Nature Aging
Targeting dysregulated phago-/auto-lysosomes in Sertoli cells to ameliorate late-onset hypogonadism
The advent of Alzheimer treatments will change the trajectory of human aging
Aging-induced MCPH1 translocation activates necroptosis and impairs hematopoietic stem cell function
Small extracellular vesicles from young plasma reverse age-related functional declines by improving mitochondrial energy metabolism
Targeting aging and age-related diseases with vaccines
Human skeletal muscle aging atlas
FOXP1 is a gatekeeper of cellular senescence with ovarian aging
A conserved complex lipid signature marks human muscle aging and responds to short-term exercise
A lipidome landscape of aging in mice
Spatiotemporal transcriptomic changes of human ovarian aging and the regulatory role of FOXP1
Five biomarkers from one cerebrospinal fluid sample to stage Alzheimer’s disease
Unexpectedly high cardiovascular disease risk in extreme poverty
Drug discovery by AI trained on aging biology
Comparative study in toothed whales sheds light on menopause evolution
Restoration of neuronal progenitors by partial reprogramming in the aged neurogenic niche
Partial reprogramming of the mammalian brain
Integration of polygenic and gut metagenomic risk prediction for common diseases
Proteomics of mouse brain endothelium uncovers dysregulation of vesicular transport pathways during aging
Intensive blood pressure control does not lower risk of cardiac conduction system diseases
Disease staging of Alzheimer’s disease using a CSF-based biomarker model
How long will we live? And how much of that time will comprise a healthy life? What is aging, and can we stop or even reverse the aging process? What is the connection between aging and disease? Can we predict the evolving trends in the aging of human populations and prepare our societies for what has been called the Silver Tsunami? These are some of the important questions that the broad field of aging research is trying to address and that together form one of the Grand Challenges of the twenty-first century. The mission of Nature Aging is to provide a unique multidisciplinary, unifying and highly visible publishing platform for the aging-research community. The journal is highly selective yet broad in its coverage, publishing research from across the entire spectrum of the field, ranging from the basic biology of aging to the impact of aging on society. The journal aims to foster interactions among different areas of this diverse field of research and to promote new and exciting ideas within and beyond the research community, to enable synergy and maximize scientific and societal impact.
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