In this episode of Longevity by Design, host Dr. Gil Blander sits down with Dr. Louise Hecker, Associate Professor of Medicine at Baylor College of Medicine. Together, they dive into Louise’s recent research exploring how psilocybin, the active compound in psychedelic mushrooms, may influence aging biology at the cellular and organismal level.
Louise shares the story behind her curiosity about psilocybin, sparked by conversations with a friend and fueled by a lack of scientific answers. She explains how her team overcame regulatory hurdles to study the effects of psilocybin on human cells and aging mice. Their findings showed that psilocybin extended cellular lifespan and reduced hallmarks of aging, such as oxidative stress and DNA damage. In mice, regular dosing improved survival, reversed visible signs of aging, and affected organs beyond the brain.
The conversation also covers the challenges of translating these findings into humans, the need for more research on dosing and safety, and the importance of funding in moving this field forward. Louise encourages listeners to stay curious, think beyond established paths, and keep an open mind as new questions and discoveries emerge in the science of aging.
Guest-at-a-Glance
💡 Name: Dr. Louise Hecker
💡 What they do: Associate Professor of Medicine
💡 Company: Baylor College of Medicine
💡 Guest Company Website: https://www.bcm.edu/people-search/louise-hecker-175346
Link to the paper: https://www.nature.com/articles/s41514-025-00244-x
Episode highlights:
[00:00:00]: Introduction
[00:00:18]: Scientific Journey and Focus on Aging
[00:01:27]: Transition from Regeneration to Aging Research
[00:02:53]: Decline of Regeneration with Age
[00:03:43]: Motivation for Studying Psilocybin and Aging
[00:04:13]: Initial Curiosity and Literature Review on Psilocybin
[00:05:38]: Psilocybin’s Broad Clinical Applications
[00:06:19]: Hypothesis: Psilocybin’s Lasting Effects Linked to Aging
[00:07:14]: Defining Psilocybin and Its Effects
[00:08:25]: Legal Status and Research Barriers
[00:09:57]: Resurgence in Psilocybin Research and Regulatory Changes
[00:10:40]: Experimental Design: Dosing and Model Selection
[00:11:54]: Regulatory Hurdles in Acquiring Psilocybin
[00:13:08]: Initiating Experiments and Early Findings
[00:14:30]: Cellular Lifespan Extension Results
[00:15:17]: Quantifying Cellular Effects and Replication
[00:16:23]: Addressing Potential Cancer Concerns
[00:17:10]: Hallmarks of Aging and Cellular Markers
[00:18:44]: Telomere Length and DNA Protection
[00:19:52]: Organ-Specific Effects and Ongoing Research
[00:22:05]: Transition to Mouse Studies
[00:23:44]: Designing the Mouse Longevity Study
[00:26:28]: Results: Survival and Phenotypic Changes in Mice
[00:28:36]: Translating Mouse Findings to Humans
[00:30:09]: Next Steps: Dosing, Protocols, and Human Relevance
[00:32:26]: Omics Profiling and Organ-Specific Protection
[00:33:54]: Safety, Risks, and Human Studies
[00:35:13]: Comparing Psilocybin to Other Longevity Interventions
[00:37:00]: Implementation Challenges and Future Research Directions
[00:40:00]: Advice for Biohackers and Caution on Self-Experimentation
[00:42:29]: Funding, Research Priorities, and the Future of Psychedelic Research
[00:43:58]: Rapid-Fire Questions: Aging Misconceptions and Research Priorities
[00:46:11]: Social Connection and Long-Term Health
[00:48:50]: Key Takeaways and Closing Thoughts
[00:51:26]: Outro and Farewell
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