Aging & Longevity

Aging affects us all, but we still do not know how the process evolves or if we can modulate its pace. This issue of PLOS Biology presents a Collection of articles that explores different aspects of aging, discussing what challenges still need to be overcome.

Intermuscular fat infiltration driven by fibro-adipogenic progenitors contributes to the irreversible progression of sarcopenia and reflects a fate shift associated with altered calcium signaling. Using FAP-based adipogenesis models, structural and biochemical analyses, transcriptomic profiling, and in vivo drug exposure studies, we found that Ca^(2+) influx dyshomeostasis promotes adipogenic commitment by triggering calmodulin remodeling, dissociation of the KCNQ1-CaM-FTO complex, nuclear...

Our post-GWAS functional analysis revealed that cathepsin L (CTSL) is an upstream regulator of CUX1, and it induces p16^(INK4a)-dependent and atherosclerosis-associated senescence by indirectly activating CUX1 transcription in a process that requires its proteolytic activity. This suggests an unidentified transcription regulator between CTSL and CUX1, and CTSL-mediated cleavage of this regulator could transcribe CUX1, inducing senescence. Here, in search of this transcriptional regulator, we...

Aging is a global issue that affects human health and increases disease risk. The traditional concept of the "age gap (AG)," defined as the difference between estimated biological age and an individual's chronological age, has been used for self-monitoring the risk of age-related diseases. However, the current AG does not account for the stratified aging patterns across different stages of chronological age, which may lead to biased or paradoxical interpretations of aging acceleration. To...

CONCLUSION: This study identifies a novel pathological mechanism in age-related MCI: the nuclear accumulation of PANK4 in hippocampal exacerbates cuproptosis susceptibility by specifically impairing ATP7B-dependent copper efflux, leading to copper overload. Astrocyte-specific PANK4 ablation mitigates these effects, highlighting PANK4 as a potential therapeutic target for preventing or treating age-associated cognitive decline.

INTRODUCTION: Parkinson's disease (PD) is characterized by progressive dopaminergic neurodegeneration, neuroinflammation, and emerging evidence of gut microbiota dysbiosis. Although nicotine has been implicated in neuroprotection, whether its enantiomers exert stereoselective effects on the gut-brain axis remains unknown.

Chaperone-mediated autophagy (CMA) is a selective lysosomal pathway essential for proteostasis and stress adaptation that declines with aging and metabolic disease, conditions closely linked to hepatocellular carcinoma (HCC). Using genetically engineered mouse models with systemic, hepatocyte-specific, or T cell-specific deletion of the CMA regulator LAMP2A in an MYC-driven, TP53-deficient HCC context, we demonstrate that CMA exerts cell-type-dependent tumor-suppressive functions....

Speaking more than one language is hypothesized to lead to greater brain resilience in aging and Alzheimer's disease, resulting in a delay in the symptom onset of Alzheimer's disease. While previous research has used structural neuroimaging measures to explore the neural underpinnings of this protective effect, few studies have used functional brain measures. Thus, we used functional connectivity measures of resting-state fMRI data to explore the association between multilingualism and brain...

Aging is characterized by the loss of tissue homeostasis, traditionally captured by the hallmarks of aging, yet how these hallmarks integrate to drive organismal decline remains unresolved. We propose mesenchymal drift, a process in which cells progressively lose lineage identity and adopt mesenchymal features, as a convergent framework that integrates the hallmarks of aging. Accumulating evidence suggests that mesenchymal drift can both arise from and reinforce these hallmarks, forming a...

Glucocorticoids (GCs) are essential endocrine regulators coordinating stress responsiveness, metabolic flexibility, inflammatory resolution, and circadian physiology. While acute GC fluctuations are adaptive, sustained exposure (arising from psychosocial stress, circadian disruption, obesity, chronic inflammation, neoplasms, or steroid therapy) elicits pleiotropic effects that overlap with biological aging. Prolonged GC signaling intersects with multiple hallmarks of aging by altering nutrient...

BACKGROUND: Alzheimer's disease neuropathology, characterised by amyloid β (Aβ) and phosphorylated-tau (p-tau) protein accumulation, has primarily been assessed with biomarkers in clinical samples of older adults. Less is known about plasma biomarkers of Alzheimer's disease neuropathology and their associations with cognitive outcomes in midlife in diverse community-based samples. Our goal was to address these gaps.

BACKGROUND: Tau PET imaging has emerged as a critical biomarker for Alzheimer's disease, informing diagnosis, staging, and therapeutic selection. We investigated whether PET tracer selection alters tau detection.

Adipose tissue and skeletal muscle are metabolically active tissues that play a central role in whole-body energy homeostasis. The functionality of these tissues, and hence cardiometabolic health, relies on adequate adjustments in perfusion reflecting metabolic demands in different physiological conditions. Acute exercise increases skeletal muscle perfusion, and this response can be enhanced by prolonged exercise training. Yet, whether similar responses occur in adipose tissue remains unclear....

Transposable elements (TEs) are implicated in aging and neurodegenerative disorders, but the impact on brain TE RNA dynamics in these phenomena is not fully understood. Therefore, we quantify TE RNA changes in aging postmortem human and mouse brains and in the neurodegenerative disorders Huntington's disease (HD) and Parkinson's disease (PD). We track TE small RNAs (smRNAs) to assess the relationship to TE large RNA (laRNA) expression patterns. Human brain transcriptomes from the BrainSpan Atlas...

Pulmonary aging is characterized by progressive structural and functional decline. Neddylation is recognized as a crucial mechanism for maintaining cellular homeostasis; however, its function in pulmonary aging has not been fully elucidated. In this study, we found that the core neddylation E2 enzyme UBE2M was downregulated in aged lung tissues. Ube2m knockdown mice exhibited premature pulmonary aging, including vascular degeneration and structural disruption. Notably, in the lungs of knockout...

Natural killer/T-cell lymphoma (NKTCL) is an aggressive haematological malignancy with poor prognosis, particularly in patients with relapsed/refractory (R/R) disease. The mechanisms underlying multidrug resistance in NKTCL remain unclear and present an urgent challenge that must be addressed during clinical treatment. Multidrug-resistant NKTCL models were established using adriamycin (ADM), and cellular senescence was confirmed by markers including P16, P21, and senescence-associated...

Mitochondria are increasingly recognized as master regulators of aging, integrating bioenergetics, redox control, stem cell fate, and innate immune signaling. This review synthesizes evidence that mitochondrial dysfunction is not only a hallmark but also an upstream driver of stem cell exhaustion and inflammaging. We discuss how age-associated mitochondrial DNA (mtDNA) mutations and clonal mosaicism impair respiration and reshape metabolite availability, thereby reprogramming long-lived...

Estrogen receptor-positive breast cancer represents a significant proportion of breast cancer brain metastasis but remains understudied. Here we show that FGFR1-amplification, a well-established driver of estrogen receptor-positive breast cancer endocrine resistance, promotes estrogen receptor-positive breast cancer brain metastatic colonization in young and aged female mice, through both canonical FGF2/FGFR1 signaling and non-canonical NCAM1/FGFR1 interactions. Astrocytic FGF2-mediated...

Aging reduces cellular resilience and increases susceptibility to organ injury, notably acute kidney injury (AKI). Ischemia-reperfusion injury (IRI) influences outcomes after kidney transplantation. In animal models, short-term calorie restriction (CR) extends lifespan and protects kidneys from IRI, but translation to patients is limited due to incomplete mechanistic insight. This study examined clinical and molecular effects of short-term CR in living kidney donors. Twelve donors were...

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