Illustration of a mouse intestine cross-section comparing exosomes in young and old mice for aging research news.
Illustration of a mouse intestine cross-section comparing exosomes in young and old mice for aging research news.
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Study links gut “luminal exosomes” to age-related inflammation and metabolic decline in mice

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Researchers at Marshall University report that microscopic particles found in the gut lumen—known as exosomes—differ between young and old mice and can influence metabolism and gut-barrier function when transferred between animals. The findings, published in the journal Aging Cell, suggest these particles may help drive biological changes associated with aging, though the work is preclinical.

Scientists at the Marshall University Joan C. Edwards School of Medicine studied gut luminal exosomes—microscopic, membrane-bound particles that cells release to communicate by transporting proteins and genetic material.

In experiments described by the team, exosomes isolated from older mice contained molecular signals associated with insulin resistance, inflammation and impaired gut-barrier integrity. When those exosomes were transferred into younger mice, the recipients developed similar metabolic and inflammatory changes.

The researchers also reported a reverse pattern: exosomes collected from young mice and transferred into older mice reduced several aging-related metabolic problems. The authors said the results support the idea that age-related changes in the gut environment may contribute to broader, chronic disease processes linked to aging.

The study’s lead author, Abdelnaby Khalyfa, a professor of biomedical sciences at Marshall University, said the work helps clarify how biological aging may accelerate disease-related pathways and could point to potential targets for future interventions. The researchers emphasized the findings are an early step and do not yet demonstrate a treatment for aging or age-related disease in people.

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Researchers at UCLA have identified senescent immune cells, dubbed 'zombie' cells, that accumulate in aging livers and contribute to fatty liver disease. By eliminating these cells in mice, the team reversed liver damage and reduced body weight, even on an unhealthy diet. The findings, published in Nature Aging, suggest similar mechanisms may drive human liver conditions.

Researchers at Case Western Reserve University report that some gut bacteria can make unusually inflammatory forms of glycogen and that this microbial glycogen can trigger immune activity linked to brain inflammation in models of disease tied to the C9orf72 mutation. In patient stool samples, the team found these glycogen forms more often in ALS and C9orf72-related frontotemporal dementia than in healthy controls, and enzymatically breaking down glycogen in the gut improved outcomes in mice.

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Researchers have shown that rejuvenating muscle stem cells from old mice leads to larger muscle growth and improved recovery after injury. The approach could one day help older people regain strength and mobility. Experiments demonstrated clear benefits in leg function and tissue repair.

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