Abstract
Fomitopsis betulina (Bull.) B.K. Cui, M.L. Han & Y.C. Dai; Fomitopsis pinicola (Sw.) P. Karst. - FOMITOPSIDACEAE
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Alresly Z (2019) Chemical and pharmacological investigations of Fomitopsis betulina (formerly: Piptoporus betulinus) and Calvatia gigantea. Mathematisch-Naturwissenschaftliche Fakultät der Universität GreifswaId, pp 1–241
Alresly Z, Lindequist U, Lalk M, Porzel A, Arnold N, AWessjohann, L. (2016) Bioactive triterpenes from the fungus Piptoporus betulinus. Rec Nat Prod 10(1):103
Bernicchia A, Gorjón SP (2020) Polypores of the Mediterranean Region. Segrate, Romar, 903 p
Bishop KS (2020) Characterisation of extracts and anti-cancer activities of Fomitopsis pinicola. Nutrients 12(3):609–619
Borenfreund E, Puerner JA (1985) Toxicity determined in vitro by morphological alterations and neutral red absorption. Toxicol Lett 24(2–3):119–124
Bryce TA, Campbell IM, McCorkindale NJ (1967) Metabolites of the polyporaceae-I. Novel conjugates of polyporenic acid A from Piptoporus betulinus. Tetrahedron 23:3427–3434
Cha WS, Ding JL, Shin HJ, Kim JS, Kim YS, Choi D, Lee HD, Kang HB, Lee CW (2009) Effect of Fomitopsis pinicola extract on blood glucose and lipid metabolism in diabetic rats. Korean J Chem Eng 26(6):1696–1699
Chandramu C, Manohar RD, Krupadanam DG, Dashavantha RV (2003) Isolation, characterization and biological activity of betulinic acid and ursolic acid from Vitex negundo L. Phytother Res 17(2):129–134
Cheng S, Eliaz I, Lin J, Thyagarajan-Sahu A, Sliva D (2013) Triterpenes from Poria cocos suppress growth and invasiveness of pancreatic cancer cells through the downregulation of MMP-7. Int J Oncol 42(6):1869–1874
Cross LC, Eliot CG, Heilborn IM, Jones ERH (1940) Constituents of the higher fungi. Part I. The triterpene acids of Polyporus betulinus Fr. J Chem Soc:632–636
Eiznhamer DA, Xu ZQ (2004) Betulinic acid: a promising anticancer candidate. Drugs 7:359–373
FujiMoto H, Nakayama M, Nakayama Y, Yamazaki M (1994) Isolation and characterization of immunosuppressive components of three mushrooms, Pisolithus tinctorius, Microporus flabelliformis and Lenzites betulina. Chem Pharm Bull 42(3):694–697
Fulda S, Debatin KM (2000) Betulinic acid induces apoptosis through a direct effect on mitochondria in neuroectodermal tumors. Med Pediatr Oncol 35(6):616–618
Gafforov Y, Ordynets A, Langer E, Yarasheva M, de Mello Gugliotta A, Schigel D, Pecoraro L, Zhou Y, Cai L, Zhou LW (2020) Species Diversity with comprehensive annotations of wood-inhabiting poroid and corticioid fungi in Uzbekistan. Front Microbiol 11:598321. https://doi.org/10.3389/fmicb.2020.598321
Gao JM, Wang M, Liu LP, Wei GH, Zhang AL, Draghici C, Konishi Y (2007) Ergosterol peroxides as phospholipase A2 inhibitors from the fungus Lactarius hatsudake. Phytomedicine 14(12):821–824
Gilbertson RL, Ryvarden L (1987) North American polypores, vol 1. Oslo, Fungiflora, 433 p
Grienke U, Zöll M, Peintner U, Rollinger JM (2014) European medicinal polypores- a modern view on traditional uses. J Ethnopharmacol 154:564–583
Guider M, Halsall TG, Hodges R, Jones ERH (1954) The chemistry of the triterpenes and related compounds. Part XXVI. The nature of polyporenic acid B. J Chem Soc (Resumed):3234–3238
Hobbs C (2002) Medicinal mushrooms: an exploration of tradition, healing, & culture. Botanica Press
https://ultimate-mushroom.com/edible/88-fomitopsis-betulina.html
Hybelbauerová S, Sejbal J, Dračínský M, Hahnová A, Koutek B (2008) Chemical constituents of Stereum subtomentosum and two other birch-associated Basidiomycetes: an interspecies comparative study. Chem Biodivers 5(5):743–750
Jong SC, Donovick R (1989) Antitumor and antiviral substances from fungi. Adv Appl Microbiol 34:183–262
Kamo T, Asanoma M, Shibata H, Hirota M (2003) Anti-inflammatory lanostane-type triterpene acids from Piptoporus betulinus. J Nat Prod 66(8):1104–1106
Kawagishi H, Hamajima K, Inoue Y (2002) Novel hydroquinone as a matrix metallo-proteinase inhibitor from the mushroom, Piptoporus betulinus. Biosci Biotechnol Biochem 66(12):2748–2750
Keller AC, Maillard MP, Hostettmann K (1996) Antimicrobial steroids from the fungus Fomitopsis pinicola. Phytochemistry 41(4):1041–1046
Khalilov Q, Li L, Liu Y, Tohtahon Z, Chen X, Aisa HA, Yuan T (2019) Piptolinic acids F-J, five new lanostane-type triterpenoids from Piptoporus betulinus. Nat Prod Res 33(21):3044–3051
Kindler S, Schuster M, Seebauer C, Rutkowski R, Hauschild A, Podmelle F, Metelmann C, Metelmann B, Müller-Debus C, Metelmann HR, Metelmann I (2016) Triterpenes for well-balanced scar formation in superficial wounds. Molecules 21(9):1129. https://doi.org/10.3390/molecules21091129
Krasutsky PA (2006) Birch bark research and development. Nat Prod Rep 23(6):919–942
Kuo PC, Tai SH, Hung CC, Hwang TL, Kuo LM, Lam SH, Cheng KC, Kuo DH, Hung HY, Wu TS (2021) Antiinflammatory triterpenoids from the fruiting bodies of Fomitopsis pinicola. Bioorg Chem 108:104562
Kuo YC, Weng SC, Chou CJ, Chang TT, Tsai WJ (2003) Activation and proliferation signals in primary human T lymphocytes inhibited by ergosterol peroxide isolated from Cordyceps cicadae. Br J Pharmacol 140:895–906
Lee SI, Kim JS, Oh SH, Park KY, Lee HG, Kim SD (2008) Antihyperglycemic effect of Fomitopsis pinicola extracts in streptozotocin-induced diabetic rats. J Med Food 11(3):518–524
Lemieszek MK, Langner E, Kaczor J, Kandefer-Szerszen M, Sanecka B, Mazurkiewicz W, Rzeski W (2009) Anticancer effect of fraction isolated from medicinal birch polypore mushroom, Piptoporus betulinus (Bull.: Fr.) P. Karst. (Aphyllophoromycetideae): in vitro studies. Int J Med Mushrooms 11(4):351–364
Li G, Xu ML, Lee CS, Woo MH, Chang HW, Son JK (2004) Cytotoxicity and dna topoisomerases inhibitory activity of constituents from the sclerotium of Poria cocos. Arch Pharm Res 27(8):829–833
Ling H, Zhou L, Jia X, Gapter LA, Agarwal R, Ng KY (2009) Polyporenic acid C induces caspase-8-mediated apoptosis in human lung cancer A549 cells. Mol Carcinog 48(6):498–507
Liu W, Ho J, Cheung F, Liu B (2004) Apoptotic activity of betulinic acid derivatives on murine melanoma B16 cell line. Eur J Pharmacol 498:71–78
Liu Y, Liu W, Li M, Yuan T (2022) Lanostane triterpenoids from the fruiting bodies of Fomitopsis pinicola and their anti-inflammatory activities. Phytochemistry 193:112985
Marcus S (1952) Antibacterial activity of the triterpenoid acid (polyporenic acid C) and of ungulinic acid, metabolic products of Polyporus benzoinus (Wahl.) Fr. Biochem J 50(4):516–517
Miles PG, Chang ST (2004) Mushrooms: cultivation, nutritional value, medicinal effect, and environmental impact. CRC Press
Nam KS, Jo YS, Kim YH, Hyun JW, Kim HW (2001) Cytotoxic activities of acetoxyscirpenediol and ergosterol peroxide from Paecilomyces tenuipes. Life Sci 69(2):229–237
Papp N, Rudolf K, Bencsik T, Czégényi D (2017) Ethnomycological use of Fomes fomentarius (L.) Fr. and Piptoporus betulinus (Bull.) P. Karst. in Transylvania, Romania. Genet Resour Crop Evol 64:101–111. https://doi.org/10.1007/s10722-015-0335-2
Peintner U, Pöder R, Pümpel T (1998) The iceman’s fungi. Mycol Res 102:1153–1162
Peng XR, Su HG, Liu JH, Huang YJ, Yang XZ, Li ZR, Zhou L, Qiu MH (2019) C30 and C31 triterpenoids and triterpene sugar esters with cytotoxic activities from edible mushroom Fomitopsis pinicola (Sw. ex Fr.) Krast. J Agric Food Chem 67(37):10330–10341
Rösecke J, König WA (1999) Steroids from the fungus Fomitopsis pinicola. Phytochemistry 52(8):1621–1627
Rutalek R (2002) Ethnomykologie–Eine Übersicht. Österreichische Zeitschrift für Pilzkunde 11:79–94
Ryvarden L, Gilbertson RL (1993) European polypores. 1. Abortiporus—Lindtneria; Fungi Flora: Oslo, 387
Semerdžieva M, Veselský J (1986) Léčivé houby dřive a nyni. Academia Praha, Praha
Shamtsyan M, Konusova V, Maksimova Y, Goloshchev A, Panchenko A, Simbirtsev A, Petrishchev N, Denisova N (2004) Immunostimulating and anti-tumor action of extracts of several mushrooms. J Biotechnol 13:77–83. https://doi.org/10.1016/j.jbiotec.2004.04.034
Schlegel B, Luhmann U, Haertl A, Graefe U (2000) Piptamine, a new antibiotic produced by Piptoporus betulinus Lu 9-1. J Antibiot 53(9):973–974
Sofrenić I, Anđelković B, Todorović N, Stanojković T, Vujisić L, Novaković M, Milosavljević S, Tešević V (2021) Cytotoxic triterpenoids and triterpene sugar esters from the medicinal mushroom Fomitopsis betulina. Phytochemistry 181:112580
Stamets P (1993) Growing gourmet and medicinal mushrooms. Ten Speed Press
Sukowska-Ziaja K, Muszynska B, Motyl P, Pasko P, Ekiert H (2012) Phenolic compounds and antioxidant activity in some species of polyporoid mushrooms from Poland. Int J Med Mushrooms 14(4):385–393
Tai SH, Kuo PC, Hung CC, Lin YH, Hwang TL, Lam SH, Kuo DH, Wu JB, Hung HY, Wu TS (2019) Bioassay-guided purification of sesquiterpenoids from the fruiting bodies of Fomitopsis pinicola and their anti-inflammatory activity. RSC Adv 9(59):34184–34195
Takei T, Yoshida M, Ohnishi-Kameyama M, Kobori M (2005) Ergosterol peroxide, an apoptosis-inducing component isolated from Sarcodon aspratus (Berk.) S. Ito. Biosci Biotechnol Biochem 69(1):212–215
Tohtahon Z, Xue J, Han J, Liu Y, Hua H, Yuan T (2017) Cytotoxic lanostane triterpenoids from the fruiting bodies of Piptoporus betulinus. Phytochemistry 143:98–103
Verekar SA, Gupta MK, Deshmukh SK (2021) Fomitopsis betulina: a rich source of diverse bioactive metabolites. In: Sridhar KR, Deshmukh SK (eds) Advances in “advances in macrofungi: pharmaceuticals and cosmeceuticals”. CRC Press, pp 22–66
Wang Y, Cheng X, Wang P, Wang L, Fan J, Wang X, Liu Q (2014) Investigating migration inhibition and apoptotic effects of Fomitopsis pinicola chloroform extract on human colorectal cancer SW-480 cells. PLoS One 9(7):e101303
Wangun HVK, Berg A, Hertel W, Nkengfack AE, Hertweck C (2004) Anti-inflammatory and anti-hyaluronate lyase activities of lanostanoids from Piptoporus betulinus. J Antibiot 57(11):755–758
Wasser SP (2010) Medicinal mushroom science: history, current status, future trends, and unsolved problems. Int J Med Mushrooms 12:1–16. https://doi.org/10.1615/IntJMedMushr.v12.i1.10
Weber LA, Puff C, Kalbitz J, Kietzmann M, Feige K, Bosse K, Rohn K, Cavalleri JV (2020) Concentration profiles and safety of topically applied betulinic acid and NVX-207 in eight healthy horses-A randomized, blinded, placebo-controlled, crossover pilot study. J Vet Pharmacol Ther 44(1):47–57. https://doi.org/10.1111/jvp.12903
Ying J, Mao X, Ma Q, Zong Y, Wen H (1987) Icones of medical fungi from China. Wang, H. and Fan, S. Beijing, Science Press
Yoshikawa K, Inoue M, Matsumoto Y, Sakakibara C, Miyataka H, Matsumoto H, Arihara S (2005) Lanostane Triterpenoids and triterpene glycosides from the fruit body of Fomitopsis pinicola and their inhibitory activity against COX-1 and COX-2. J Nat Prod 68(1):69–73
Zhang J, Chen B, Liang J, Han J, Zhou L, Zhao R, Liu H, Dai H (2020) Lanostane Triterpenoids with PTP1B inhibitory and glucose-uptake stimulatory activities from mushroom Fomitopsis pinicola collected in North America. J Agric Food Chem 68(37):10036–10049
Zwolińska K (2004) Evaluation of anticancer activity of extracts from birch polypore Piptoporus betulinus (Bull. ex Fr.) P. Karst. Dissertation, Maria Curie-Skłodowska University, Lublin
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2023 The Author(s), under exclusive license to Springer Nature Switzerland AG
About this chapter
Cite this chapter
Gafforov, Y. et al. (2023). Fomitopsis betulina (Bull.) B.K. Cui, M.L. Han & Y.C. Dai; Fomitopsis pinicola (Sw.) P. Karst. - FOMITOPSIDACEAE. In: Khojimatov, O.K., Gafforov, Y., Bussmann, R.W. (eds) Ethnobiology of Uzbekistan. Ethnobiology. Springer, Cham. https://doi.org/10.1007/978-3-031-23031-8_108
Download citation
DOI: https://doi.org/10.1007/978-3-031-23031-8_108
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-031-23030-1
Online ISBN: 978-3-031-23031-8
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)