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STING-dependent peripheral inflammaging drives neurodegeneration via extracellular vesicles
All animals age. However, aging is a heterogeneous process, and individual organisms age differently. Moreover, within the same organism, cells or organs do not age at the same speed. For instance, neurodegeneration, a hallmark of aging, generally manifests later than other peripheral aging signs. The genetic determinants of aging are not completely understood. Gain-of-function (GoF) mutations in leucine-rich repeat kinase 2 (LRRK2^(GoF)) are major genetic risk factors for Parkinson's disease...
Distinct contributions of two subpopulations of subthalamic neurons to levodopa-induced dyskinesia
The subthalamic nucleus (STN) is a prominent target for deep-brain stimulation (DBS) in the treatment of levodopa-induced dyskinesia (LID), a common motor complication of Parkinson's disease. However, the precise impact of STN-DBS on LID remains unclear. Here, we investigated the functional roles of two distinct neuronal populations within the STN in regulating LID. In a mouse model of LID, STN neurons projecting to the entopeduncular nucleus (EP) exhibited a U-shaped activation pattern, whereas...
Beyond Cash: Associations Between Social Security Benefits, Healthcare Accessibility, and Psychological Health Among Older Adults in Tanzania
ObjectivesSocial security benefits are associated with better psychological health among older adults in resource-limited settings, yet the mechanisms underlying this association remain underexplored. We examined the role of healthcare accessibility in the relation between social security benefits and psychological health among older adults in Tanzania.MethodsWe analyzed cross-sectional data from a 2024 survey of Tanzanian adults aged 60 and above (n = 2,012) in four geographic zones. We...
STING-dependent peripheral inflammaging drives neurodegeneration via extracellular vesicles
All animals age. However, aging is a heterogeneous process, and individual organisms age differently. Moreover, within the same organism, cells or organs do not age at the same speed. For instance, neurodegeneration, a hallmark of aging, generally manifests later than other peripheral aging signs. The genetic determinants of aging are not completely understood. Gain-of-function (GoF) mutations in leucine-rich repeat kinase 2 (LRRK2^(GoF)) are major genetic risk factors for Parkinson's disease...
A non-catalytic function for RAD18 in sustaining glioblastoma proliferation
The RAD18 (E3) ubiquitin ligase, a key DNA damage tolerance regulator that also functions in DNA double-strand break repair, is overexpressed in the brain cancer glioblastoma. Here, we show that RAD18 promotes glioblastoma cell proliferation in the absence of exogenous damage, independently of its catalytic activity. RAD18 downregulation arrests glioblastoma cells in the G1 phase of the cell cycle, leading to senescence onset, with no apparent increase in DNA damage. We also show that RAD18...
Evolution and development of innate immune memory
Innate immune memory (trained immunity) is mediated by epigenetic and metabolic reprogramming of innate immune cells and hematopoietic progenitors, enabling altered responses to subsequent challenges. Mechanistically conserved across eukaryotes, trained immunity in mammals operates as a dynamically regulated, life-phase-specific system. The demands and constraints on innate immune memory shift across the life span: from tolerogenic programming and maternal immune transfer in fetal and neonatal...
EGR1 Mediates Ursodeoxycholic Acid-Promoted Mitophagy to Prevent Postovulatory Aging of Porcine Oocytes
Postovulatory oocyte aging (POA) is a key factor contributing to the decline in female fertility and the success rate of assisted reproductive technology. Currently, most studies on POA have focused on downstream phenotypes such as mitochondrial dysfunction and oxidative stress, while little is known about its key upstream regulatory factors. Here, we show that the downregulation of transcription factor Early Growth Response 1 (EGR1) is a key upstream event driving porcine oocyte aging....
Relationships between support provision, social cohesion and belonging, and well-being among community-dwelling older people: a longitudinal survey study
CONCLUSIONS: Our study offers a new understanding of how the community environment may influence older people's support behaviors. Findings suggest that social cohesion and social belonging play distinct roles in relation to support provision among older people. Practices aimed at facilitating mutual support and well-being may need to take specific roles of different dimensions of community environment into account.
Interplay of the ENS and Microbiota With Murine Gut Epithelium-Derived Organoids in Aging
The intestine is one of the first organs to show signs of aging, including cellular changes, microbiota shifts, and reduced regenerative capacity. The different components of the gut-such as the epithelium (which is directly exposed to a diverse array of host-microbe interactions), the microbiota itself, and the underlying enteric nervous system-likely contribute to aging in distinct ways. Understanding their individual and interactive roles is key to elucidating the mechanisms of intestinal...
Utilization Patterns Among Heterogeneous Subgroups of Homebound Older Adults: A Latent Class Analysis
CONCLUSIONS: Heterogeneity among the homebound older adult population shapes care needs that in turn influence utilization patterns. Understanding these dynamics is crucial to targeting interventions like home-based primary care to the highest risk groups while tailoring care to individual needs.
Correction: Cognitive synaptopathy: synaptic and dendritic spine dysfunction in age-related cognitive disorders
[This corrects the article DOI: 10.3389/fnagi.2024.1476909.].
Addressing Sexuality With Older People in Primary Care and Hospitals: A Systematic Review of Professional Perceptions and Experiences
Sexuality in older age remains a taboo subject. Little is known about the perceptions and experiences of healthcare professionals when addressing this topic with older adults. This systematic review, registered in PROSPERO, aims to understand the perceptions, practices, and recommendations of healthcare professionals in primary and hospital care regarding the approach to sexuality and sexual health in older people. The 17 selected studies, conducted in six countries, show that physicians and...
Old muscle stem cells can act young again but there’s a catch
Scientists at UCLA discovered a surprising reason aging muscles heal more slowly. In older muscle stem cells, a protein called NDRG1 builds up and acts like a brake, slowing the cells’ ability to jump into repair mode after injury. But there’s a twist: that same protein helps the cells survive the stresses of aging, allowing them to stick around longer.
The real cause of a common stroke may have been missed for decades
Scientists have discovered that a common type of stroke may have a very different cause than doctors once thought. Instead of fatty plaque clogging arteries, the strongest link was found with enlarged and damaged blood vessels deep within the brain. The finding helps explain why standard treatments like aspirin are often less effective and is driving the search for new therapies that target the brain’s tiny blood vessels directly.
Delayed molecular aging, preservation of energy metabolism and enhanced exercise response in exercise-trained human muscle
Therapeutic targeting of the conserved region within the low-complexity domain of TDP-43 is neuroprotective and extends survival in amyotrophic lateral sclerosis mice
Age-related molecular changes that are exercise independent
China boosts prestigious grants for young scientists — will it ease competition?
Scientists stunned as bumble bees solve a classic intelligence test
Bumble bees astonished researchers by inventing a new way to reach a hidden reward, despite never being taught the trick. The discovery adds to growing evidence that these tiny insects are far smarter and more adaptable than once believed.
Scientists discover a protein switch that burns fat and blocks new fat cells
A protein called “Mitch” may hold the key to a new generation of obesity treatments. Researchers found that disabling it in human cells boosts fat burning, increases energy use, and makes it harder for new fat cells to develop. The findings help explain why mice lacking Mitch were leaner, more athletic, and resistant to obesity.