Review: Harvesting therapeutically important bioactive compounds from possible poisonous Clitocybe species

@#From ancient times, humans have used mushrooms in different forms. Mushrooms have found their way into multiple cuisines, medicines, and other vital aspects of our lives. We have discovered and worked on different species of mushrooms. Some species of Clitocybe have not found their way into the research as they are poisonous. Many species of Clitocybe have not been studied for their therapeutically critical bioactive compounds. In this review, we have focused on the benefits of the compounds extracted from different species of Clitocybe. The compounds present in Clitocybehave been confirmed to have a wide range of beneficial effects, including antitumor, bacteriostatic, antifungal, antiviral, anti-inflammatory, antioxidant, antiaging, antidiabetic, hypoglycemic, immune stimulant, antiproliferative, neuroprotective, cardioprotective and chemopreventive properties. It has also found its way into the food industry with notable characteristics such as milk-coagulant, flavorings agent, organic food preservative, and yeast culture. There are studies confirming the use of compounds extracted from different species of Clitocybe as biological pest control.

Micetismos: Parte 4: Síndromes tempranos con síntomas complejos / Mushroom poisonings. Part 4: early-onset syndromes with complex symptoms / Intoxicações por cogumelos. Parte 4: Síndromes precoces com sintomas complexos

En esta Parte 4 de la serie de cuatro artículos sobre micetismos se analizan los síndromes que se caracterizan por presentar un período de latencia muy corto, con la aparición de síntomas complejos en menos de 6 horas después de la ingestión de los macromicetos. Se discuten los siguientes micetismos: 1) Toxíndrome muscarínico o colinérgico periférico por especies de Inocybe y Clitocybe. 2) Toxíndrome inmunohemolítico o hemolítico por Paxillus. 3) Toxíndrome neumónico alérgico por Lycoperdon perlatum y por Pholiota nameko. 4) Toxíndrome panterínico o neurotóxico glutaminérgico por compuestos isoxazólicos o síndrome pantherina/muscaria. 5) Toxíndrome coprínico o cardiovascular. 6) Toxíndrome neurotóxico alucinogénico por psilocibina y derivados indólicos. 7) Toxíndrome psicotrópico por estirilpironas y gimnopilinas de Gymnopilus spectabilis o G. junonius. 8) Toxíndrome agudo de rabdomiólisis por Russula subnigricans. 9) Toxíndrome cianogénico por Marasmius oreades. 10) Toxíndrome inmunosupresor por tricotecenos macrocíclicos de Podostroma cornu-damae. 11) Toxíndrome hemolítico debido a ostreolisina de Pleurotus ostreatus y especies relacionadas. Se analizan los síntomas, las toxinas involucradas, los mecanismos de acción, cuando se conocen, y las especies causantes de los micetismos.

This Part 4 of the series of four articles on mushroom poisonings refers to early-onset syndromes, which are characterized by a very short latency period, and the appearance of complex symptoms in less than 6 hours after mushroom ingestion. The following mycetisms are discussed, (1) Peripheral cholinergic, or muscarinic syndrome due to Inocybe and Clitocybe species. (2) Immunohaemolytic or haemolytic syndrome by Paxillus. (3) Allergic pneumonic syndrome due to Lycoperdon perlatum, and Pholiota nameko. (4) Glutaminergic neurotoxic, or pantherinic syndrome by isoxazole compounds or pantherina/muscaria syndrome. (5) Coprinic or cardiovascular syndrome. (6) Hallucinogenic neurotoxic syndrome due to psilocybin and indole derivatives. (7) Psychotropic syndrome by styrylpirones and gymnopilins of Gymnopilus spectabilis or G. junonius. (8) Rhabdomyolysis acute syndrome due to Russula subnigricans. (9) Cyanogenic syndrome by Marasmius oreades. (10) Immunosuppressive syndrome by macrocyclic trichothecenes of Podostroma cornu-damae. (11) Haemolytic syndrome due to ostreolisine of Pleurotus ostreatus, and related species. The symptoms, toxins involved, mechanisms of action, when known, and the species of mushrooms responsible for the mycetisms are analyzed.

Nesta parte 4 da série de quatro artigos sobre intoxicação por cogumelos são analisadas síndromes que se caracterizam por apresentar um período de latência muito breve, com aparecimento de sintomas complexos em menos de 6 horas após a ingestão dos macromicetos. As seguintes intoxicações com cogumelos são discutidas: (1) Toxíndrome muscarínico ou colinérgico periférico por espécies de Inocybe e Clitocybe. (2) Toxíndrome imuno-hemolítica ou hemolítica por Paxillus. (3) Toxíndrome pneumônica alérgica por Lycoperdon perlatum e por Pholiota nameko. (4) Toxíndrome panterínica ou neurotóxica glutaminérgica por compostos isoxazólicos ou síndrome pantherina/muscaria. (5) Toxíndrome coprínica ou cardiovascular (6) Toxíndrome neurotóxico-alucinogênica por psilocibina e derivados indólicos. (7) Toxíndrome psicotrópica por estirilpironas e gimnopilinas de Gymnopilus spectabilis ou G. junonius. (8) Toxíndrome aguda de rabdomiólise por Russula subnigricans. (9) Toxíndrome cianogênica por Marasmius oreades. (10) Toxíndrome imunossupressora por tricotecenos macrocíclicos de Podostroma cornu-damae. (11) Síndrome hemolítica por ostreolisina de Pleurotus ostreatus e espécies relacionadas. São analisados os sintomas, as toxinas envolvidas, os mecanismos de ação, quando conhecidos, e as espécies de cogumelos responsáveis pelas intoxicações.

New Species of Agaricales

Clitocybe alboinfundibulliforme sp. nov. is widely distributed in Korea. Volvariella koreana sp. nov. is rarely distributed in Korea. These taxa were occasionally found together at the same place. Both of these species seem to be associated with each other. These two species are fully described and illustrated in this paper.

Chemical Constituents of the Fruiting Bodies of Clitocybe nebularis and Their Antifungal Activity

During a continuing search for antimicrobial substances from Korean native wild mushroom extracts, we found that the methanolic extract of the fruiting body of Clitocybe nebularis exhibited mild antifungal activity against pathogenic fungi. Therefore we evaluated the antifungal substances and other chemical components of the fruiting body of Clitocybe nebularis, which led to the isolation of nebularine, phenylacetic acid, purine, uridine, adenine, uracil, benzoic acid, and mannitol. Nebularine showed mild antifungal activity against Magnaphorthe grisea and Trichophyton mentagrophytes, and phenylacetic acid potently inhibited the growth of Pythium ultiumand displayed moderate antifungal activity against Magnaphorthe grisea, Botrytis cinerea, and Trichophyton mentagrophytes. The other isolated compounds showed no antimicrobial activity.