Search results for "HOMEOSTASIS"

showing 10 items of 630 documents

Ions channels/transporters and chloroplast regulation.

2015

International audience; Ions play fundamental roles in all living cells and their gradients are often essential to fuel transports, to regulate enzyme activities and to transduce energy within and between cells. Their homeostasis is therefore an essential component of the cell metabolism. Ions must be imported from the extracellular matrix to their final subcellular compartments. Among them, the chloroplast is a particularly interesting example because there, ions not only modulate enzyme activities, but also mediate ATP synthesis and actively participate in the building of the photosynthetic structures by promoting membrane-membrane interaction. In this review, we first provide a comprehen…

0106 biological sciencesChloroplastsArabidopsis thalianaPhysiologyAnion Transport ProteinsArabidopsis01 natural sciencesChloroplast membraneThylakoids03 medical and health sciencesArabidopsis thaliana[SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyPhotosynthesisMolecular BiologyCation Transport Proteins030304 developmental biology0303 health sciencesIon TransportbiologyATP synthaseChemiosmosisArabidopsis ProteinsMembrane Transport ProteinsCell BiologyPlantbiology.organism_classificationCell biologyChloroplastCell metabolismBiochemistryChloroplast envelopeThylakoidProton motive forcebiology.proteinCalciumHomeostasis010606 plant biology & botanyIons trafficking
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Implications of SP-C Oligomerization in Membrane Fragmentation and Pulmonary Surfactant Homeostasis

2021

MembranePulmonary surfactantChemistryBiophysicsBiophysicsFragmentation (cell biology)HomeostasisBiophysical Journal
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Chatting Between the Brain and White Adipose Tissues

2012

Over the past decades, numerous papers have been published demonstrating the importance of the relationships between the brain and white adipose tissues in regard to body weight and metabolism regulation. Indeed the brain mainly via the sympathetic nervous system control body fat mass both by regulating adipocytes metabolism (lipolysis and lipogenesis), secretory activity (leptin and other adipokines) as well as development. In turn fat mass will send information to some brain areas via sensory nerves as well as via changes in metabolic and hormonal signals. Altogether these data are in support of a feedback loop between white adipose tissues and the brain. This crosstalk plays a major role…

medicine.medical_specialtyAutonomic nervous systemEndocrinologyInternal medicineLeptinLipogenesismedicineAdipokineLipolysisAdipose tissueWhite adipose tissueBiologyEnergy homeostasis
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Concept of an extracellular regulation of muscular metabolic rate during heavy exercise in humans by psychophysiological feedback.

1996

Efferent motor signals to skeletal muscles concern not only the space/ time pattern of motion, but also the setting of muscular performance and through this the control of the current metabolic rate. For an optimal adjustment of metabolic rate during heavy exercise-e.g. in athletic competitions-a feedback control system must exist, including a programmer that takes into consideration a finishing point (teleoanticipation). The presented experiments, using Borg's scale, indicate the existence and functioning of a system for optimal adjustment of performance during heavy exercise and the relevance of teleoanticipatory effects. Thus motor learning includes not only somatosensory control, but al…

medicine.medical_treatmentEfferentPhysical ExertionModels PsychologicalSomatosensory systemBiofeedbackModels BiologicalRunningCellular and Molecular NeuroscienceStress PhysiologicalmedicineHomeostasisHumansMuscle SkeletalMolecular BiologySwimmingPharmacologyMotor controlBiofeedback PsychologyCell BiologyTime perceptionMetabolic control analysisTime PerceptionExercise TestMolecular MedicineRegression AnalysisMotor learningPsychologyNeuroscienceCentral governorExperientia
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Extracellular Vesicle-Mediated Cell–Cell Communication in the Nervous System: Focus on Neurological Diseases

2019

Extracellular vesicles (EVs), including exosomes, are membranous particles released by cells into the extracellular space. They are involved in cell differentiation, tissue homeostasis, and organ remodelling in virtually all tissues, including the central nervous system (CNS). They are secreted by a range of cell types and via blood reaching other cells whose functioning they can modify because they transport and deliver active molecules, such as proteins of various types and functions, lipids, DNA, and miRNAs. Since they are relatively easy to isolate, exosomes can be characterized, and their composition elucidated and manipulated by bioengineering techniques. Consequently, exosomes appear…

Nervous systemReviewCell CommunicationTheranostic NanomedicineCatalysilcsh:Chemistry0302 clinical medicineCell–cell interactionlcsh:QH301-705.5Tissue homeostasisSpectroscopyDrug Carriers0303 health sciencesnervous systemCell DifferentiationNeurodegenerative DiseasesComputer Science Applications1707 Computer Vision and Pattern RecognitionGeneral MedicineExtracellular vesicleComputer Science ApplicationsCell biologymedicine.anatomical_structureTheranostics toolExtracellular vesicleextracellular vesiclesneurological diseasesCell signalingCell typecell–cell interactionexosomesBiologyCatalysisInorganic Chemistry03 medical and health sciencesExtracellularmedicineCell-cell interactionHumansPhysical and Theoretical ChemistryMolecular Biology030304 developmental biologytheranostics toolsOrganic ChemistrybiomarkersBiomarkercentral nervous systemMicrovesiclesExosomelcsh:Biology (General)lcsh:QD1-999030217 neurology & neurosurgeryNeurological diseaseInternational Journal of Molecular Sciences
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Compromised Neurotrophic and Angiogenic Regenerative Capability during Tendon Healing in a Rat Model of Type-II Diabetes

2017

Metabolic diseases such as diabetes mellitus type-II (DM-II) may increase the risk of suffering painful connective tissue disorders and tendon ruptures. The pathomechanisms, however, by which diabetes adversely affects connective tissue matrix metabolism and regeneration, still need better definition. Our aim was to study the effect of DM-II on expressional changes of neuro- and angiotrophic mediators and receptors in intact and healing Achilles tendon. The right Achilles tendon was transected in 5 male DM-II Goto-Kakizaki (GK) and 4 age-matched Wistar control rats. The left Achilles tendons were left intact. At week 2 post-injury, NGF, BDNF, TSP, and receptors TrkA, TrkB and Nk1 gene expre…

Male0301 basic medicinePhysiologyGene Expressionlcsh:MedicineSubstance PCardiovascular PhysiologyTendonsEndocrinology0302 clinical medicineNerve Growth FactorMedicine and Health SciencesHomeostasisMedicinelcsh:ScienceMammalsAchilles tendonMultidisciplinarybiologyAnimal ModelsAnatomyReceptors Neurokinin-1musculoskeletal systemTendonmedicine.anatomical_structureExperimental Organism SystemsConnective TissueVertebratesAnatomyResearch ArticleNeurotrophinmedicine.medical_specialtyWistar RatsEndocrine DisordersNeovascularization PhysiologicConnective tissueResearch and Analysis MethodsRodentsAchilles Tendon03 medical and health sciencesModel OrganismsTendon InjuriesInternal medicineTissue RepairDiabetes MellitusGeneticsAnimalsReceptor trkBRats WistarReceptor trkABrain-derived neurotrophic factorWound Healingbusiness.industryBrain-Derived Neurotrophic Factorlcsh:RScleraxisOrganismsBiology and Life SciencesRatsTenomodulinDisease Models AnimalBiological Tissue030104 developmental biologyNerve growth factorEndocrinologyDiabetes Mellitus Type 2Metabolic DisordersAmniotesbiology.proteinlcsh:QAngiogenesisPhysiological Processesbusiness030217 neurology & neurosurgeryDevelopmental BiologyPLOS ONE
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Acute telomerase components depletion triggers oxidative stress as an early event previous to telomeric shortening

2018

Loss of function of dyskerin (DKC1), NOP10 and TIN2 are responsible for different inheritance patterns of Dyskeratosis congenita (DC; ORPHA1775). They are key components of telomerase (DKC1 and NOP10) and shelterin (TIN2), and play an important role in telomere homeostasis. They participate in several fundamental cellular processes by contributing to Dyskeratosis congenita through mechanisms that are not fully understood. Presence of oxidative stress was postulated to result from telomerase ablation. However, the resulting disturbed redox status can promote telomere attrition by generating a vicious circle, which promotes cellular senescence. This fact prompted us to study if acute loss of …

0301 basic medicineAgingTelomeraseTelomere-Binding ProteinsClinical BiochemistryCell Cycle ProteinsBiologymedicine.disease_causeBiochemistryDyskeratosis CongenitaDyskerin03 medical and health sciencesTelomere HomeostasisRibonucleoproteins Small NucleolarmedicineHumanslcsh:QH301-705.5TelomeraseCellular SenescenceTelomere ShorteningRibonucleoproteinlcsh:R5-920TelomeropathiesOrganic ChemistryNuclear ProteinsShelterinmedicine.diseaseMolecular biologyTelomereCell biologyOxidative Stress030104 developmental biologylcsh:Biology (General)DNA damageRNA InterferenceAntioxidantlcsh:Medicine (General)Oxidative stressDyskeratosis congenitaResearch PaperHeLa CellsRedox Biology
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Coincident Activation of Glutamate Receptors Enhances GABAA Receptor-Induced Ionic Plasticity of the Intracellular Cl−-Concentration in Dissociated N…

2019

Massive activation of γ-amino butyric acid A (GABAA) receptors during pathophysiological activity induces an increase in the intracellular Cl−-concentration ([Cl−]i), which is sufficient to render GABAergic responses excitatory. However, to what extent physiological levels of GABAergic activity can influence [Cl−]i is not known. Aim of the present study is to reveal whether moderate activation of GABAA receptors mediates functionally relevant [Cl−]i changes and whether these changes can be augmented by coincident glutamatergic activity. To address these questions, we used whole-cell patch-clamp recordings from cultured cortical neurons [at days in vitro (DIV) 6–22] to determine changes in t…

0301 basic medicinedissociated cell cultureKCC2StimulationGABA(A) receptorsreversal potentiallcsh:RC321-57103 medical and health sciencesCellular and Molecular NeuroscienceGlutamatergicchemistry.chemical_compound0302 clinical medicinerheobaseReversal potentialionic plasticitylcsh:Neurosciences. Biological psychiatry. NeuropsychiatrymouseOriginal ResearchChemistryGABAA receptorGlutamate receptor030104 developmental biologyMuscimolCellular NeuroscienceBiophysicsExcitatory postsynaptic potentialCl−-homeostasisGABAergic030217 neurology & neurosurgeryFrontiers in Cellular Neuroscience
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Identification of a Functional Homolog of the Yeast Copper Homeostasis Gene ATX1 from Arabidopsis1

1998

Abstract A cDNA clone encoding a homolog of the yeast (Saccharomyces cerevisiae) gene Anti-oxidant 1(ATX1) has been identified from Arabidopsis. This gene, referred to as CopperCHaperone(CCH), encodes a protein that is 36% identical to the amino acid sequence of ATX1 and has a 48-amino acid extension at the C-terminal end, which is absent from ATX1 homologs identified in animals. ATX1-deficient yeast (atx1) displayed a loss of high-affinity iron uptake. Expression of CCH in the atx1 strain restored high-affinity iron uptake, demonstrating thatCCH is a functional homolog of ATX1. When overexpressed in yeast lacking the superoxide dismutase geneSOD1, both ATX1 and CCHprotected the cell from t…

endocrine systemDNA ComplementarySaccharomyces cerevisiae ProteinsPhysiologyMolecular Sequence DataSaccharomyces cerevisiaeSOD1ArabidopsisGene ExpressionSaccharomyces cerevisiaePlant ScienceFungal ProteinsGene productSuperoxide dismutaseOzoneCopper Transport ProteinsComplementary DNAArabidopsisGene expressionGeneticsHomeostasisAmino Acid SequenceCation Transport ProteinsBase SequenceSequence Homology Amino AcidbiologyArabidopsis ProteinsGenetic Complementation Testbiology.organism_classificationYeastOxidative StressBiochemistrybiology.proteinCarrier ProteinsCopperResearch ArticlePlant Physiology
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Autism and carnitine: A possible link

2019

Patients with autism spectrum disorders (ASD) present deficits in social interactions and communication, they also show limited and stereotypical patterns of behaviors and interests. The pathophysiological bases of ASD have not been defined yet. Many factors seem to be involved in the onset of this disorder. These include genetic and environmental factors, but autism is not linked to a single origin, only. Autism onset can be connected with various factors such as metabolic disorders: including carnitine deficiency. Carnitine is a derivative of two amino acid lysine and methionine. Carnitine is a cofactor for a large family of enzymes: the carnitine acyltransferases. Through their action th…

0301 basic medicineAutismMetabolic homeostasisBioinformatics03 medical and health scienceschemistry.chemical_compound0302 clinical medicineCarnitinemental disordersmedicineDietary supplementationCarnitineMethioninebusiness.industryCarnitine AcyltransferasesMinireviewsmedicine.diseaseMetabolism disorderMetabolism030104 developmental biologychemistry030220 oncology & carcinogenesisPathophysiological basesNeurodevelopmentalAutismbusinessmedicine.drugWorld Journal of Biological Chemistry
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