The key to reversing cellular aging may lie in a protein responsible for toggling cells between a "young" and an "old" state. This is the conclusion of researchers from the University of Osaka, who ...

To explore this possibility, the researchers examined AP2A1 (Adaptor Protein Complex 2, Alpha 1 Subunit). AP2A1 is a protein that is upregulated in the stress fibers of senescent cells ...

Their work, published in the journal , reveals the key role of a protein, AP2A1, in the senescence process. This discovery paves the way for treatments that could reverse the effects of time on ...

This protein, called AP2A1, could be the key to future treatments that will turn back the body's biological clock and undo the damage caused by old age. As our bodies get older, we build up a ...

To explore this possibility, the researchers examined AP2A1 (Adaptor Protein Complex 2, Alpha 1 Subunit). AP2A1 is a protein that is upregulated in the stress fibers of senescent cells ...

Their work, published in the journal Cellular Signaling, reveals the key role of a protein, AP2A1, in the senescence process. This discovery paves the way for treatments that could reverse the effects ...