4.5 Article

Magic mushroom extracts in lipid membranes

Journal

BIOCHIMICA ET BIOPHYSICA ACTA-BIOMEMBRANES
Volume 1864, Issue 9, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.bbamem.2022.183957

Keywords

Psilocin; Magic mushrooms; Serotonin; Psychedelic drugs; Molecular dynamics (MD) simulations; Lipid-drug interactions

Funding

  1. Lundbeckfonden Ascending Investigator grant [R344-2020-1023]
  2. Novo Nordisk Foundation Synergy grant [NNF18OC0034936]

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The active hallucinogen psilocin is being repurposed to treat nicotine addiction and treatment-resistant depression. Recent evidence suggests that psilocin may exert its effects through a membrane-mediated receptor-binding mechanism. Both psilocin and serotonin have similar impacts on lipid membranes, but psilocin's effect is limited by its chemical structure.
The active hallucinogen of magic mushrooms, psilocin, is being repurposed to treat nicotine addiction and treatment-resistant depression. Psilocin belongs to the tryptamine class of psychedelic compounds which include the hormone serotonin. It is believed that psilocin exerts its effect by binding to the serotonin 5-HT2A receptor. However, recent in-vivo evidence suggests that psilocin may employ a different mechanism to exert its effects. Membrane-mediated receptor desensitization of neurotransmitter receptors is one such mechanism. We compare the impact of the neutral and charged versions of psilocin and serotonin on the properties of zwitterionic and anionic lipid membranes using molecular dynamics simulations and calorimetry. Both compounds partition to the lipid interface and induce membrane thinning. The tertiary amine in psilocin, as opposed to the primary amine in serotonin, limits psilocin's impact on the membrane although more psilocin partitions into the mem-brane than serotonin. Calorimetry corroborates that both compounds induce a classical melting point depression like anesthetics do. Our results also lend support to a membrane-mediated receptor-binding mechanism for both psilocin and serotonin and provide physical insights into subtle chemical changes that can alter the membrane-binding of psychedelic compounds.

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