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Lee E. Dunlap

University of California, Davis

3 papers in the library · 288 citations · publishing 2018

Papers

Effects of N,N-Dimethyltryptamine on Rat Behaviors Relevant to Anxiety and Depression

ACS Chemical Neuroscience April 17, 2018 Lindsay P. Cameron, Charlie J. Benson, Lee E. Dunlap et al. 168 citations

Depression and anxiety impose large economic costs, and many patients do not respond to traditional antidepressants. A single dose of DMT, the main psychoactive compound in ayahuasca, initially increased anxiety-like behaviors in adult male rats but later reduced anxiety by speeding the extinction of conditioned fear memories. DMT also decreased immobility in the forced swim test, a standard measure of antidepressant-like effect. These results indicate that DMT produces both antidepressant and anxiety-reducing behavioral effects in rodents, supporting further research into ayahuasca and similar psychedelics as potential treatments for depression and PTSD.

Dark Classics in Chemical Neuroscience: 3,4-Methylenedioxymethamphetamine

ACS Chemical Neuroscience July 12, 2018 Lee E. Dunlap, Anne M. Andrews, David E. Olson 105 citations

MDMA, known as ecstasy, is a small molecule that shapes youth culture similarly to LSD in the 1960s. Structurally related to amphetamine and mescaline, it produces unique subjective effects distinct from psychostimulants or hallucinogens and reliably induces prosocial states. This review covers MDMA's synthesis, pharmacology, metabolism, adverse effects, and potential medical uses. The authors argue MDMA may be the most important compound for the future of psychedelic science, capable of either advancing new research or triggering a second Dark Age for the field.

Reaction of N,N‑Dimethyltryptamine with Dichloromethane Under Common Experimental Conditions

ACS Omega May 7, 2018 Lee E. Dunlap, David E. Olson 15 citations

The quaternary ammonium salt byproduct forms at an exceedingly slow rate when DMT is exposed to dichloromethane (DCM), only accumulating significantly after prolonged contact. The byproduct is readily extracted into water. DMT can be exposed to DCM for less than 30 minutes with minimal risk of degradation, and the byproduct is not observed after aqueous extraction. Alternative solvents should be used for longer contact times. These findings have implications for preparing pharmaceuticals with the DMT structural core in high yields and purities.