Search results for "cellular aging"

showing 6 items of 6 documents

Correlation of Zinc with Oxidative Stress Biomarkers

2015

Hypertension and smoking are related with oxidative stress (OS), which in turn reports on cellular aging. Zinc is an essential element involved in an individual’s physiology. The aim of this study was to evaluate the relation of zinc levels in serum and urine with OS and cellular aging and its effect on the development of hypertension. In a Spanish sample with 1500 individuals, subjects aged 20–59 years were selected, whose zinc intake levels fell within the recommended limits. These individuals were classified according to their smoking habits and hypertensive condition. A positive correlation was found (Pearson’s C = 0.639

AdultMalemedicine.medical_specialtyFarmacologiahypertensionAdolescentCross-sectional studyHealth Toxicology and Mutagenesislcsh:MedicinePhysiologychemistry.chemical_elementUrineZincmedicine.disease_causeArticleYoung Adultchemistry.chemical_compoundRisk FactorsmedicineHumansoxidative stressYoung adultRisk factorCellular SenescenceAgedAged 80 and overGlutathione Disulfidebusiness.industrylcsh:RzincPublic Health Environmental and Occupational HealthMiddle AgedSalut públicaSurgerycellular agingCross-Sectional StudieschemistrySpainGlutathione disulfideFemalebusinessCell agingBiomarkersOxidative stressInternational Journal of Environmental Research and Public Health
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Aging and Cell Aging: An Introduction

2013

Since more than 100 years people are constantly growing older and a further significant increase in life time is expected in the decades to come. A person born today has a high statistical chance to reach the age of 100, to become a centenarian. Since aging is the primary risk factor for many human disorders it is mandatory to understand the aging process and how it affects onset and course of disorders of the elderly. Scientifically the medium life span is discriminated from the maximum life span. While the latter is rather constant at approximately 120 years the medium life span is increasing. But not only the whole organism, also each single cell out of the billions making up our body ha…

GerontologyLife spanbusiness.industryCellular AgingNerve cellsLife expectancyLife timeMedicineCentenarianbusinessCell agingMaximum life span
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Is the Mean Blood Leukocyte Telomere Length a Predictor for Sporadic Thoracic Aortic Aneurysm? Data from a Preliminary Study

2012

Telomeres have been postulated as a universal clock that shortens in parallel with cellular aging. They are specialized DNA-protein structures at the ends of chromosome with remarkable functions--preventing their recognition as double-stranded DNA breaks, protecting their recombination and degradation, and avoiding a DNA damage cellular response. Telomere shortening is currently considered the best aging marker, but is also a predictor for age-related diseases, including cardiovascular diseases. Biological age clearly seems to be a better predictor of vascular risk rather than chronological age. This concept is supported by key assumptions that peripheral blood leukocyte telomere content ac…

MaleAgingPathologymedicine.medical_specialtyThoracicBiological ageVascular riskBiologyBioinformaticsThoracic aortic aneurysmGeneticLeukocytesmedicineHumansSettore MED/05 - Patologia ClinicaAged; Aging; Aortic Aneurysm Thoracic; Case-Control Studies; Cellular Senescence; DNA; DNA Damage; Female; Humans; Leukocytes; Male; Middle Aged; Recombination Genetic; Telomere; Vascular DiseasesVascular DiseasesCellular Senescencevascular ageingAgedRecombination GenetictelomereAortic Aneurysm ThoracicVascular diseaseChromosomeSettore MED/23 - Chirurgia CardiacaDNAMiddle Agedmedicine.diseaseRecombinationPeripheral bloodAortic AneurysmTAATelomereCellular AgingCase-Control StudiesFemaleGeriatrics and GerontologyDNA DamageRejuvenation Research
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Mitochondrial damage in aging and apoptosis.

2002

: Mitochondria are essential to cellular aging, and free radical production by mitochondria is increased with aging. The rate of oxidant production by mitochondria correlates inversely with maximal life span of species. In many species, females live longer than males. We report that mitochondrial oxidant production by females is significantly lower than that of males. However, mitochondria from ovariectomized females have a similar oxidant production as those of males. Thus, gender difference in life span can be explained, at least in part, by different oxidant generation by mitochondria. Administration of antioxidants, such as vitamins C and E, or a Ginkgo biloba extract, protects against …

Malemedicine.medical_specialtyMitochondrial DNAAgingApoptosisMitochondrionGeneral Biochemistry Genetics and Molecular Biologychemistry.chemical_compoundHistory and Philosophy of ScienceInternal medicinemedicineAnimalsSex CharacteristicsbiologyLife spanGinkgo bilobaGeneral NeuroscienceGlutathionebiology.organism_classificationMitochondriaRatsOxidative StressEndocrinologyBiochemistrychemistryApoptosisCellular AgingOvariectomized ratFemaleReactive Oxygen SpeciesAnnals of the New York Academy of Sciences
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Senescence and p130/Rbl2: a new beginning to the end.

2009

Senescence is the process of cellular aging dependent on the normal physiological functions of non-immortalized cells. With increasing data being uncovered in this field, the complex molecular web regulating senescence is gradually being unraveled. Recent studies have suggested two main phases of senescence, the triggering of senescence and the maintenance of senescence. Each has been supported by data implying precise roles for DNA methyltransferases, reactive oxygen species and other factors. We will first summarize the data supporting these claims and then highlight the specific role that we hypothesize that p130/Rbl2 plays in the modulation of the senescence process.

chemistry.chemical_classificationSenescenceReactive oxygen speciesMethyltransferaseRetinoblastoma-Like Protein p130PhysiologyCell Cycle ProteinsCell BiologyBiologyTelomereCell biologychemistryCellular AgingHumansMolecular BiologyCellular SenescenceCell research
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Stress, Professional Lifestyle, and Telomere Biology in Elite Athletes: A Growing Trend in Psychophysiology of Sport

2020

Professional lifestyle and championship period often put a great deal of pressure on athletes, who usually experience highly stressful periods during training for competitions. Recently, biomarkers of cellular aging, telomere length (TL) and telomerase activity (TA), have been considered to investigate the effects of stress and lifestyle factors. Studies in non-athletic populations have shown that stress and poor lifestyle decrease TL and TA. On the other hand, it has been shown that in general, exercise increases TL and its activity, although the underlying mechanisms remained largely unexplored. TL and TA outcomes in elite athletes remain inconclusive and mainly affected by confounding fa…

lcsh:BF1-990telomeraseStress050105 experimental psychologystress03 medical and health sciences0302 clinical medicineStress (linguistics)elite athletesPsychology0501 psychology and cognitive sciencesElite athletesGeneral PsychologytelomerebiologyTelomere biologyAthletes05 social sciencesStressorConfoundingTelomerebiology.organism_classificationlcsh:PsychologyPsychophysiologyElite AthletesCellular AgingPerspectivePsychologycompetition030217 neurology & neurosurgeryClinical psychologyFrontiers in Psychology
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