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International Journal of Medicinal Mushrooms

Publication de 12  numéros par an

ISSN Imprimer: 1521-9437

ISSN En ligne: 1940-4344

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Profiles of Little-Known Medicinal Polypores: Haploporus odorus (Agaricomycetes)

Volume 21, Numéro 8, 2019, pp. 783-791
DOI: 10.1615/IntJMedMushrooms.v21.i8.40
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RÉSUMÉ

The purpose of this study was to compile a comprehensive characterization of little-known polypores, which have recently been found to possess anticancer activity and thus can also be used in cancer target therapy. Haploporus odorus is a polypore of Holarctic distribution and has been found by harvesters working in taiga floodlands and broadleaf forests of the Northern Hemisphere. A substance known as haploporic acid A was determined in methylene chloride extract from the dried basidiomata of H. odorus. This substance can be used in cancer therapy; more details of its health benefits could be used in mycotherapy.

RÉFÉRENCES
  1. Zmitrovich IV, Ezhov ON, Ranadive KR, Wasser SP. Profiles of little-known medicinal polypores: Earliella scabrosa (Agaricomycetes, Polyporaceae). Int J Med Mushrooms. 2017;19(11):1023-27.

  2. Zmitrovich IV, Bondartseva MA, Arefyev SP, Ezhov ON, Wasser SP. Profiles of little-known medicinal polypores: Funalia trogii (Agaricomycetes). Int J Med Mushrooms. 2018;20(7):657-64.

  3. Zmitrovich IV, Wasser SP, Ezhov ON. A survey of species of genus Trametes Fr. (higher Basidiomycetes) with estimation of their medicinal source potential. Int J Med Mushrooms. 2012;14(3):307-19.

  4. Zmitrovich IV. Phylogenesis and adaptatiogenesis of polyporaceous fungi (Polyporaceae s. str.) [doctoral thesis]. St. Petersburg (Russia): Komarov Botanical Institute; 2017.

  5. Zmitrovich IV. Conspectus systematis Polyporacearum v. 1.0. Folia Cryptogamica Petropolitana. 2018;6:3-145.

  6. Linnaeus C. Species plantarum, exhibentes plantas rite cognitas ad genera relatas, cum differentiis specificis, nominibus trivialibus, synonymis selectis, locis natalibus, secundum systema sexuale digestas. T. 2. Holm: L. Salm; 1753.

  7. Linnaeus C. Flora lapponica exhibens plantas per Lapponiam crescentes, secundum systema sexuale collectas in itinere 1732 institutio. Additis synonymis, et Locis natalibus omnium, descriptionibus et figuris rariorum, viribus medicatis et oeconomicis plurimarum. Amstelaedam: S. Schouten; 1737.

  8. Fries EM. Systema mycologicum, sistens fungorum ordines, genera et species, huc usque cognitas, quas ad normam methodi naturalis determinavit, disposuii atque descripsit. Vol. 1. Gryphiswald; 1821.

  9. Ryvarden L, Melo I. Poroid fungi of Europe / with photos by T. Niemela and drawings by I. Melo and T. Niemela. Synopsis Fung. 2014;31:1-455.

  10. Sommerfelt S. C. Supplementum florae lapponicae. Christiania; 1826.

  11. Niemela T. On Fennoscandian polypores. I. Haploporus odorus (Sommerf.) Bond. et Sing. Ann Bot Fennici. 1971;8:237-44.

  12. Donk MA. Check list of European polypores. Verh Koninkl Ned Akad Wetenschap Nat Reeks. 1974;62:1-469.

  13. Rauschert, S. Nomenklatorische Studien bei Hoheren Pilzen. II. Porlinge (Polyporales s. lat.). Feddes Repertorium Specierum Novarum Regni Vegetabilis. 1990;101:639-44.

  14. Ryvarden L. Genera of polypores. Nomenclature and taxonomy. Synopsis Fung. 1991;5:1-363.

  15. Zmitrovich IV, Malysheva VF, Spirin WA. Distribution, morphology, and taxonomy of Haploporus suaveolens (L.: Fr.) Donk, a rare polypore revealing medicinal propertieis. Int J Med Mushrooms. 2005;7:73-6.

  16. Spirin WA, Zmitrovich IV, Malysheva VF. Notes on Perenniporiaceae. St. Petersburg: All-Russian Institute of Plant protection; 2005.

  17. Shen L, Wang M, Chen JJ, Cui BK. Taxonomy and multigene phylogeny of Haploporus (Polyporales, Basidiomycota). Mycol Progress. 2016;15(7):731-42.

  18. Ryvarden L, Gilbertson RL. European polypores. Part 1. Abortiporus-Lindtneria. Synopsis Fung. 1993;6:1-387.

  19. Morita Y, Hayashi Y, Sumi Y, Kodaira A, Shibata H. Haploporic acid A, a novel dimeric drimane sesquiterpenoid from the basidiomycete Haploporus odorus. Biosci Biotech Biochem. 1995;59(10):2008-9.

  20. Bondartseva MA. Definitorium fungorum Rossicum. Aphyllophorales. Issue 2. SPb.: Nauka; 1998 (in Russian).

  21. Global Biodiversity Information Facility (GBIF). Haploporus odorus (Sommerf.) Bondartsev et Singer. 2019. https://www. gbif.org/species/5247530.

  22. Khimich YR, Isaeva LG, Borovichev EA. New findings of rare aphyllophoroid fungi from the Murmansk Region, eastern Fennoscandia (North-West Russia). Folia Cryptog Estonica. 2017;54:37-41.

  23. Ezhov O, Zmitrovich I. Checklist of aphyllophoroid fungi (Agaricomycetes, Basidiomycota) in boreal forests of Pinega Reserve, northeast European Russia. Check List. 2015;11(1):1-11.

  24. Shiryaev AG, Kotiranta H, Mukhin VA, Stavishenko IV, Ushakova NV. Aphyllophoroid fungi of Sverdlovsk Region, Russia: Biodiversity, Distribution, Ecology and the IUCN Threat Categories. Ekaterinburg: Goshchitskiy; 2009.

  25. Stavishenko IV. Xylotrophic macromycetes of the southern part of the territory of the Sibirskie Uvaly Nature Reserve Park. In: Ecological studies of the eastern part of the Siberian Uvalov. Nizhnevartovsk: 2003. p. 26-35 (in Russian).

  26. Stavishenko IV. Haploporus odorus (Sommerf.) Bondartsev et Singer. In: The Red Data Book of the Khanty-Mansiysk Autonomous Okrug-Ugra: animals, plants, fungi. 2nd ed. Ekaterinburg: Basko; 2013. p. 346.

  27. Shiryaev AG, Kudashova NN. Biodiversity of aphyllophoroid fungi of the Tungussky Reserve (Krasnoyarsk Territory, Evenki District). Bull Inst Physics Agricult Sci Pract J. 2015;71:69-85 (in Russian).

  28. Barsukova TN. Xylotrophic fungi of the Central Chernozem Biosphere Reserve. Mikologiya i Fitopatologiya. 2000;34(5):1-7 (in Russian).

  29. Zmitrovich IV. Tremelloid, aphyllophoroid and pleurotoid Basidiomycetes of Veps Plateau (Northwest Russia). Karstenia. 2003;43(1):13-36.

  30. Red Data Book of the Tyumen Region: animals, plants, fungi. Ekaterinburg; 2004 (in Russian).

  31. Red Data Book of the Kaluga region. Vol. 1. Plant world. Kaluga: Vash Dom; 2015 (in Russian).

  32. Gorbunova IA, Vlasenko VA, Chubarova YA. Macromycetes of the Tigirek Reserve. Proceedings of the Tigirek Reserve. 2011;4:57-70.

  33. Vlasenko VA, Vlasenko AV. Wood-destroying fungi on woody plants in green areas of the city of Novosibirsk. Bull Altai State Agrarian University. 2018;1(159):93-97 (in Russian).

  34. Lyubarsky LV, Vasilyeva LN. Wood-destroying fungi of the Far East. Novosibirsk: Nauka; 1975 (in Russian).

  35. Cadastre of plants and fungi of the Kedrovaya Pad reserve: lists of species. Vladivostok: Dalnauka; 2002 (in Russian).

  36. Wu F, Fan L-F, Liu S-L, Zhou X-J, Yuan H-S. Diversity of wood-decaying fungi from Shanxi Province, China. Mycosystema. 2017;36(11):1487-97.

  37. Encyclopedia of the life. Haploporus odorus (Sommerf.) Bondartsev et Singer 1944. 2019. https://eol.org/pages/190512.

  38. Shulga VM. Haploporus odorus. In: The world of fungi in Ukraine [Electronic resource]. 2019. http://gribi.net.ua/haploporus-odorus.

  39. Dai Y-C, Yu C-J, Wang H-C. Polypores from eastern Xizang (Tibet), western China. Ann Bot Fennici. 2007;44:135-45.

  40. Coleccion de hongos del Herbario de la Universidad de La Laguna: TFC mic published by Dep. Plant Biology (Botany), Fac. of Pharmacy, Univ. La Laguna, 2009.

  41. Gilbertson RL, Ryvarden L. North American Polypores. Vol. 1. Abortiporus - Lindtneria. Oslo: Fungiflora; 1986.

  42. The Global Fungal Red List. Haploporus odorus (Sommerf.) Bondatsev et Singer. 2019. http://iucn.ekoo.se/iucn/species_view/286847.

  43. Murashkinsky KE. Mountain taiga polypores. Trudy Omskogo selskokhozyaystvennogo instituta. 1939;17:75-108 (in Russian).

  44. Mukhin VA. Biota of xylotrophic basidiomycetes of the West Siberian Plain. Ekaterinburg: Nauka; 1993 (in Russian).

  45. Winder R, Nelson EA, Beardmore T. Ecological implications for assisted migration in Canadian forests. Forest Chronicle. 2011;87(6):713-44.

  46. Nakota A, Nation S. Research of the Tlous pertaining to TransCanada's proposed McLeod River NGTL pipeline. ANSN Consultation Office; 2015.

  47. Blanchette RA. Haploporus odorus: A sacred fungus in traditional native American culture of the Northern Plains. Mycologia. 1997;89(2):233-40.

  48. Svanberg I. Ethnomycological notes on Haploporus odorus and other polypores in Northern Fennoscandia. J Northern Stud. 2018;12(1):73-91.

  49. Morita Y, Hayashi Y, Sumi Y, Kodaira A, Shibata H. Haploporic acid A, a novel dimeric drimane sesquiterpenoid from the basidiomycete Haploporus odorus. Biosci Biotech Biochem. 1995;59(10):2008-09.

  50. Abraham WR. Bioactive sesquiterpenes produced by fungi: are they useful for humans as well? Curr Med Chem. 2001;8(6):583-606.

  51. Zmitrovich IV, Belova NV, Balandaykin ME, Bondartseva MA, Wasser SP. Cancer without pharmacological illusions and a niche for mycotherapy (review). Int J Med Mushrooms. 2019;21(2):105-19.

  52. Belova NV. Hirsutane sesquiterpenoids of higher fungi: biological activity and medicinal use. Mikologiya i Fitopatologiya. 2015;49(6):335-39 (in Russian).

  53. Hashimoto T, Tori M, Mizuno Y, Asakawa Y, Fukazawa Y. The superoxide release inhibitors, cryptoporic acids C, D, and E; dimeric drimane sesquiterpenoid ethers of isocitric acid from the fungus Cryptoporus volvatus. J Chem Soc Chem Commun. 1989;4:258-9.

  54. Asakawa Y, Hashimoto T, Mizuno Y, FukazawaY. Cryptoporic acids A-G, drimane-type sesquiterpenoid ethers of isocitric acid from the fungus Cryptoporus volvatus. Phytochemistry. 1992;31(2):579-92.

CITÉ PAR
  1. Liao Caiyu, Wu Liyan, Zhong Wenting, Zheng Qinhua, Tan Weijian, Feng Kexin, Feng Xiaolin, Meng Fanxin, Cellular Antioxidant Properties of Ischnoderma Resinosum Polysaccharide , Molecules, 27, 22, 2022. Crossref

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