In a significant advancement in the field of biochemistry, scientists at BTI and Cornell University have uncovered new insights into a family of metabolites, acylspermidines, that could change how we understand aging and fight diseases.
The study, recently , presents an unexpected connection between spermidine, a long-known compound present in all living cells, and sirtuins, an enzyme family that regulates many life-essential functions.
Sirtuins have been the subject of significant attention over the past two decades. Recent studies indicate that sirtuins play a crucial role in various age-related diseases. As a result, there is growing interest in the link between sirtuins and aging, making them a promising target for therapeutic interventions aimed at improving health span and longevity.
“We were excited to uncover this unexpected branch of cellular metabolism related to sirtuins,” said lead author , a professor at BTI and professor of chemistry and chemical biology in the College of Arts and Sciences. “Discovering these previously uncharacterized spermidine derivatives provides insight into the inner workings of this critical pathway and brings us a step closer to understanding the physiological functions of mitochondrial sirtuins.”