Psilocybin Shows Promise as Anti-Aging Therapy

Summary: Psilocybin, the active compound derived from psychedelic mushrooms, significantly delayed cellular aging and extended lifespan in a preclinical study. Researchers observed a 50% increase in the lifespan of human skin and lung cells and a 30% increase in survival in aged mice treated with psilocybin.

The compound appeared to reduce oxidative stress, preserve telomeres, and improve DNA repair, all key to slowing aging. These findings suggest psilocybin may one day enhance not just lifespan but also quality of life in aging populations.

Key Facts:

  • Cellular Longevity: Psilocybin extended the lifespan of human cells by over 50%.
  • Improved Aging in Mice: Treated aged mice lived 30% longer with healthier physical traits.
  • Mechanisms Identified: Benefits linked to reduced stress, DNA repair, and telomere preservation.

Source: Emory University

As revenues from the anti-aging market– riddled with hope and thousands of supplements–– surged past $500 million last year, Emory University researchers identified a compound that actively delays aging in cells and organisms. 

A newly published study in Nature Partner Journals’ Aging demonstrates that psilocin, a byproduct of consuming psilocybin, the active ingredient in psychedelic mushrooms, extended the cellular lifespan of human skin and lung cells by more than 50%. 

In parallel, researchers also conducted the first long-term in vivo study evaluating the systemic effects of psilocybin in aged mice of 19 months, or the equivalent of 60–65 human years. 

Results indicated that the mice that received an initial low dose of psilocybin of 5 mg, followed by a monthly high dose of 15 mg for 10 months, had a 30% increase in survival compared to mice that did not receive any. These mice also displayed healthier physical features, such as improved fur quality, fewer white hairs and hair regrowth. 

While traditionally researched for its mental health benefits, this study suggests that psilocybin impacts multiple hallmarks of aging by reducing oxidative stress, improving DNA repair responses, and preserving telomere length.

Telomeres are the structured ends of a chromosome, protecting it from damage that could lead to the formation of age-related diseases, such as cancer, neurodegeneration, or cardiovascular disease. These foundational processes influence human aging and the onset of these chronic diseases.

The study concludes that psilocybin may have the potential to revolutionize anti-aging therapies and could be an impactful intervention in an aging population. 

“Most cells in the body express serotonin receptors, and this study opens a new frontier for how psilocybin could influence systemic aging processes, particularly when administered later in life,” says Louise Hecker, PhD, senior author on the study, and former associate professor at Emory University, where the research was initiated and funded. 

While much of what researchers know about psilocybin relates to the brain, few studies have examined its systemic impacts. Many people associate psilocybin with the hallucinogenic impacts, but the majority of the cells in the body express serotonin receptors. 

“Our study opens new questions about what long-term treatments can do. Additionally, even when the intervention is initiated late in life in mice, it still leads to improved survival, which is clinically relevant in healthy aging,” adds Hecker, currently an associate professor at Baylor College of Medicine. 

This news comes on the heels of KFF’s recent report that U.S. life expectancy is still below that of other countries similar in income and size, with an average lifespan of 78.4 years, compared to 82.5 years elsewhere. Not only was it the lowest, but as the lifespan in similar countries increased by 7.9 years from 1980-2022, whereas the U.S. life expectancy has only increased by 4.7 years. 

“This study provides strong preclinical evidence that psilocybin may contribute to healthier aging– not just a longer lifespan, but a better quality of life in later years,” says Director of Psychedelic Research at Emory University’s Department of Psychiatry Ali John Zarrabi, MD.

“As a palliative care physician-scientist, one of my biggest concerns is prolonging life at the cost of dignity and function. But these mice weren’t just surviving longer—they experienced better aging,” adds Zarrabi, co-investigator of the study.  

Zarrabi emphasized the importance of further research in older adults, as well as the well-documented overlap between physical and mental health. 

“Emory is actively involved in Phase II and III clinical trials of psilocybin-assisted therapy for depression, and these results suggest we also need to understand psilocybin’s systemic effects in aging populations,” says Zarrabi.

“My hope is also that if psilocybin-assisted therapy is approved as an intervention for depression by the FDA in 2027, then having a better quality of life would also translate into a longer, healthier life.” 

Funding: The study was initiated at Emory University and funded by several awards, including the Imagine, Innovative, and Impact (I3) Award, Emory University School of Medicine; the Georgia CTSA NIH Award; and a grant from Emory’s Woodruff Health Sciences Center for Health in Aging.

About this psychopharmacology and longevity research news

Author: Lara Moore
Source: Emory University
Contact: Lara Moore – Emory University
Image: The image is credited to Neuroscience News

Original Research: Open access.
Psilocybin treatment extends cellular lifespan and improves survival of aged mice” by Louise Hecker et al. npj Aging


Abstract

Psilocybin treatment extends cellular lifespan and improves survival of aged mice

Psilocybin, the naturally occurring psychedelic compound produced by hallucinogenic mushrooms, has received attention due to considerable clinical evidence for its therapeutic potential to treat various psychiatric and neurodegenerative indications.

However, the underlying molecular mechanisms remain enigmatic, and few studies have explored its systemic impacts.

We provide the first experimental evidence that psilocin (the active metabolite of psilocybin) treatment extends cellular lifespan and psilocybin treatment promotes increased longevity in aged mice, suggesting that psilocybin may be a potent geroprotective agent.