Biomedicine & Pharmacotherapy
March 24, 2022
Francisco Madrid-Gambín, Àlex Gomez‐gómez, Arnau Busquets-García et al.
14 citations
Consumption of ayahuasca increases N-acyl-ethanolamine endocannabinoids, decreases 2-acyl-glycerol endocannabinoids, and alters several large-neutral amino acids (LNAAs) in human plasma. Most LNAAs were inversely associated with nine of eleven subscales of the 5-Dimension Altered States of Consciousness Rating Scale, except tryptophan, which was positively associated. Several endocannabinoids and hexosylceramides were directly associated with ayahuasca alkaloids. Enrichment analysis confirmed dysregulation in pathways involved in serotonin and dopamine synthesis. A crosstalk between circulating LNAAs and subjective effects is suggested, independent of alkaloid concentrations, providing insights into the metabolic fingerprint and mechanism of action underlying ayahuasca experiences.
Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology
May 1, 2025
Francisco Madrid-Gambin, Noemí Haro, Natasha L Mason et al.
4 citations
The metabolome—the collection of small molecules in blood—differs between occasional and chronic cannabis users both when sober and after acute THC intoxication. Fourteen metabolites, mainly involved in endocannabinoid and amino acid metabolism, distinguished the two groups with 80% accuracy. During intoxication, occasional users showed attentional impairment and elevated subjective high, accompanied by increases in organic acids, β-hydroxybutyrate, and ceramides; chronic users did not show these changes. The findings demonstrate that metabolomic profiling can identify metabolic alterations specific to the neurocognitive state of cannabis intoxication and to cannabis use frequency.
Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie
June 1, 2026
Francisco Madrid-Gambin, Pablo Mallaroni, Noemí Haro et al.
The psychedelic state induced by ayahuasca arises from coordinated, system-level interactions between peripheral metabolism and brain network dynamics, rather than isolated neurochemical events. In 20 experienced ceremonial users, the subjective dimensions of oceanic boundlessness, visionary restructuralization, and auditory alterations covaried with circulating DMT and β-carbolines, shifts in lipid, amino acid, and energy metabolism, and reconfiguration of dorsal attention and default mode network connectivity. Shared features across these experiences were most strongly linked to endocannabinoid-related N-acylethanolamines, acylglycerols, and ceramides, extending beyond canonical serotonergic models to downstream lipid-signaling and metabolic processes. The findings offer translational insight into metabolic pathways that may modulate brain function and subjective response.