 BiomedicinebusinessBody mass indexmetabolismBiomarkers030217 neurology & neurosurgeryHomeostasisLipoproteinScientific Reports
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The Interplay between Genes and Psychosocial Home Environment on Physical Activity

2018

Introduction Genetic factors contribute to individual differences in physical activity, but it remains uncertain whether the magnitude of the genetic effects is modified by variations in home environments. We aimed to examine to what extent the psychosocial home environment in childhood and adolescence modifies the genetic influences on leisure time physical activity in young adulthood. Methods Participants were Finnish twins (N = 3305) who reported their leisure time physical activity at age 24 yr. The psychosocial home environment was assessed by twins at ages 12, 14, and 17 yr, as well as by their parents when the twins were age 12 yr. Gene–environment interaction modeling was performed …

0301 basic medicineParentsDevelopmental psychology0302 clinical medicineSurveys and QuestionnairesOrthopedics and Sports Medicine030212 general & internal medicineLongitudinal StudiesGene–environment interactionta315Childta515Finlandexerciseta3142twinsFamily Relationsgeneettiset tekijätPsychologyPsychosocialfyysinen aktiivisuusinorganic chemicalsAdolescentlongitudinalPhysical activityMEDLINEPhysical Therapy Sports Therapy and Rehabilitationpsykososiaaliset tekijätpitkittäistutkimushome atmospherecomplex mixturesArticle03 medical and health sciencesFamily relationsLeisure ActivitiesHumansExercisechildhoodnuoret aikuisetkaksostutkimusHome environmentExtramuralfungilapsuusequipment and suppliesTwin studykotiympäristökaksoset030104 developmental biologybacteriaGene-Environment Interactionadolescence
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PPARδ Modulation by GW501516: An Unsuccessful Exercise Mimetic.

2017

0301 basic medicinePharmacologyPPARδbusiness.industryPPARδ Exercise MimeticPharmacologymedicine.diseaseGW501516Running03 medical and health sciencesThiazoles030104 developmental biologyModulationMedicinePharmacology (medical)Peroxisome proliferator-activated receptor deltaPPAR deltabusinessExerciseMimeticClinical pharmacology and therapeutics
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Hsp60 in Skeletal Muscle Fiber Biogenesis and Homeostasis: From Physical Exercise to Skeletal Muscle Pathology

2018

Hsp60 is a molecular chaperone classically described as a mitochondrial protein with multiple roles in health and disease, participating to the maintenance of protein homeostasis. It is well known that skeletal muscle is a complex tissue, rich in proteins, that is, subjected to continuous rearrangements, and this homeostasis is affected by many different types of stimuli and stresses. The regular exercise induces specific histological and biochemical adaptations in skeletal muscle fibers, such as hypertrophy and an increase of mitochondria activity and oxidative capacity. The current literature is lacking in information regarding Hsp60 involvement in skeletal muscle fiber biogenesis and reg…

0301 basic medicinePhysical exerciseInflammationReviewMitochondrionMuscle hypertrophy03 medical and health scienceshomeostasisMedicineskeletal musclelcsh:QH301-705.5diseaseexercisebusiness.industryRegeneration (biology)Skeletal musclehomeostasiGeneral MedicineHsp60Cell biology030104 developmental biologymedicine.anatomical_structurelcsh:Biology (General)ageingregenerationmedicine.symptombusinessBiogenesisHomeostasis
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2020

Physical exercise induces acute physiological changes leading to enhanced tissue cross-talk and a liberation of extracellular vesicles (EVs) into the circulation. EVs are cell-derived membranous entities which carry bioactive material, such as proteins and RNA species, and are important mediators of cell-cell-communication. Different types of physical exercise interventions trigger the release of diverse EV subpopulations, which are hypothesized to be involved in physiological adaptation processes leading to health benefits and longevity. Large EVs (“microvesicles” and “microparticles”) are studied frequently in the context of physical exercise using straight forward flow cytometry approach…

0301 basic medicinePhysiologyChemistryPhysical exerciseContext (language use)Forward flowComputational biology030204 cardiovascular system & hematologyHealth benefitsExtracellular vesiclesMicrovesiclesMini review03 medical and health sciences030104 developmental biology0302 clinical medicinePhysiology (medical)Frontiers in Physiology
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