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Cell Type-Specific Expression of p16, p21, and p53 Reveals Age-Dependent Glial Senescence in the App(NL-G-F) Mouse Model of Alzheimer's Disease
Cellular senescence, a state of irreversible cell cycle arrest, plays a key role in neurodegenerative diseases, including Alzheimer's disease (AD). While senescent cells are emerging as potential therapeutic targets, the dynamics of their occurrence over time and the specific cell types most affected by AD are still not well understood. This study investigates age- and pathology-dependent changes in senescence markers, specifically p16, p21, and p53, using the amyloidogenic App^(NL-G-F) knock-in...
Acid-Base Dysregulation Links Aging Metabolism to Frailty
Frailty denotes a state of high vulnerability and, as proposed by Fried and colleagues, arises from "energetic collapse" across multiple physiological systems, in which altered energy metabolism undermines resilience. We suggest that dysregulation of acid-base balance represents a critical yet underappreciated mechanism driving this collapse. With aging, cumulative stress burden diminishes the capacity for intracellular and extracellular acid buffering, renal acid excretion and ventilatory...
Cell Type-Specific Expression of p16, p21, and p53 Reveals Age-Dependent Glial Senescence in the App(NL-G-F) Mouse Model of Alzheimer's Disease
Cellular senescence, a state of irreversible cell cycle arrest, plays a key role in neurodegenerative diseases, including Alzheimer's disease (AD). While senescent cells are emerging as potential therapeutic targets, the dynamics of their occurrence over time and the specific cell types most affected by AD are still not well understood. This study investigates age- and pathology-dependent changes in senescence markers, specifically p16, p21, and p53, using the amyloidogenic App^(NL-G-F) knock-in...
Single-Nucleus RNA Sequencing Reveals Muscle Fiber Cell Heterogeneity During Human Skeletal Muscle Aging
Aging impairs skeletal muscle mass and function, but the cell-type-resolved transcriptional states and intercellular signaling changes in human muscle aging remain incompletely mapped. Here, we constructed a single-nucleus RNA sequencing (snRNA-seq) atlas of human vastus lateralis muscle from adult (22-60 years) and elderly (99-101 years) male donors. We identified a comprehensive cellular census and discovered a profound reorganization of the myofiber transcriptional landscape. Aging was...
Clearance of Senescent Cells by BCL(XL)-PROTAC: A Novel Approach to Treat COPD?
Ageing and cellular senescence significantly contribute to the progression of age-related diseases, particularly chronic obstructive pulmonary disease (COPD). Cellular senescence refers to the cessation of cell division in response to stress and damage. While senescent cells remain metabolically active, they secrete pro-inflammatory factors that drive disease progression. Senolytic therapies aim to selectively target and eliminate these senescent cells by inducing their apoptosis. This study...
Frailty and Brain Myelin Across Adulthood: Multimodal MRI Insights From the BLSA
Frailty is a state of reduced physiological resilience and increased vulnerability to adverse health outcomes, but its neurobiological mechanisms across the adult lifespan remain unclear. Emerging evidence suggests that white matter (WM) alterations may accompany frailty, but previous neuroimaging studies have focused mostly on older adults and used nonspecific MRI markers. This study investigates whether systemic frailty, quantified using a Frailty Index (FI), is associated with WM myelin...
Single-Cell Profiling Reveals Distinct Immune Communication Networks in Centenarians and Elderly Controls
Aberrant cell-cell communication (CCC) is a recognized hallmark of aging, yet comprehensive analyses of immune CCC-particularly in the context of healthy aging-remain limited. Using single-cell transcriptomics of PBMCs from centenarians (CEN), their offspring (CO), and elderly controls, we found that immune CCC in controls was characterized by myeloid-derived, self-amplifying SASP signals associated with immunosenescence and effector immune cell (EIC) exhaustion. In contrast, healthy-aging...
Bidirectional associations between biological aging, cardiovascular health, and cardiovascular risk: findings from the INSPIRE-T lifespan cohort
Chronological age is a common and non-modifiable factor for chronic disease, but does not fully explain age-related changes. Biological clocks have been developed to explore biological aging mechanisms. They could help identify protective factors against accelerated aging and associated diseases. We aim to assess the association between reduced epigenetic or inflammatory aging and ideal cardiovascular health or cardiovascular risk. We conducted a cross-sectional analysis of participants from the...
Nuclear speckle dynamics are controlled by polyphosphate inhibition of CLK proteins
Nuclear speckles (NS) are membraneless nuclear organelles that act as critical hubs for pre-messenger RNA splicing. Defects in splicing are linked to several human diseases, including cancer, Alzheimer's disease, and dystrophies. While CLK kinases regulate the mobilization of splicing factors from NS, the molecular mechanisms underlying NS assembly and dissolution remain unclear. Using an adaptation of the Biotinylation by Antibody Recognition technique, we identified polyphosphate (polyP) as a...
Trophoblast aging driven by IL33 deficiency elevates recurrent pregnancy loss risk through SNAP29 lactylation-mediated autophagy impairment
Emerging evidence implicates premature placental senescence as a central driver of pregnancy complications, though its underlying mechanisms remain elusive. Here, we report marked downregulation of IL33 (interleukin 33) in villi from unexplained recurrent pregnancy loss (URPL) patients, concomitant with elevated trophoblast senescence. More importantly, il33 knockout mice exhibited placental senescence and impaired trophoblast invasion. Mechanistically, senescent trophoblasts displayed metabolic...
RPA hyperphosphorylation hinders the resolution of R-loops and G-quadruplex-associated R-loops during RAS-driven senescence
Activation of RAS oncogenes in normal cells triggers a stable cell cycle arrest known as RAS-induced senescence (RIS), marked by persistent DNA damage and extensive epigenetic remodeling. Although bypassing RIS promotes tumorigenesis, the molecular mechanisms underlying this transition remain poorly defined. Here, we demonstrate that RIS cells accumulate high levels of R-loops-three-stranded DNA-RNA hybrids-that frequently co-localize with DNA G-quadruplexes formed on the non-template DNA...
Subtle-seq reveals frequent ageing-associated chromosome fragmentation on nucleosome core DNA
Telomere healing seals the broken ends of DNA double-strand breaks by adding de novo telomeres. In the ciliate Paramecium, telomere healing results in chromosome fragmentation, which ultimately leads to clonal ageing. Despite its importance, where and how chromosomes fragment and undergo telomere healing, and to what extent sequence preferences exist, remain poorly understood. To investigate chromosome fragmentation, we enriched for telomere-containing sequences from the complex, highly...