Wherefore the magic? The evolutionary role of psilocybin in nature

OpenAlex  – December 19, 2025

Source: OpenAlex

Summary

Psilocybin, a fascinating chemical synthesis and alkaloid, significantly impacts invertebrate biology. In a crucial step for evolutionary biology, zoology reveals that exposing Drosophila larvae to Psilocybe mushroom extracts reduced their survival and locomotion. Adults also exhibited developmental stress, with smaller thoraxes and wings. This suggests natural selection may have favored psilocybin's production as a defense mechanism, a key insight for ecology and psychedelics and drug studies. Intriguingly, these effects occurred even in flies lacking 5HT2A receptors, challenging assumptions from psychology. This work grounds our understanding of psilocybin's ancient role.

Abstract

Abstract Research into psychedelic compounds is in resurgence due to the exciting potential for their use in the treatment of psychiatric and mental health disorders. Despite this revival, remarkably little is known about their evolution. One of the most intriguing psychedelic compounds is psilocybin, the compound found in ‘magic’ mushrooms and used in ritual ceremonies in Central America for generations. Associated with agaricomycete fungi of the genus Psilocybe , psilocybin acts in a similar way to the neurotransmitter serotonin, yet how and why natural selection favoured its biosynthesis remains unclear. Given the resemblance to serotonin, modulation of invertebrate behaviour for defence is a likely explanation, but neither this nor alternative hypotheses have ever been formally tested. Here, we show that Drosophila larvae exposed to extracts from Psilocybe mushrooms exhibit reduced survival, pupation rates, and inhibited locomotion. Adults exposed during development show reduced thorax and wing size, along with increased fluctuating asymmetry, indicating developmental stress. Conversely, mutants lacking 5HT2A receptors showed the same response to Psilocybe extracts as wild-type flies. Furthermore, DNA metabarcoding revealed that while Psilocybe semilanceata demonstrates a distinct invertebrate community compared to most other grassland fungi, it overlapped with the non-psychedelic species Mycena epipterygia . This study provides a crucial first step toward understanding the evolutionary role of psilocybin-producing fungi and provides a grounding for future research into the molecular mechanisms, ecological interactions and evolutionary origins of psychedelic compounds in nature.

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