longevity Stories

Review directly covers dietary restriction mechanisms in aging and longevity, a central topic in the field.

Dihydromyricetin is identified as a senolytic targeting senescent cells via PRDX2 to alleviate age-related diseases, directly relevant to senolytics research.

Compares 14 aging biomarkers and identifies epigenetic pace of aging as the strongest mortality predictor, directly advancing aging biology measurement.

Fight Aging! newsletter aggregates the week's key longevity industry and aging research news in one place.

ARPA-H funding deployment for aging-related clinical trials signals significant institutional investment in translating longevity research to medicine.

ARPA-H funding directed toward clinical trials for aging-related interventions signals significant institutional momentum in longevity medicine.

Review of dietary restriction mechanisms in aging and longevity directly covers a core topic in the field.

Urolithin A mitophagy activation timing study shows prevention but not reversal of age-related cognitive impairment, a significant finding for longevity intervention strategy.

Microbiome depletion reversing brain aging features in aged mice is a significant finding for gut-brain aging axis and potential geroprotective interventions.

Microbiome depletion reversing brain aging hallmarks in mice is a significant mechanistic longevity finding.

ARPA-H funding clinical trials targeting aging signals growing institutional investment and translational momentum in longevity medicine.

This consortium paper directly advances clinical translation of senolytics and senotherapeutics by developing biomarkers, a significant development for the aging field.

ARPA-H clinical trial funding directly advancing aging as a medical condition represents a significant institutional development for longevity research translation.

Comprehensive review of caloric restriction mechanisms in slowing aging directly addresses a core longevity intervention.

Research linking polyploidy to a distinct form of cellular senescence advances mechanistic understanding of a key aging hallmark.

Research on distinct chromatin/heterochromatin structure in centenarian immune cells sheds light on epigenetic mechanisms underlying exceptional longevity.

cGAS-STING pathway activated by escaped mitochondrial DNA is identified as a key driver of age-related neuroinflammation, a significant longevity-relevant mechanism.

Comprehensive review of caloric restriction mechanisms in aging is a core longevity topic.

Analysis of polyploidy's role in cellular senescence is highly relevant to senescence research in aging biology.

Fight Aging analysis of clonal hematopoiesis and somatic mosaicism as drivers of degenerative aging is directly on-topic.

Research on gut microbiome changes driving age-related barrier dysfunction is directly relevant to aging biology mechanisms.

Fight Aging weekly newsletter aggregates longevity and aging research news directly relevant to the topic.

Epidemiological assessment of dietary choices on lifespan using UK Biobank data is directly relevant to longevity research.

Directly examines lifestyle factors and epigenetic aging clock associations in a longitudinal human cohort, highly relevant to aging biology.

Fenofibrate is shown to reverse aging hallmarks via mitochondrial and lipid metabolism pathways, representing a significant geroprotective drug candidate.

Reviews inflammaging mechanisms in aging liver disease and potential therapeutic interventions, directly relevant to aging biology.

Directly reviews caloric restriction mechanisms for slowing aging and extending lifespan, a core longevity biology topic.

Directly reviews molecular evolution of animal aging, a foundational topic in longevity biology.

Examines lifestyle factors and DNA methylation aging clocks longitudinally, directly relevant to epigenetic aging measurement and modulation.

Argues the aging brain is the key bottleneck for longevity extension, directly on-topic for lifespan and healthspan research priorities.

Directly reviews mechanisms of caloric restriction in slowing aging, a core longevity topic.

Directly addresses cellular senescence mechanisms, a core topic in aging biology and senolytics research.

Directly addresses molecular evolution of animal aging, core to longevity research.

Analyzes effects of lifespan-extending treatments on mortality distribution, directly relevant to longevity intervention research.

Argues the brain limits overall longevity, directly relevant to aging biology and lifespan extension strategy.

Phase 2b clinical trial of stem cell therapy (laromestrocel) for aging frailty directly addresses longevity intervention in humans.

Directly reviews senolytics combined with exercise as interventions for muscle rejuvenation, core to the longevity topic.

Argues the aging brain is the primary bottleneck to extending human longevity, core to lifespan extension research.

Links mitochondrial distribution to autophagy dysfunction in aging neurons, directly relevant to mitochondrial aging biology.

Weekly Fight Aging! newsletter aggregating news on aging research and longevity interventions, highly on-topic.

Introduces brainspan as a healthspan concept for the aging brain, directly relevant to longevity and functional aging research.

Examines age-related loss of non-regenerating kidney podocytes, directly relevant to cellular aging mechanisms.

Identifies Ube2g1 as a mechanism in hematopoietic stem cell aging, relevant to immune aging and longevity research.

Directly examines biological age and immunosenescence in centenarians, highly relevant to aging biology and extreme longevity research.

Translational study of mitochondria-targeted antioxidant supplementation to improve physical function with ageing directly addresses aging interventions.

Fisetin, a known senolytic compound, is shown to modulate senescent cells in skin and improve wound healing in diabetic mice, directly relevant to senolytics research.

Partial epigenetic reprogramming via Yamanaka factors in aged mouse neurons restoring cognitive function is directly on-topic for epigenetic reprogramming and longevity research.

Corylin extends lifespan in C. elegans via DAF-16/SKN-1 autophagy-mitochondrial pathways, directly relevant to longevity biology and lifespan extension research.

Dietary restriction-induced longevity and muscle rejuvenation in killifish with sex-specific differences directly addresses caloric restriction and aging biology.

Reports the first FDA-approved human clinical trial of partial epigenetic reprogramming for longevity, a landmark development directly on-topic.

MIT Technology Review reports on the imminent first human trial of epigenetic reprogramming as a rejuvenation method, a landmark longevity development.

Directly covers epigenetic partial reprogramming using Yamanaka factors to restore youthful function in aged mouse neurons, a core longevity research area.

Fight Aging! newsletter aggregates current longevity research news and commentary directly covering the topic domain.

Partial epigenetic reprogramming of neurons restoring cognitive function in aged mice is a core longevity/rejuvenation research finding.

Identifies blood transcriptional signatures associated with age and survival in longevity-focused cohort studies, directly relevant to aging biomarkers.

Epigenetic clocks of biological aging predict incident cognitive impairment and dementia in a large women's cohort, linking aging biomarkers to neurodegeneration.