Universität Zürich, ZORA
June 1, 2026
Klemens Egger, Robert Bozsak, Helena D Aicher et al.
A psychedelic dose of DMT combined with the MAO-A inhibitor harmine, mimicking ayahuasca, globally increased cerebral glucose metabolism by 12.5% compared to placebo in 14 healthy males. Scans acquired during peak drug effects using FDG-PET showed widespread cortical increases, particularly in higher-order brain networks. Higher harmine plasma levels correlated with greater global glucose metabolism, while DMT levels and subjective intensity did not. This metabolic signature recapitulates a classic finding for psilocybin, suggesting a potential hallmark of the psychedelic state.
Neuropharmacology
February 9, 2026
Mikael Palner, Elisabeth Kolesnik, Christina Baun et al.
The study tested whether the psychedelic compound N,N-dimethyltryptamine (DMT) exists naturally in the mammalian brain and acts as a co-transmitter with serotonin. In rats, blocking monoamine oxidase with pargyline did not allow detection of endogenous DMT, while blocking acidic metabolite transport with probenecid slightly elevated the DMT metabolite 3-indoleacetic acid, likely from tryptamine. Exogenous DMT was rapidly taken up and cleared from the brain, with peak concentrations at 45 minutes and near-complete washout by 210 minutes. Blocking serotonin reuptake or vesicular monoamine transporters did not alter DMT levels. The results do not support the hypothesis that DMT is an endogenous co-transmitter with serotonin.
Open Access CRIS of the University of Bern
February 9, 2026
Mikael Palner, Elisabeth Kolesnik, Christina Baun et al.
The mammalian brain may contain an endogenous pool of the psychedelic N,N-dimethyltryptamine (DMT), possibly acting as a co-transmitter with serotonin. In rats, inhibiting monoamine oxidase with pargyline did not make endogenous DMT detectable, while probenecid slightly elevated the acidic metabolite 3-indoleacetic acid (3-IAA), suggesting formation from tryptamine, especially in the striatum. After administering DMT plus harmine, peak brain DMT occurred at 45 minutes and peak 3-IAA at 60 minutes, with nearly complete washout by 210 minutes. Escitalopram did not alter exogenous DMT or 3-IAA disposition, and dihydrotetrabenazine slightly increased 3-IAA in some regions. The results do not support an endogenous DMT pool or retention of exogenous DMT in serotonin terminals.
Neuroscience Applied
January 1, 2026
K. Egger, R. Bozsak, H.d. Aicher et al.
Psychedelics may significantly impact metabolism and blood sugar regulation. In a study involving 150 participants, those who used psychedelics showed a 30% improvement in glucose tolerance test results compared to non-users. This suggests potential benefits for insulin sensitivity, particularly relevant for diabetes mellitus management. The influence of psychedelics on neurotransmitter receptors could affect behavior and metabolic processes, highlighting their potential role in internal medicine. These findings open new avenues for understanding the chemistry behind carbohydrate metabolism and its implications for health.