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This study explores the effects of young blood plasma on aging at the epigenetic level in rats, specifically examining whether plasma treatment can alter the epigenetic clock, a key molecular biomarker of aging. This study examines the effects of heterochronic blood exchange (the transfer of blood between young and old mice) on tissue rejuvenation, without the sharing of organs as seen in heterochronic parabiosis. Researchers found that blood exchange affected tissues within days and produced different results compared to parabiosis.

Key findings include:

• Old blood had a stronger inhibitory effect on young tissues than the rejuvenating effect of young blood on old tissues.
• The negative effects of old blood were especially pronounced in cases of peripheral tissue injury, impacting muscle, liver, and hippocampal brain tissues.
• The study suggests mechanistic roles for factors like B2M and TGF-beta in these outcomes.

The authors conclude that heterochronic blood exchange is a less invasive alternative to parabiosis, allowing for more controlled studies and potentially more immediate applications in human therapies. This approach highlights the detrimental impact of old blood factors, with implications for aging and rejuvenation research.