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RESEARCH PRODUCT

Bioactive Alkaloids of Hallucinogenic Mushrooms

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Abstract The aim of our chapter is to review recent developments in a group of medicinally important natural products–alkaloids, with reference to the structure–activity studies in respect of certain diseases. Alkaloids covered by our review come from mushrooms called “hallucinogenic.” Hallucinogenic compounds have been chemically identified in mushrooms belonging to various genera, e.g., Agrocybe, Amanita, Conocybe, Galerina, Gymnopilus, Hypholoma, Inocybe, Panaeolus, Psilocybe, Pholiotina, Pluteus, and Weraroa [J.W. Allen, Ethnomycol. J. Sacred Mushroom Stud. 9 (2012) 130–175]. One of the largest classes of alkaloids is indole alkaloids. Indoles are probably the most widely distributed heterocyclic compounds in nature having medicinal importance [K.N. Kumar et al., Molecules 18 (2013) 6620–6662]. Two of simple indole alkaloids: psilocin (3-[2 (dimethylamino)ethyl]-4-indolol) and psilocybin ([3-(2-dimethylaminoethyl)-1H-indol-4-yl] dihydrogen phosphate) are present in most psychedelic mushrooms. Psilocin is a serotonin agonist – psilocybin/psilocin caused effects are thought to be mediated mainly by activation of 5-HT2A receptor. Ligands for the 5-HT2A receptor may be extremely useful tools for future cognitive neuroscience research [D.E. Nichols, Pharmacol. Ther. 101 (2004) 131–181]. They are also other analogs of psilocybin: baeocystin, norbaeocystin, bufotenin, and aeruginascin that are found in hallucinogenic mushrooms. Bufotenin occur also in some animal species (genus Bufo) and plants. Some of the mushroom belonging to genera Gymnopilus and Pholiota were shown to possess bisnoryangonin and hispidin, alkaloids with antimicrobial [K. Shinto et al., J. Home Econ. Jpn. 58 (9) (2007) 563–568] and antioxidant [Lee In-K et al., Mycobiology, 36 (1) (2008) 55–59] activity. Also psychoactive species of genus Amanita, contain the alkaloids (muscimol, ibotenic acid, and muscazone) that react with neurotransmitter receptors in the central nervous system. Isoxazoles, to which these alkaloids belong, have been found to inhibit voltage-gated sodium channels to control pain, enable the construction of tetracycline antibiotic derivatives, and as treatments for depression. The information within this review is intended to serve as a reference tool to better enable future research into important and fascinating area of pharmacognostic science as well as other parts of medical science.