Aggregator

Parkinson's disease (PD) and related familial Parkinsonism are defined by motor dysfunction, but the specific upstream molecular causes of these clinical symptoms can vary widely. We hypothesize that these causes converge onto a limited number of core cellular pathways. To investigate this, we created a collection of 24 genetically well-controlled Drosophila models of familial forms of PD and related mono-genic forms of Parkinsonism. Using unbiased behavioral screening and machine learning we...

No abstract

Cellular senescence, originally described as a finite proliferative arrest in cultured somatic cells, has since been recognized as a central mechanism underlying aging and the development of age-associated disorders. The progressive accumulation of senescent cells (SnCs) promotes chronic inflammation through the senescence-associated secretory phenotype (SASP) and circumvents immune-mediated clearance by upregulating pro-survival and immune checkpoint pathways. Early "first-generation"...

A growing body of evidence supports the role of nutrient sensing and metabolism pathways in regulating ageing rate and healthspan, but the diversity of human lifestyles challenges our ability to identify the mechanisms of this age acceleration. Here, we examine how the transition of wild King penguins to zoo husbandry can closely mimic the shift to a Western lifestyle in humans, and shed light on conserved epigenetic changes in responses to sedentary conditions. We show that, just like modern...

Cellular morphology is tightly linked to function, but how subcellular transcript localization contributes remains unclear. Using microglia, the brain's resident macrophages, as a model, we combined multiplexed error-robust fluorescence in situ hybridization with immunohistochemistry to map how morphology and subcellular mRNA localization interact with function in young and aged mouse brains. We show that mRNA spatial organization varies across microglial states and defines distinct localization...

The postmenopausal decrease in estrogen production contributes to a significant increase in the risk of age-related diseases. There is an identified gap in the field regarding the effectiveness of targeted interventions for specific groups of women at increased risk, and whether these interventions can support successful aging and reduce mortality. Data regarding 2239 Caucasian female participants of the PolSenior study aged 65 and over were analyzed. Based on strict criteria, participants were...

CONCLUSIONS: This work establishes a valuable transcriptomic resource for glial GABA-associated ASH neuronal aging and identifies candidate pathways, offering critical molecular insights to dissect age-related neurodegeneration mechanisms and inform potential therapeutic targets.

A physicist and professional dancer takes home the grand prize, and Science awards its first trophy for an AI-assisted dance concept