Researchers from Osaka University have discovered that the protein subunit AP2A1 may play a role in the unique structural ...

This research shows that by manipulating just this one protein, scientists could potentially reverse cellular aging – ...

Cellular senescence is a key biological process characterized by cells irreversibly stopping their division, often triggered by stress factors like telomere ...

AP2A1 could serve as a biomarker for aging and a target for therapies aimed at slowing down or even reversing the aging ...

The key to reversing cellular aging may lie in a protein responsible for toggling cells between a "young" and an "old" state.

Proprietary Methodology Shows Potential to Improve Yield, Quality and Function of Cell Derived Therapies BOSTON, MA, UNITED STATES, March 4, 2 ...

ISM001-055 was shown to have attenuated cellular senescence through the suppression of various aging processes, thus showing potential as a senomorphic drug.

Researchers discovered AP2A1, a protein controlling cellular aging. Lower AP2A1 reversed aging effects, while higher levels ...

The following is a summary of “Unveiling a Novel in-vitro Model of Skin Inflamm-Aging: Validation of Terminalia chebula ...

A new pilot study known as STAMINA (Senolytics To Alleviate Mobility Issues and Neurological Impairments in Aging), that ...