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Samuel T. Slocum

University of North Carolina at Chapel Hill

2 papers in the library · 59 citations · publishing 2021

Papers

Molecular insights into psychedelic drug action

Journal of Neurochemistry November 19, 2021 Samuel T. Slocum, Jeffrey F. Diberto, Bryan L. Roth 59 citations

Psychedelic drugs like LSD, mescaline, and psilocybin are gaining renewed scientific and clinical interest due to the need for new mental health treatments, progress in research, and changing drug policies. The FDA's designation of psilocybin as a "Breakthrough Therapy" for treatment-resistant depression has opened a path for these drugs to be used in clinical settings. However, a clearer understanding of how these drugs work at the molecular level is essential for developing such applications. This review examines current knowledge about the molecular details of psychedelic drug actions and suggests that these discoveries can provide new insights into their hallucinogenic and therapeutic mechanisms.

Pharmacologic analysis of non-synonymous coding 5-HT2A SNPs reveals alterations psychedelic drug potencies and efficacies

bioRxiv Preprint Server December 9, 2021 Gavin P. Schmitz, Manish K. Jain, Samuel T. Slocum et al. preprint

Random genetic variations in the serotonin 2A receptor can modestly alter how four commonly used psychedelic drugs activate this receptor, with effects that differ depending on the specific drug. Seven naturally occurring receptor variants were tested in the lab; each showed small but statistically significant changes in drug potency and efficacy. These findings suggest that individual genetic differences may influence responses to psychedelic medications.