UCLA scientists reverse liver damage in mice by removing zombie cells

16. April 2026

Von KI berichtet

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.

UCLA scientists uncovered a population of senescent macrophages marked by p21 and TREM2 proteins that build up in the livers of older mice and those with high cholesterol. In young mice, only about 5% of liver macrophages showed this signature, rising to 60-80% in older animals, correlating with increased inflammation. Anthony Covarrubias, senior author and a UCLA professor, compared these cells to stalled cars causing widespread disruption in tissues despite their rarity. 'Just one stalled car can back up traffic for miles,' Covarrubias said. 'Now imagine five or ten of them slowly accumulating.'

UCSF study links iron-associated protein FTL1 to age-related memory decline in mice

5. April 2026 Von KI berichtet Bild generiert von KI Fakten geprüft

Researchers at the University of California, San Francisco report that higher levels of the iron-associated protein FTL1 in the hippocampus of older mice are tied to weaker neural connections and worse performance on cognitive tests. In the experiments, reducing FTL1 in older mice was associated with increased neuronal connectivity and improved memory performance, findings published in Nature Aging.

Scientists map aging across 21 mouse organs with 7 million cells

Researchers at The Rockefeller University have created a detailed cellular atlas of aging by analyzing nearly 7 million cells from 21 organs in mice. The study reveals that aging begins earlier than previously thought and occurs in a coordinated manner throughout the body. Findings highlight differences between males and females, along with potential targets for anti-aging therapies.

UCLA study uncovers protein's trade-off in aging muscle repair

24. Februar 2026 Von KI berichtet

Researchers at UCLA have identified a protein that slows muscle repair in aging but enhances cell survival in mice. Blocking the protein improved healing speed in older mice, though it reduced long-term stem cell resilience. The findings suggest aging involves survival strategies rather than mere decline.

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Scientists identify body's natural off switch for inflammation

Researchers at University College London have discovered how the body naturally shuts down inflammation using fat-derived molecules called epoxy-oxylipins. These molecules prevent the buildup of immune cells linked to chronic diseases like arthritis and heart disease. A study involving a drug that boosts these molecules showed faster pain relief and reduced harmful immune activity.

Gut compound indole protects offspring from fatty liver disease

8. Februar 2026 Von KI berichtet

Researchers at the University of Oklahoma have discovered that a compound produced by healthy gut bacteria can reduce the risk of fatty liver disease in the offspring of mice fed a high-fat, high-sugar diet during pregnancy and nursing. The compound, indole, derived from breaking down the amino acid tryptophan, improved liver health, blood sugar levels, and weight management in the young mice. This finding highlights the role of the maternal microbiome in preventing metabolic disorders like MASLD in children.

Freitag, 10. April 2026, 19:59 Uhr