Author
Listed:
- Lindsay P. Cameron
(University of California, Davis)
- Robert J. Tombari
(University of California, Davis)
- Ju Lu
(University of California, Santa Cruz)
- Alexander J. Pell
(University of California, Davis)
- Zefan Q. Hurley
(University of California, Davis)
- Yann Ehinger
(University of California, San Francisco)
- Maxemiliano V. Vargas
(University of California, Davis)
- Matthew N. McCarroll
(University of California, San Francisco)
- Jack C. Taylor
(University of California, San Francisco)
- Douglas Myers-Turnbull
(University of California, San Francisco
University of California, San Francisco)
- Taohui Liu
(University of California, Santa Cruz)
- Bianca Yaghoobi
(University of California, Davis)
- Lauren J. Laskowski
(and Anatomy, Medical College of Wisconsin)
- Emilie I. Anderson
(and Anatomy, Medical College of Wisconsin)
- Guoliang Zhang
(University of California, Davis)
- Jayashri Viswanathan
(University of California, Davis)
- Brandon M. Brown
(University of California, Davis)
- Michelle Tjia
(University of California, Santa Cruz)
- Lee E. Dunlap
(University of California, Davis)
- Zachary T. Rabow
(University of California, Davis)
- Oliver Fiehn
(University of California, Davis)
- Heike Wulff
(University of California, Davis)
- John D. McCorvy
(and Anatomy, Medical College of Wisconsin)
- Pamela J. Lein
(University of California, Davis)
- David Kokel
(University of California, San Francisco
University of California, San Francisco)
- Dorit Ron
(University of California, San Francisco)
- Jamie Peters
(University of Colorado Denver, Anschutz Medical Campus
University of Colorado Denver, Anschutz Medical Campus)
- Yi Zuo
(University of California, Santa Cruz)
- David E. Olson
(University of California, Davis
University of California, Davis
University of California, Davis
Delix Therapeutics, Inc.)
Abstract
The psychedelic alkaloid ibogaine has anti-addictive properties in both humans and animals1. Unlike most medications for the treatment of substance use disorders, anecdotal reports suggest that ibogaine has the potential to treat addiction to various substances, including opiates, alcohol and psychostimulants. The effects of ibogaine—like those of other psychedelic compounds—are long-lasting2, which has been attributed to its ability to modify addiction-related neural circuitry through the activation of neurotrophic factor signalling3,4. However, several safety concerns have hindered the clinical development of ibogaine, including its toxicity, hallucinogenic potential and tendency to induce cardiac arrhythmias. Here we apply the principles of function-oriented synthesis to identify the key structural elements of the potential therapeutic pharmacophore of ibogaine, and we use this information to engineer tabernanthalog—a water-soluble, non-hallucinogenic, non-toxic analogue of ibogaine that can be prepared in a single step. In rodents, tabernanthalog was found to promote structural neural plasticity, reduce alcohol- and heroin-seeking behaviour, and produce antidepressant-like effects. This work demonstrates that, through careful chemical design, it is possible to modify a psychedelic compound to produce a safer, non-hallucinogenic variant that has therapeutic potential.
Suggested Citation
Lindsay P. Cameron & Robert J. Tombari & Ju Lu & Alexander J. Pell & Zefan Q. Hurley & Yann Ehinger & Maxemiliano V. Vargas & Matthew N. McCarroll & Jack C. Taylor & Douglas Myers-Turnbull & Taohui Li, 2021.
"A non-hallucinogenic psychedelic analogue with therapeutic potential,"
Nature, Nature, vol. 589(7842), pages 474-479, January.
Handle:
RePEc:nat:nature:v:589:y:2021:i:7842:d:10.1038_s41586-020-3008-z
DOI: 10.1038/s41586-020-3008-z
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Cited by:
- Jason Wallach & Andrew B. Cao & Maggie M. Calkins & Andrew J. Heim & Janelle K. Lanham & Emma M. Bonniwell & Joseph J. Hennessey & Hailey A. Bock & Emilie I. Anderson & Alexander M. Sherwood & Hamilto, 2023.
"Identification of 5-HT2A receptor signaling pathways associated with psychedelic potential,"
Nature Communications, Nature, vol. 14(1), pages 1-19, December.
- Václav Havel & Andrew C. Kruegel & Benjamin Bechand & Scot McIntosh & Leia Stallings & Alana Hodges & Madalee G. Wulf & Mel Nelson & Amanda Hunkele & Michael Ansonoff & John E. Pintar & Christopher Hw, 2024.
"Oxa-Iboga alkaloids lack cardiac risk and disrupt opioid use in animal models,"
Nature Communications, Nature, vol. 15(1), pages 1-21, December.
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