Scientists at the University of Buffalo have made a breakthrough in the quest to slow or even reverse aging. Their research ...

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

Scientists at Sanford Burnham Prebys and collaborators across the country published findings March 5, 2025, in Nature ...

The research focuses on cellular senescence, a process where cells stop dividing and enter a state associated with chronic inflammation and aging. This cellular state, known as the senescence ...

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

Reproduction is a critical biological imperative. If reproduction falls below replacement level, a population declines—and ultimately disappears.

Our recent work indicates that cellular senescence is a major factor driving expression of IL-1α in vitro and in vivo . A similar relationship holds for epithelial derived IL-8 and stromal FGF2. Thus ...

The following is a summary of "Senescence-specific molecular subtypes stratify the hallmarks of the tumor microenvironment and guide precision medicine in bladder cancer," published in the February ...

A team led by Prof. Wuran Wei from West China Hospital of Sichuan University and Dr. Dechao Feng from the Division of Surgery and Interventional Science at University College London has systematically ...

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