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C T Lin

Chinese Academy of Sciences

1 paper in the library · publishing 2026

Papers

Chemical ecology and convergent evolution of natural hallucinogens: From ecological defense to conserved neural targets

Proceedings of the National Academy of Sciences June 24, 2026 Yibo Wang, H Wang, C T Lin et al.

Natural hallucinogenic compounds like mescaline and psilocybin evolved independently across plants, fungi, and animals through a 'building-block' biosynthetic logic that repurposes primary metabolism. These molecules likely function as defensive agents or manipulators of herbivore and pollinator behavior, not primarily for human psychoactivity. Endogenous mammalian tryptamines appear to serve cytoprotective and stress-response roles via sigma-1 receptors, not hallucinogenic functions. Across kingdoms, these compounds converge on conserved neural targets such as serotonergic systems, making human psychoactivity an evolutionary by-product of molecules selected for ecological interactions with animals sharing deeply conserved receptor architectures.