词条 | Amanita virosa |
释义 |
| name = Destroying angel | image = Destroying Angel 02.jpg | image_width = 250px | regnum = Fungi | divisio = Basidiomycota | classis = Agaricomycetes | subclassis = Hymenomycetes | ordo = Agaricales | familia = Amanitaceae | genus = Amanita | species = A. virosa | binomial = Amanita virosa | binomial_authority = (Fr.) Bertillon }}{{mycomorphbox | name=Amanita virosa | whichGills=free | capShape=convex | capShape2=flat | hymeniumType=gills | stipeCharacter=ring and volva | ecologicalType=mycorrhizal | sporePrintColor=white | howEdible=deadly }} Amanita virosa, commonly known in Europe as the destroying angel, is a deadly poisonous basidiomycete fungus, one of many in the genus Amanita. Occurring in Europe, A. virosa associates with various deciduous and coniferous trees. The large fruiting bodies (i.e., the mushrooms) appear in summer and autumn; the caps, stipes and gills are all white in colour. Immature specimens of A. virosa resemble several edible species commonly consumed by humans, increasing the risk of accidental poisoning. Small specimens may resemble the common Portobello mushroom to non-experts, but just one cap of A. virosa is enough to kill an adult human.[1] The symptoms of poisoning comes generally several hours afterwards, a fact which makes this fungus even more problematic. Along with its geographical namesakes, A. virosa is one of the most poisonous of all known poisonous mushrooms; its principal toxic constituent α-amanitin damages the liver and kidneys, usually fatally. Taxonomy and namingThe common name of destroying angel is applied to several all-white species of poisonous Amanita, to this species in Europe and to Amanita bisporigera in eastern North America, and A. ocreata in the west. A. virosa was first collected and described by Elias Magnus Fries in Sweden. Its specific epithet virosa derived from the Latin adjective virōsus 'toxic'[2][3] (compare virus). Amanita virosa is very similar to several other species of all-white amanitas known as destroying angels, which has led to confusion over which occurs where. This specific name has been applied to all-white destroying angels occurring in North America, though others propose these all belong to Amanita bisporigera and other rarer species instead. There has been some question over whether Amanita verna is a valid species. DescriptionAmanita virosa first appears as a white egg-shaped object covered with a universal veil. As it grows, the mushroom breaks free, though there may be ragged patches of veil at the cap edges. The cap is initially conical with inturned edges, before becoming hemispherical and flattening with a diameter up to {{convert|12|cm|in|frac=4|abbr=on}}. The cap often has a distinctive boss; it is able to be peeled and white, though the centre may be ivory in colour. The crowded free gills are white, as is the stipe and volva. The thin stipe is up to {{convert|15|cm|in|abbr=on}} tall, with a hanging grooved ring. The spore print is white and the spores egg-shaped conical and 7–10 μm long. They stain blue with iodine. The flesh is white, with a taste reminiscent of radishes, and turns bright yellow with sodium hydroxide.[4]This fungus highlights the danger of picking immature fungi as it resembles the edible mushrooms Agaricus arvensis and A. campestris, and the puffballs (Lycoperdon spp. ) before the caps have opened and the gills have become visible. The ability to be peeled has been taken as a sign of edibility in mushrooming, which is a potentially lethal mistake in this species. It is unclear why this fungus, which more closely resembles edible species, has been implicated in fewer deaths than the death cap, though its rarity may contribute to this.[5] Distribution and habitatAmanita virosa is found in mixed woodland, especially in association with beech, on mossy ground in summer and autumn.[4] Most Amanita species form ectomycorrhizal relationships with the roots of certain trees. ToxicityAmanita virosa is highly toxic, and has been responsible for severe mushroom poisonings.[1] Like the closely related death cap (A. phalloides), it contains the highly toxic amatoxins, as well as phallotoxins. Some authorities strongly advise against putting these fungi in the same basket with those collected for the table and to avoid touching them.[6][7]Amatoxins consist of at least eight compounds with a similar structure, that of eight amino-acid rings; they were isolated in 1941 by Heinrich O. Wieland and Rudolf Hallermayer of the University of Munich.[8] Of the amatoxins, α-amanitin is the chief component and along with β-amanitin is likely responsible for the toxic effects.[9][10] Their major toxic mechanism is the inhibition of RNA polymerase II, a vital enzyme in the synthesis of messenger RNA (mRNA), microRNA, and small nuclear RNA (snRNA). Without mRNA essential protein synthesis and hence cell metabolism grind to a halt and the cell dies.[11] The liver is the principal organ affected, as it is the organ which is first encountered after absorption in the gastrointestinal tract, though other organs, especially the kidneys, are susceptible.[1] The phallotoxins consist of at least seven compounds, all of which have seven similar peptide rings. Phalloidin was isolated in 1937 by Feodor Lynen, Heinrich Wieland's student and son-in-law, and Ulrich Wieland of the University of Munich. Though phallotoxins are highly toxic to liver cells,[12] they have since been found to have little input into the destroying angel's toxicity as they are not absorbed through the gut.[11] Furthermore, phalloidin is also found in the edible (and sought-after) Blusher (Amanita rubescens).[8] Another group of minor active peptides are the virotoxins, which consist of six similar monocyclic heptapeptides.[13] Like the phallotoxins they do not exert any acute toxicity after ingestion in humans.[11] TreatmentConsumption of Amanita virosa is a medical emergency requiring hospitalization. There are four main categories of therapy for poisoning: preliminary medical care, supportive measures, specific treatments, and liver transplantation.[14] Preliminary care consists of gastric decontamination with either activated carbon or gastric lavage. However, due to the delay between ingestion and the first symptoms of poisoning, it is commonplace for patients to arrive for treatment many hours after ingestion, potentially reducing the efficacy of these interventions.[14][15] Supportive measures are directed towards treating the dehydration which results from fluid loss during the gastrointestinal phase of intoxication and correction of metabolic acidosis, hypoglycemia, electrolyte imbalances, and impaired coagulation.[14] No definitive antidote for amatoxin poisoning is available, but some specific treatments have been shown to improve survivability. High-dose continuous intravenous penicillin G has been reported to be of benefit, though the exact mechanism is unknown,[16] and trials with cephalosporins show promise.[1][17] There is some evidence that intravenous silibinin, an extract from the blessed milk thistle (Silybum marianum), may be beneficial in reducing the effects of death cap poisoning. Silibinin prevents the uptake of amatoxins by hepatocytes, thereby protecting undamaged hepatic tissue; it also stimulates DNA-dependent RNA polymerases, leading to an increase in RNA synthesis.[18][19][20] N-acetylcysteine has shown promise in combination with other therapies.[21] Animal studies indicate the amatoxins deplete hepatic glutathione;[22] N-acetylcysteine serves as a glutathione precursor and may therefore prevent reduced glutathione levels and subsequent liver damage.[23] None of the antidotes used have undergone prospective, randomized clinical trials, and only anecdotal support is available. Silibinin and N-acetylcysteine appear to be the therapies with the most potential benefit.[14] Repeated doses of activated carbon may be helpful by absorbing any toxins that are returned to the gastrointestinal tract following enterohepatic circulation.[24] Other methods of enhancing the elimination of the toxins have been trialed; techniques such as hemodialysis,[25] hemoperfusion,[26] plasmapheresis,[27] and peritoneal dialysis[28] have occasionally yielded success but overall do not appear to improve outcome.[11] In patients developing liver failure, a liver transplant is often the only option to prevent death. Liver transplants have become a well-established option in amatoxin poisoning.[29][30][31] This is a complicated issue, however, as transplants themselves may have significant complications and mortality; patients require long-term immunosuppression to maintain the transplant.[14] That being the case, there has been a reassessment of criteria such as onset of symptoms, prothrombin time (PTT), serum bilirubin, and presence of encephalopathy for determining at what point a transplant becomes necessary for survival.[32][33][34] Evidence suggests that, although survival rates have improved with modern medical treatment, in patients with moderate to severe poisoning up to half of those who did recover suffered permanent liver damage.[1] However, a follow-up study has shown that most survivors recover completely without any sequelae if treated within 36 hours of mushroom ingestion.[35] ResearchAmanita virosa extract has antibacterial efficacy against Pseudomonas aeruginosa and Staphylococcus aureus in vitro.[36] It also has shown inhibitory activity on thrombin.[37]See also{{Portal|Fungi}}
References1. ^1 2 3 4 {{cite book|last1=Benjamin|first1=Denis R|title=Mushrooms: Poisons and Panaceas : a Handbook for Naturalists, Mycologists, and Physicians|date=1995|publisher=W.H. Freeman|location=New York|isbn=978-0716726494|pages=198–241|url=https://books.google.com/?id=WOVlQgAACAAJ|ref=benjamin}} 2. ^{{cite book | last = Simpson | first = D.P. | title = Cassell's Latin Dictionary | publisher = Cassell Ltd. | year = 1979 | edition = 5 | location = London | pages = 883 | isbn = 978-0-304-52257-6}} 3. ^{{cite book | last = Nilson|first= Sven |author2= Olle Persson | year = 1977 | title = Fungi of Northern Europe 2: Gill-Fungi | publisher = Penguin|isbn=978-0-14-063006-0|page=54}} 4. ^1 {{cite book|last=Zeitlmayr|first= Linus|year=1976|title=Wild Mushrooms:An Illustrated Handbook|pages=62–63|publisher=Garden City Press|location=Hertfordshire|isbn= 978-0-584-10324-3}} 5. ^{{cite book | author = Ramsbottom J | year = 1953 | title = Mushrooms & Toadstools |page=39 | publisher = Collins | isbn = 978-1-870630-09-2}} 6. ^{{cite book|last1=Jordan|first1=Peter|last2=Wheeler|first2=Steven|title=The Ultimate Mushroom Book|date=2001|publisher=Hermes House|location=London|isbn=978-1-85967-092-7|page=99}} 7. ^{{cite book | author = Carluccio A | year = 2003 | title = The Complete Mushroom Book | publisher = Quadrille | location = London|pages = 224| isbn = 978-1-84400-040-1}} 8. ^1 {{cite journal |doi=10.1038/scientificamerican0375-90 |last=Litten|first= W. |date=March 1975 |title=The most poisonous mushrooms |journal=Scientific American |volume=232 |issue=3 |pages=90–101 |pmid=1114308}} 9. ^{{cite journal |author=Köppel C |title=Clinical symptomatology and management of mushroom poisoning |journal=Toxicon |volume=31 |issue=12 |pages=1513–40 |year=1993 |pmid=8146866 |doi=10.1016/0041-0101(93)90337-I}} 10. ^{{cite book |last=Dart| first= RC |chapter=Mushrooms |title=Medical toxicology |publisher=Williams & Wilkins| location=Philadelphia |year=2004|pages=1719–35| isbn=978-0-7817-2845-4}} 11. ^1 2 3 {{cite journal |vauthors=Karlson-Stiber C, Persson H |title=Cytotoxic fungi - an overview |journal=Toxicon |volume=42 |issue=4 |pages=339–49 |year=2003 |pmid=14505933|doi=10.1016/S0041-0101(03)00238-1}} 12. ^{{cite journal |vauthors=Wieland T, Govindan VM |title=Phallotoxins bind to actins |journal=FEBS Lett. |volume=46 |issue=1 |pages=351–53 |year=1974 |pmid=4429639|doi=10.1016/0014-5793(74)80404-7}} 13. ^{{cite journal|first=János| last=Vetter|date=January 1998| title=Toxins of Amanita phalloides| journal=Toxicon| volume=36| issue=1 |pages=13–24|pmid=9604278| doi=10.1016/S0041-0101(97)00074-3}} 14. ^1 2 3 4 {{cite journal |vauthors=Enjalbert F, Rapior S, Nouguier-Soulé J, Guillon S, Amouroux N, Cabot C |title=Treatment of amatoxin poisoning: 20-year retrospective analysis |journal=Journal of Toxicology: Clinical Toxicology |volume=40 |issue=6 |pages=715–57 |year=2002 |pmid=12475187 |doi=10.1081/CLT-120014646}} 15. ^{{cite journal |vauthors=Vesconi S, Langer M, Iapichino G, Costantino D, Busi C, Fiume L |title=Therapy of cytotoxic mushroom intoxication |journal=Critical Care Medicine |volume=13 |issue=5 |pages=402–6 |year=1985 |pmid=3987318 |doi=10.1097/00003246-198505000-00007}} 16. ^{{cite journal| last=Floerscheim| first=G.L.| first2=O. |last2=Weber |first3=P. |last3=Tschumi |first4=M. |last4=Ulbrich|date=August 1982|title=Die klinische knollenblatterpilzvergiftung (Amanita Phalloides): prognostische faktoren und therapeutische massnahmen (Clinical death-cap (Amanita phalloides) poisoning: prognostic factors and therapeutic measures.)| journal=Schweizerische Medizinische Wochenschrift |volume=112 |issue=34 |pages=1164–77 |pmid=6291147|language=de}} 17. ^{{cite journal|author=Neftel, K.|date=January 1988|title=(Are cephalosporins more active than penicillin G in poisoning with the deadly Amanita?)|journal=Schweizerische Medizinische Wochenschrift|volume=118| issue=2|pages=49–51|pmid=3278370|language=de|display-authors=etal}} 18. ^{{cite journal |vauthors=Hruby K, Csomos G, Fuhrmann M, Thaler H |title=Chemotherapy of Amanita phalloides poisoning with intravenous silibinin |journal=Human Toxicology |volume=2 |issue=2 |pages=183–95 |year=1983 |pmid=6862461 |doi=10.1177/096032718300200203}} 19. ^{{cite journal|author=Carducci, R.|date=May 1996| title=Amanita_phalloides (cmd-click)">Silibinin and acute poisoning with Amanita phalloides|journal=Minerva Anestesiologica|volume=62 |issue=5 |pages=187–93|pmid=8937042|language=it|display-authors=etal|title-link=Silibinin and acute poisoning with Amanita phalloides}} 20. ^{{cite book| last=Jahn| first=W.|year=1980|chapter=Pharmacokinetics of {3H}-methyl-dehydroxymethyl-amanitin in the isolated perfused rat liver, and the influence of several drugs| editor=Helmuth Faulstich, B. Kommerell & Theodore Wieland| title=Amanita toxins and poisoning|publisher=Witzstrock| location=Baden-Baden|pages=80–85|isbn=978-3-87921-132-6}} 21. ^{{cite journal |vauthors=Montanini S, Sinardi D, Praticò C, Sinardi A, Trimarchi G |title=Use of acetylcysteine as the life-saving antidote in Amanita phalloides (death cap) poisoning. Case report on 11 patients |journal=Arzneimittel-Forschung |volume=49 |issue=12 |pages=1044–7 |year=1999 |pmid=10635453 |doi=10.1055/s-0031-1300549}} 22. ^{{cite journal |vauthors=Kawaji A, Sone T, Natsuki R, Isobe M, Takabatake E, Yamaura Y |title=In vitro toxicity test of poisonous mushroom extracts with isolated rat hepatocytes |journal=The Journal of Toxicological Sciences |volume=15 |issue=3 |pages=145–56 |year=1990 |pmid=2243367 |doi=10.2131/jts.15.145}} 23. ^{{cite journal |vauthors=Chyka P, Butler A, Holliman B, Herman M |title=Utility of acetylcysteine in treating poisonings and adverse drug reactions |journal=Drug Safety |volume=22 |issue=2 |pages=123–48 |year=2000 |pmid=10672895 |doi=10.2165/00002018-200022020-00005}} 24. ^{{cite journal |doi=10.1056/NEJM197904053001418 |vauthors=Busi C, Fiume L, Costantino D, Langer M, Vesconi F |title=Amanita toxins in gastroduodenal fluid of patients poisoned by the mushroom, Amanita phalloides |journal=New England Journal of Medicine |volume=300 |issue=14 |pages=800 |year=1979 |pmid=423916}} 25. ^{{cite journal |vauthors=Sabeel AI, Kurkus J, Lindholm T |title=Intensive hemodialysis and hemoperfusion treatment of Amanita mushroom poisoning |journal=Mycopathologia |volume=131 |issue=2 |pages=107–14 |year=1995 |pmid=8532053 |doi=10.1007/BF01102888}} 26. ^{{cite journal |doi=10.1136/bmj.2.6150.1465 |vauthors=Wauters JP, Rossel C, Farquet JJ |title=Amanita phalloides poisoning treated by early charcoal haemoperfusion |journal=British Medical Journal |volume=2 |issue=6150 |pages=1465 |year=1978 |pmid=719466 |pmc=1608737}} 27. ^{{cite journal |vauthors=Jander S, Bischoff J, Woodcock BG |title=Plasmapheresis in the treatment of Amanita phalloides poisoning: II. A review and recommendations |journal=Therapeutic Apheresis |volume=4 |issue=4 |pages=308–12 |year=2000 |pmid=10975479| doi=10.1046/j.1526-0968.2000.004004303.x}} 28. ^{{cite journal |vauthors=Langer M, Vesconi S, Iapichino G, Costantino D, Radrizzani D |title=The early removal of amatoxins in the treatment of Amanita phalloides poisoning |language=German |journal=Klinische Wochenschrift |volume=58 |issue=3 |pages=117–23 |year=1980 |pmid=7366125 |doi=10.1007/BF01477268}} 29. ^{{cite journal|vauthors=Klein AS, Hart J, Brems JJ, Goldstein L, Lewin K, Busuttil RW |date=February 1989|title= Amanita poisoning: treatment and the role of liver transplantation|journal=American Journal of Medicine| volume=86| issue=2| pages=187–93|pmid=2643869|doi=10.1016/0002-9343(89)90267-2}} 30. ^{{cite journal|vauthors=Pinson CW, Daya MR, Benner KG, Norton RL, Deveney KE, Ascher NL, Roberts JP, Lake JR, Kurkchubasche AG, Ragsdale JW |date=May 1990| title=Liver transplantation for severe Amanita phalloides mushroom poisoning| journal=American Journal of Surgery|volume=159|issue=5|pages=493–9|pmid=2334013|doi=10.1016/S0002-9610(05)81254-1}} 31. ^{{cite journal |vauthors=Ganzert M, Felgenhauer N, Zilker T |title=Indication of liver transplantation following amatoxin intoxication |journal=Journal of Hepatology |volume=42 |issue=2 |pages=202–9 |year=2005 |pmid=15664245|doi=10.1016/j.jhep.2004.10.023}} 32. ^{{cite journal|last=O'grady| first=John G.| first2=Graeme J.M. |last2=Alexander |first3=Karen M. |last3=Hayllar |first4=Roger |last4=Williams|title=Early indicators of prognosis in fulminant hepatic failure|date=August 1989| journal=Gastroenterology|volume=97| issue=2| pages=439–445|pmid=2490426| doi=10.1016/0016-5085(89)90081-4}} 33. ^{{cite journal| last=Panaro| first=Fabrizio| first2=Enzo |last2=Andorno |first3=Nicola |last3=Morelli |first4=Marco |last4=Casaccia |first5=Giuliano |last5=Bottino |first6=Ferruccio |last6=Ravazzoni |first7=Monica |last7=Centanaro |first8=Sara |last8=Ornis |first9=Umberto |last9=Valente|date=April 2006| title=Letter to the editor: Liver transplantation represents the optimal treatment for fulminant hepatic failure from Amanita phalloides poisoning| journal= Transplant International|volume=19 |issue=4 |pages=344–45| pmid=16573553|doi=10.1111/j.1432-2277.2006.00275.x}} 34. ^{{cite journal |vauthors=Escudié L, Francoz C, Vinel JP, Moucari R, Cournot M, Paradis V, Sauvanet A, Belghiti J, Valla D, Bernuau J, Durand F |title=Amanita phalloides poisoning: reassessment of prognostic factors and indications for emergency liver transplantation |journal=J. Hepatol. |volume=46 |issue=3 |pages=466–73 |year=2007 |pmid=17188393 |doi=10.1016/j.jhep.2006.10.013}} 35. ^{{cite journal |vauthors=Giannini L, Vannacci A, Missanelli A, Mastroianni R, Mannaioni PF, Moroni F, Masini E |title=Amatoxin poisoning: A 15-year retrospective analysis and follow-up evaluation of 105 patients |journal=Clinical Toxicology |volume=45 |issue=5 |pages=539–42 |year=2007 |pmid=17503263 |doi=10.1080/15563650701365834}} 36. ^{{cite journal | doi = 10.1080/13880200701575189| title = Antibacterial Activity in Higher Fungi (Mushrooms) and Endophytic Fungi from Slovenia| journal = Pharmaceutical Biology| volume = 45| issue = 9| pages = 700| year = 2008| last1 = Janeš| first1 = Damjan| last2 = Kreft| first2 = Samo| last3 = Jurc| first3 = Maja| last4 = Seme| first4 = Katja| last5 = Štrukelj| first5 = Borut}} 37. ^{{cite journal |last1=Doljak |first1=B. |last2=Stegnar |first2=M. |last3=Urleb |first3=U. |last4=Kreft |first4=S. |last5=Umek |first5=A. |last6=Ciglarič |first6=M. |last7=Štrukelj |first7=B. |last8=Popovič |first8=T. |title=Screening for selective thrombin inhibitors in mushrooms |journal=Blood Coagulation and Fibrinolysis |volume=12 |issue=2 |pages=123–8 |year=2001 |pmid=11302474 |doi=10.1097/00001721-200103000-00006 }} Sources
5 : Amanita|Deadly fungi|Hepatotoxins|Poisonous fungi|Fungi of Europe |
随便看 |
|
开放百科全书收录14589846条英语、德语、日语等多语种百科知识,基本涵盖了大多数领域的百科知识,是一部内容自由、开放的电子版国际百科全书。