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Fungi that can be used to develop medications From Wikipedia, the free encyclopedia
Medicinal fungi are fungi that contain metabolites or can be induced to produce metabolites through biotechnology to develop prescription drugs. Compounds successfully developed into drugs or under research include antibiotics, anti-cancer drugs, cholesterol and ergosterol synthesis inhibitors, psychotropic drugs, immunosuppressants and fungicides.
Although fungi products have long been used in traditional medicine, the ability to identify beneficial properties and then extract the active ingredient started with the discovery of penicillin by Alexander Fleming in 1928.[1] Since that time, many potential antibiotics were discovered and the potential for various fungi to synthesize biologically active molecules useful in various clinical therapies has been under research. Pharmacological research identified antifungal, antiviral, and antiprotozoan compounds from fungi.[2]
Ganoderma lucidum, known in Chinese as líng zhī ("spirit plant"), and in Japanese as mannentake ("10,000-year mushroom"), has been well studied.[citation needed] Another species of genus Ganoderma, G. applanatum, remains under basic research.[citation needed] Inonotus obliquus was used in Russia as early as the 16th century; it featured in Alexandr Solzhenitsyn's 1967 novel Cancer Ward.[3]
There is no good evidence that any type of mushroom or mushroom extract can prevent or cure cancer.[4][better source needed]
11,11'-Dideoxyverticillin A, an isolate of marine Penicillium, was used to create dozens of semi-synthetic, candidate anticancer compounds.[5] 11,11'-Dideoxyverticillin A, andrastin A, barceloneic acid A, and barceloneic acid B, are farnesyl transferase inhibitors that can be made by Penicillium.[6] 3-O-Methylfunicone, anicequol, duclauxin, and rubratoxin B, are anticancer/cytotoxic metabolites of Penicillium.[citation needed]
Penicillium is a potential source of the leukemia medicine asparaginase.[7]
Some countries have approved beta-glucan fungal extracts lentinan, polysaccharide-K, and polysaccharide peptide as immunologic adjuvants.[8]
Alexander Fleming led the way to the beta-lactam antibiotics with the Penicillium mold and penicillin. Subsequent discoveries included alamethicin, aphidicolin, brefeldin A, cephalosporin,[9] cerulenin, citromycin, eupenifeldin, fumagillin,[9] fusafungine, fusidic acid,[9] helvolic acid,[9] itaconic acid, MT81, nigrosporin B, usnic acid, verrucarin A, vermiculine and many others.
Antibiotics retapamulin, tiamulin, and valnemulin are derivatives of the fungal metabolite pleuromutilin. Plectasin, austrocortilutein, austrocortirubin, coprinol, oudemansin A, strobilurin, illudin, pterulone, and sparassol are under research for their potential antibiotic activity.[citation needed]
Statins are an important class of cholesterol-lowering drugs; the first generation of statins were derived from fungi.[10] Lovastatin, the first commercial statin, was extracted from a fermentation broth of Aspergillus terreus.[10] Industrial production is now capable of producing 70 mg lovastatin per kilogram of substrate.[11] The red yeast rice fungus, Monascus purpureus, can synthesize lovastatin, mevastatin, and the simvastatin precursor monacolin J. Nicotinamide riboside, a cholesterol biosynthesis inhibitor, is made by Saccharomyces cerevisiae.[citation needed]
Some antifungals are derived or extracted from other fungal species. Griseofulvin is derived from a number of Penicillium species;[12] caspofungin is derived from Glarea lozoyensis.[13] Strobilurin, azoxystrobin, micafungin, and echinocandins, are all extracted from fungi. Anidulafungin is a derivative of an Aspergillus metabolite.[citation needed]
Many mushrooms contain potential antiviral compounds remaining under preliminary research, such as: Lentinus edodes, Ganoderma lucidum, Ganoderma colossus, Hypsizygus marmoreus, Cordyceps militaris, Grifola frondosa, Scleroderma citrinum, Flammulina velutipes, and Trametes versicolor, Fomitopsis officinalis.[14][15][16][17]
Cyclosporin was discovered in Tolypocladium inflatum, while Bredinin was found in Eupenicillium brefeldianum and mycophenolic acid in Penicillium stoloniferum. Thermophilic fungi were the source of the fingolimod precursor myriocin. Aspergillus synthesizes immunosuppressants gliotoxin and endocrocin. Subglutinols are immunosuppressants isolated from Fusarium subglutinans.[18]
Codinaeopsin, efrapeptins, zervamicins, and antiamoebin are made by fungi, and remain under basic research.[19]
Many fungal isolates act as DPP-4 inhibitors, alpha-glucosidase inhibitors, and alpha amylase inhibitors in laboratory studies. Ternatin is a fungal isolate that may affect hyperglycemia.[20]
Numerous fungi have well-documented psychotropic effects, some of them severe and associated with acute and life-threatening side-effects.[21] Among these is Amanita muscaria, the fly agaric. More widely used informally are a range of fungi collectively known as "magic mushrooms", which contain psilocybin and psilocin.[21]
The history of bread-making records deadly ergotism caused by ergot, most commonly Claviceps purpurea, a parasite of cereal crops.[22][23] Psychoactive ergot alkaloid drugs have subsequently been extracted from or synthesised starting from ergot; these include ergotamine, dihydroergotamine, ergometrine, ergocristine, ergocryptine, ergocornine, methysergide, bromocriptine, cabergoline, and pergolide.[22][24]
Fungi are a source of ergosterol which can be converted to vitamin D2 upon exposure to ultraviolet light.[25][26][27]
The yeast Saccharomyces is used industrially to produce the amino acid lysine, as well as recombinant proteins insulin and hepatitis B surface antigen. Transgenic yeasts are used to produce artemisinin, as well as insulin analogs.[28] Candida is used industrially to produce vitamins ascorbic acid and riboflavin. Pichia is used to produce the amino acid tryptophan and the vitamin pyridoxine. Rhodotorula is used to produce the amino acid phenylalanine. Moniliella is used industrially to produce the sugar alcohol erythritol.[citation needed]
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