Is Transfusion of Young Blood Essentially a Form of Extracellular Vesicle Therapy?

In this study, we examined the effect of young serum on the cognitive performance of aged mice. We show that repeated infusions with small volumes of young serum significantly improved age-associated memory deficits and this effect was abrogated after the serum was depleted of circulating EVs. RNA-seq analysis of choroid plexus demonstrated effects on genes involved in barrier function and trans-barrier transport. Interestingly, the hippocampal transcriptome demonstrated a significant upregulation of Klotho (Kl) gene, which codes for the longevity protein Klotho, following young serum treatment. Notably this effect was abrogated after serum EV depletion, suggesting that EVs may serve as vehicles for Klotho messages from the periphery to the brain. Given the well-established role of Klotho in cognitive functioning, we performed transcriptional profiling of Klotho knockout (Klko) and Klotho heterozygous (Klhet) mice and found an association with downregulated categories such as transport, exocytosis, and lipid transport, while upregulated genes were associated with microglia. To test if changes in transcriptomes represent transcriptomic rejuvenation, we correlated the transcriptomes of the treated mice to the most recently published chronological aging clocks, which revealed a reversal of transcriptomic aging in the choroid plexus. The results of our study indicate that further evaluation of EVs as vehicles for delivering signals from the periphery to the brain and coord...
Source: Fight Aging! - Category: Research Authors: Tags: Medicine, Biotech, Research Source Type: blogs