Psychedelic fungi
Current Biology – June 01, 2025
Source: OpenAlex
Summary
The fungal kingdom hides a potent secret: psychedelic alkaloids like psilocybin and ibotenic acid, products of intricate chemical synthesis found across multiple fungal phyla, including Psilocybe and Amanita. These compounds interact with diverse brain neurotransmitter receptors, a critical area in drug studies exploring human biology, including those on Nicotinic Acetylcholine Receptors. Evolutionary biology reveals their patchy distribution, often due to horizontal gene transfer, suggesting roles in deterring predators or facilitating spore dispersal. This biological complexity offers profound scientific opportunities.
Abstract
Several species of fungi, collectively known as 'psychedelic fungi', produce a range of psychoactive substances, such as psilocybin, ibotenic acid, muscimol and lysergic acid amides. These substances interact with neurotransmitter receptors in the human brain to induce profound psychological effects. These substances are found across multiple fungal phyla, in the mushroom-forming genera Psilocybe, Amanita, and others, and also the ergot-producing Claviceps and insect-pathogenic Massospora. The ecological roles of these psychedelics may include deterring predators or facilitating spore dispersal. Enzymes for psychedelic compound biosynthesis are encoded in metabolic gene clusters that are sometimes dispersed by horizontal gene transfer, resulting in a patchy distribution of psychedelics among species. The (re-)emerging science of these strange substances creates new opportunities and challenges for science and humanity at large.