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Node Smith, ND

Psychedelic drugs such as LSD, psilocybin, and mescaline cause severe and often long-lasting hallucinations, but they show great potential in treating serious psychiatric conditions, such as major depressive disorder. To fully investigate this potential, scientists need to know how these drugs interact with brain cells at the molecular level to cause their dramatic biological effects. Scientists at UNC-Chapel Hill and Stanford have just taken a big step in that direction.

For the first time, scientists in the UNC lab of Bryan L. Roth, MD, PhD, and the Stanford lab of Georgios Skiniotis, PhD, solved the high-resolution structure of these compounds when they are actively bound to the 5-HT2A serotonin receptor (HTR2A) on the surface of brain cells.

This discovery, published in Cell, is already leading to the exploration of more precise compounds that could eliminate hallucinations but still have strong therapeutic effects. Also, scientists could effectively alter the chemical composition of drugs such as LSD and psilocybin — the psychedelic compound in mushrooms that has been granted breakthrough status by the FDA to treat depression.

“Millions of people have taken these drugs recreationally, and now they are emerging as therapeutic agents,” said co-senior author Bryan L. Roth, MD, PhD, the Michael Hooker Distinguished Professor of Pharmacology at the University of North Carolina School of Medicine. “Gaining this first glimpse of how they act at the molecular level is really important, a key to understanding how they work. Given the remarkable efficacy of psilocybin for depression (in Phase II trials), we are confident our findings will accelerate the discovery of fast-acting antidepressants and potentially new drugs to treat other conditions, such as severe anxiety and substance use disorder.”

Activation of HTR2A

Scientists believe that activation of HTR2A, which is expressed at very high levels in the human cerebral cortex, is key to the effects of hallucinogenic drugs. “When activated, the receptors cause neurons to fire in an asynchronous and disorganized fashion, putting noise into the brain’s system,” said Roth, who holds a joint faculty appointment at the UNC Eshelman School of Pharmacy. “We think this is the reason these drugs cause a psychedelic experience. But it isn’t at all clear how these drugs exert their therapeutic actions.”

In the current study, Roth’s lab collaborated with Skiniotis, a structural biologist at the Stanford University School of Medicine. “A combination of several different advances allowed us to do this research,” Skiniotis said. “One of these is better, more homogeneous preparations of the receptor proteins. Another is the evolution of cryo-electron microscopy technology, which allows us to view very large complexes without having to crystalize them.”

Roth credits co-first author Kuglae Kim, PhD, a postdoctoral fellow in his lab, for steadfastly exploring various experimental methods to purify and stabilize the very delicate serotonin receptors.

“Kuglae was amazing,” Roth said. “I’m not exaggerating when I say what he accomplished is among the most difficult things to do. Over three years in a deliberate, iterative, creative process, he was able to modify the serotonin protein slightly so that we could get sufficient quantities of a stable protein to study.”

Revealing the first X-ray crystallography structure of LSD bound to HTR2A

The research team used Kim’s work to reveal the first X-ray crystallography structure of LSD bound to HTR2A. Importantly, Stanford investigators then used cryo-EM to uncover images of a prototypical hallucinogen, called 25-CN-NBOH, bound together with the entire receptor complex, including the effector protein Gαq. In the brain, this complex controls the release of neurotransmitters and influences many biological and neurological processes.

The cryo-EM image is like a map of the complex, which Kim used to illustrate the exact structure of HTR2A at the level of amino acids — the basic building blocks of proteins such as serotonin receptors.

Roth, a psychiatrist and biochemist, leads the Psychoactive Drug Screening Program, funded by the National Institute of Mental Health. This gives his lab access to hallucinogenic drugs for research purposes. Normally, these compounds are difficult to study in the lab because they are regulated by the Drug Enforcement Agency as Schedule 1 drugs.

Roth and colleagues are now applying their findings to structure-based drug discovery for new therapeutics. One of the goals is to discover potential candidates that may be able offer therapeutic benefit without the psychedelic effects.

“The more we understand about how these drugs bind to the receptors, the better we’ll understand their signaling properties,” Skiniotis says. “This work doesn’t give us the whole picture yet, but it’s a fairly large piece of the puzzle.”

1. Kuglae Kim, Tao Che, Ouliana Panova, Jeffrey F. DiBerto, Jiankun Lyu, Brian E. Krumm, Daniel Wacker, Michael J. Robertson, Alpay B. Seven, David E. Nichols, Brian K. Shoichet, Georgios Skiniotis, Bryan L. Roth. Structure of a Hallucinogen-Activated Gq-Coupled 5-HT2A Serotonin Receptor. Cell, 2020; 182 (6): 1574 DOI: 10.1016/j.cell.2020.08.024


Node Smith, ND, is a naturopathic physician in Humboldt, Saskatchewan and associate editor and continuing education director for NDNR. His mission is serving relationships that support the process of transformation, and that ultimately lead to healthier people, businesses and communities. His primary therapeutic tools include counselling, homeopathy, diet and the use of cold water combined with exercise. Node considers health to be a reflection of the relationships a person or a business has with themselves, with God and with those around them. In order to cure disease and to heal, these relationships must be specifically considered. Node has worked intimately with many groups and organizations within the naturopathic profession, and helped found the non-profit, Association for Naturopathic Revitalization (ANR), which works to promote and facilitate experiential education in vitalism.

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