Summary: While psilocybin is hailed as a breakthrough for depression and anxiety, many patients remain wary of the intense “trips” associated with the drug. Now, researchers have engineered modified versions of psilocin (the active form of psilocybin) that offer the therapeutic benefits of mushrooms without the hallucinogenic side effects.
By creating a specific derivative named 4e, the team achieved a slower, sustained release of the compound into the brain. In animal models, this new compound crossed the blood-brain barrier effectively and stimulated key serotonin receptors but produced significantly fewer “head twitches”โthe gold-standard indicator for psychedelic activity in mice.
Key Facts
- Dissociating the “Trip”: The study confirms that the antidepressant/therapeutic effects of psychedelics can likely be separated from the hallucinogenic experience.
- The “4e” Candidate: Among five synthesized derivatives, compound 4e showed the best stability and absorption, providing a gradual release of psilocin rather than a sharp peak.
- Brain Penetration: 4e successfully crossed the blood-brain barrier and maintained a lower but more sustained presence in the brain compared to standard psilocybin.
- Reduced Behavioral Markers: Mice treated with 4e exhibited significantly fewer psychedelic-like behaviors (head twitches) while maintaining full activity at serotonin receptors.
- Broad Potential: This “non-trippy” version of the drug could eventually be used to treat not just depression and anxiety, but also neurodegenerative diseases like Alzheimer’s.
Source: ACS
Psilocybinย โย theย psychoactiveย compoundย inย โmagic mushroomsโย โย is gaining scientificย attentionย for itsย potentialย in treating neuropsychiatric conditions including depression,ย anxiety,ย substance use disorders andย certainย neurodegenerative diseases. However,ย itsย hallucinogenic effectsย mayย limit broaderย therapeuticย applications.ย
Researchers publishing in ACSโย Journal of Medicinal Chemistryย synthesizedย modified versionsย ofย psilocin, theย activeย form of psilocybin,ย thatย retainedย theirย activityย while producing fewer hallucinogenic-like effectsย than pharmaceutical-grade psilocybin in a preliminary study in mice.ย
โOur findings are consistent with a growing scientific perspective suggesting that psychedelic effects and serotonergic activity may be dissociated,โ says Andreaย Mattarei,ย a corresponding authorย of the study.ย
โThis opens the possibility of designing newย therapeuticsย that retain beneficial biological activity while reducing hallucinogenic responses, potentially enabling safer and more practical treatment strategies.โย ย
Mood disordersย andย someย neurodegenerative diseases,ย such asย Alzheimerโs disease, involve imbalances of the neurotransmitter molecule serotonin,ย whichย helps regulate mood and other brain functions.ย
For decades, scientists have been investigating theย therapeuticย use of psychedelicsย such as psilocybinย on serotonin-signaling pathways.ย However,ย theย hallucinationsย thatย canย accompanyย theseย drugsย may makeย people wary of taking them, even if there is aย medicalย benefit.ย
So,ย a team led byย Sara De Martin,ย Mattareiย andย Paolo Manfrediย chemically engineeredย five psilocin derivativesย forย slower,ย sustainedย andย potentiallyย non-hallucinogenicย release into theย brain.ย They first tested these five compounds using human plasmaย samplesย and laboratory conditions mimicking gastrointestinal absorption.
ย These experiments allowed the team toย identifyย aย compoundย they namedย 4e as the most promising candidateย because it displayedย favorable stability for absorption andย enabledย a gradual release of psilocin โ a feature that could potentially mitigate hallucinogenic effects. Importantly, 4e retained activity at keyย serotonin receptorsย at levels comparable to psilocin.ย
Next, theย researchersย comparedย the effects ofย equivalent doses ofย 4eย withย pharmaceutical-grade psilocybinย in mice. Theย teamย administered the compoundsย orally toย miceย andย measuredย how muchย psilocinย reached the bloodstream and brain overย aย 48-hourย period.ย
In miceย dosed withย 4e,ย the compound was able to cross the bloodโbrain barrierย effectively andย exhibitedย aย lowerย but more sustainedย presence of psilocin in theirย brainsย compared toย those treatedย withย psilocybin.ย
Whenย the researchersย looked at mouse behavior, theyย observedย thatย 4e-treatedย animalsย exhibitedย significantly fewer headย twitches โย a well-established marker of psychedelic-like activity in rodents โ than thoseย receivingย psilocybin, despite the strongย serotonin receptorย activity of 4e.
This behavioral differenceย appeared to beย associatedย primarilyย with the amount and timing of psilocin released in the brain.ย ย
Theย researchersย say their findingsย demonstrateย the feasibility of developing stable brain-penetrating psilocin derivatives thatย retainย serotonin receptor activity while reducing acute mind-altering effects.ย
Further studies will be needed to clarify their mechanism of action and fully characterize their biological effects before assessing their therapeutic potential and safety in humans.ย ย
Funding: The authors acknowledge funding from MGGM Therapeutics, LLC, in collaboration withย NeuroArborย Therapeutics Inc. Several authors declare they are inventors on patents related to psilocin.ย ย
Key Questions Answered:
A: Recent science suggests the answer is yes. While some believe the “mystical experience” is necessary for healing, this study supports the idea that the brain-repairing effects (neuroplasticity) happen at the cellular level through serotonin receptors. By keeping those receptors active without flooding the brain all at once, you get the “repair” without the “hallucinations.”
A: Hallucinations are often triggered by a rapid spike of psilocin in the brain. The 4e compound acts like an “extended-release” version of the drug. It keeps the therapeutic levels steady and low, avoiding the threshold that triggers mind-altering effects while still providing the mood-regulating benefits.
A: We are still in the early stages. The results in mice are very promising, but the next steps involve full safety profiles and eventually human clinical trials to ensure that the “non-hallucinogenic” effect carries over from mice to people.
Editorial Notes:
- This article was edited by a Neuroscience News editor.
- Journal paper reviewed in full.
- Additional context added by our staff.
About this psychopharmacology research news
Author: Sarah Michaud
Source: ACS
Contact: Sarah Michaud – ACS
Image: The image is credited to Neuroscience News
Original Research: Open access.
“Design, Synthesis, and Pharmacokinetic Profiling of Fluorinated Reversible N-Alkyl Carbamate Derivatives of Psilocin for Sub-Hallucinogenic Brain Exposure” by Marco Banzato, Martina Colognesi, Lorena Lucatello, Stefano Comai, Gianfranco Pasut, Francesca Capolongo, Laura Orian, Lucia Biasutto, Anna Signor, Daniela Gabbia, Paolo L. Manfredi, Sara De Martin, and Andrea Mattarei. Journal of Medicinal Chemistry
DOI:10.1021/acs.jmedchem.5c01797
Abstract
Design, Synthesis, and Pharmacokinetic Profiling of Fluorinated Reversible N-Alkyl Carbamate Derivatives of Psilocin for Sub-Hallucinogenic Brain Exposure
Psilocybin, the phosphorylated prodrug of psilocin, holds therapeutic promise across a range of neuropsychiatric conditions, yet its clinical utility is constrained by acute psychoactive effects.
Here, we report the rational design, synthesis, and evaluation of a focused library of fluorinated reversibleย N-alkyl carbamate derivatives of psilocin aimed at reducing acute psilocin exposure and thereby limiting hallucinogenic-like effects. Carbamate bond stability was systematically modulated by varying the number and positioning of fluorine atoms on the alkyl promoiety.
The resulting compounds exhibited finely tuned hydrolysis under physiological conditions. A selected lead compound (4e) showed favorable oral bioavailability and efficient brain penetration while undergoing partial bioconversion to psilocin.
Notably, 4e displayed intrinsic serotonergic activity at 5-HT2Aย and 5-HT2Cย receptors but induced attenuated psychotropic effects relative to psilocybin.
Overall, these findings highlight fluorinated carbamate chemistry as a versatile platform to control psilocin exposure and serotonergic signaling, rather than the development of a classical pharmacologically inert prodrug.
