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01-07-2011 | Review Article

Mushroom toxins: a forensic toxicological review

Authors: Kunio Gonmori, Hiroki Fujita, Kazumasa Yokoyama, Kanako Watanabe, Osamu Suzuki

Published in: Forensic Toxicology | Issue 2/2011

Abstract

Mushrooms are ubiquitous in the world. Amateur hunters harvest mushrooms growing in forests to enjoy eating them as seasonal delicacies, and occasionally they cause poisonings and even deaths. In this review, mushroom toxins are tabulated according to mushroom species, symptoms, toxicities and analytical methods on the basis of references. Second, because we constructed a method for analysis of amatoxins, the most virulent mushroom toxins, by liquid chromatography-time-of-flight-mass spectrometry, we introduce it for use in forensic toxicology. Third, an extensive poisoning incident after consumption of the usually edible mushroom Pleurocybella porrigens took place in nine prefectures in Japan from September to December 2004, resulting in 59 poisoned people including 19 deaths; this incident is briefly described and discussed in relation to its causative toxin(s). Finally, we present the chemical structures of new toxins purified from the highly toxic mushrooms Podostroma cornu-damae and Russula subnigricans; their structures were very unique, and the toxicities were comparable to those of amatoxins. From the forensic toxicological point of view, reports on sophisticated methodology for analyses of mushroom toxins seem to be too scant even for the well-known toxins. Hereafter, a number of toxic mushrooms and their new toxins are expected to be disclosed, especially because of environmental changes such as the global warming phenomenon.

Gonmori K, Yoshioka N (2005) Mushroom toxins. In: Suzuki O, Watanabe K (eds) Drugs and poisons in humans: a handbook of practical analysis. Springer, Berlin, pp 469–480CrossRef

Spoerke DG, Rumack BH (eds) (1994) Handbook of mushroom poisoning: diagnosis and treatment. CRC Press, Boca Raton

Karlson-Stiber C, Persson H (2003) Cytotoxic fungi—an overview. Toxicon 42:339–349PubMedCrossRef

Berger KJ, Guss DA (2005) Mycotoxins revisited: part I. J Emerg Med 28:53–62PubMedCrossRef

Berger KJ, Guss DA (2005) Mycotoxins revisited: part II. J Emerg Med 28:175–183PubMedCrossRef

Chilton WS, Tsou G, De Cato L Jr, Malone MH (1973) Unsaturated norleucines of Amanita solitaria. Chemical and pharmacological studies. Lloydia 36:169–173PubMed

Bessard J, Saviuc P, Chane-Yene Y, Monnet S, Bessard G (2004) Mass spectrometric determination of acromelic acid A from a new poisonous mushroom: Clitocybe amoenolens. J Chromatogr A 1055:99–107PubMedCrossRef

Liddle PAP, De Smedt P, Cresto B, Houllemare A (1979) Determination of agaric acid in alcoholic beverages (in French). Annales des Falsifications et de l’Expertise Chimique 72:125–132

Baselt RC (2004) Disposition of toxic drugs and chemicals in man, 7th edn. Biomedical Publications, Foster City, pp 41–42

10.

Ahmed WHA, Gonmori K, Suzuki M, Watanabe K, Suzuki O (2010) Simultaneous analysis of α-amanitin, β-amanitin, and phalloidin in toxic mushrooms by liquid chromatography coupled to time-of-flight mass spectrometry. Forensic Toxicol 28:69–76CrossRef

11.

Tanahashi M, Kaneko R, Hirata Y, Hamajima M, Arinobu T, Ogawa T, Ishii A (2010) Simple analysis of α-amanitin and β-amanitin in human plasma by liquid chromatography–mass spectrometry. Forensic Toxicol 28:110–114CrossRef

12.

Andary C, Privat G, Serrans JJ, Francois C (1977) 5-Hydroxyindole derivatives of Amanita. Chemical and pharmacological study (in French). Collection de Medicine Legale et de Toxicologie Medicale 106:43–54

13.

Takahashi M, Nagashima M, Suzuki J, Seto T, Yasuda I, Yoshida T (2009) Creation and application of psychoactive designer drugs data library using liquid chromatography with photodiode array spectrophotometry detector and gas chromatography-mass spectrometry. Talanta 77:1245–1272PubMedCrossRef

14.

Shen H-W, Jiang X-L, Yu A-M (2009) Development of a LC–MS/MS method to analyze 5-methoxy-N,N-dimethyltryptamine and bufotenine: application to pharmacokinetic study. Bioanalysis 1:87–95PubMedCrossRef

15.

Konno K, Hayano K, Shirahama H, Saito H, Matsumoto T (1982) Clitidine, a new toxic pyridine nucleoside from Clitocybe acromelalga. Tetrahedron 38:3281–3284CrossRef

16.

Tebbett IR, Caddy B (1984) Analysis of Cortinarius toxins by reversed-phase high-performance liquid chromatography. J Chromatogr 283:417–420PubMedCrossRef

17.

Suzuki K, Fujimoto H, Yamazaki M (1983) The toxic principles of Naematoloma fasciculare. Chem Pharm Bull 31:2176–2178PubMed

18.

Ding Y, Bao HY, Ban T, Li Y, Young H (2009) Antitumor components from Naematoloma fasciculare. J Microbiol Biotechnol 19:1135–1138

19.

De Bernardi M, Mellerio G, Vidari G, Vita-Finzi P, Frouza G, Kocor M, Pyrek JS (1981) Fungal metabolites IX. Triterpenes from Naematoloma sublateritium. J Nat Prod 44:351–356CrossRef

20.

Mäkinen SM, Kreula M, Kauppi M (1977) Acute oral toxicity of ethylidene gyromitrin in rabbits, rats and chickens. Food Cosmet Toxicol 15:575–578PubMedCrossRef

21.

Arshadi M, Nilsson C, Magnusson B (2006) Gas chromatography-mass spectrometry determination of the pentafluorobenzoyl derivative of methylhydrazine in false morel (Gyromitra esculenta) as a monitor for the content of the toxin gyromitrin. J Chromatogr A 1125:229–233PubMedCrossRef

22.

Pellati F, Benvenuti S (2007) Chromatographic and electrophoretic methods for the analysis of phenethylamine alkaloids in Citrus aurantium. J Chromatogr A 1161:71–88PubMedCrossRef

23.

Theobald W, Buech O, Kunz HA, Krupp P, Stenger EG, Heimann H (1968) Pharmacological and experimental psychological studies with two components of fly agaric, Amanita muscaria (in German). Arzneim-Forsch 18:311–315

24.

Tsujikawa K, Kuwayama K, Miyaguchi H, Kanamori T, Iwata Y, Inoue H, Yoshida T, Kishi T (2007) Determination of muscimol and ibotenic acid in Amanita mushrooms by high-performance liquid chromatography and liquid chromatography-tandem mass spectrometry. J Chromatogr B 852:430–435CrossRef

25.

Nakanishi K, Ohashi M, Tada M, Yamada Y (1965) Illudin S (lampterol). Tetrahedron 21:1231–1246PubMedCrossRef

26.

Kasahara Y, Itou T (2009) Determination of illudin S in Omphalotus guepiniformis and foods that caused food poisoning by liquid chromatography with tandem mass spectrometry (in Japanese with English abstract). Shokuhin Eiseigaku Zasshi 50:167–172PubMedCrossRef

27.

Kanamori-Kataoka M, Seto Y, Kuramoto M (2006) Development of a method for determining illudin S in food by gas chromatography-mass spectrometry. J Health Sci 52:237–242CrossRef

28.

Waser PG (1961) Chemistry and pharmacology of muscarine, muscarone and some related compounds. Phamacol Rev 13:465–515

29.

Young A (1994) Muscarine-containing mushrooms. In: Spoerke DG, Rumack BH (eds) Handbook of mushroom poisoning: diagnosis and treatment. CRC Press, Boca Raton, pp 289–301

30.

Chung W-C, Tso S-C, Sze S-T (2007) Separation of polar mushroom toxins by mixed-mode hydrophilic and ionic interaction liquid chromatography-electrospray ionization-mass spectrometry. J Chromatogr Sci 45:104–111PubMed

31.

Holmdahl J, Ahlmén J, Bergek S, Lundberg S, Persson SÅ (1987) Isolation and nephrotoxic studies of orellanine from the mushroom Cortinarius speciosissimus. Toxicon 25:195–199PubMedCrossRef

32.

Cantin D, Richard JM, Alary J (1989) Chromatographic behaviour and determination of orellanine, a toxin from the mushroom Cortinarius orellanus. J Chromatogr 478:231–237PubMed

33.

Watanabe K, Fujita H, Hasegawa K, Gonmori K, Suzuki O (2011) GC/MS with post-column switching for large volume injection of headspace samples: sensitive determination of volatile organic compounds in human whole blood and urine. Anal Chem 83:1475–1479PubMedCrossRef

34.

Kamata T, Nishikawa M, Katagi M, Tsuchihashi H (2003) Optimized glucuronide hydrolysis for the detection of psilocin in human urine samples. J Chromatogr B 796:421–427CrossRef

35.

Fehrenbach T, Cui Y, Faulstich H, Keppler D (2003) Characterization of the transport of the bicyclic peptide phalloidin by human hepatic transport proteins. Naunyn Schmiedebergs Arch Pharmacol 368:415–420PubMedCrossRef

36.

Maurer HH, Schmitt CJ, Weber AA, Kraemer T (2000) Validated electrospray liquid chromatographic–mass spectrometric assay for the determination of the mushroom toxins α-amanitin and β-amanitin in urine after immunoaffinity extraction. J Chromatogr B 748:125–135CrossRef

37.

Filigenzi MS, Poppenga RH, Tiwary AK, Puschner B (2007) Determination of α-amanitin in serum and liver by multistage linear ion trap mass spectrometry. J Agric Food Chem 55:2784–2790PubMedCrossRef

38.

Gonmori K, Watanabe K, Ito K, Toriumi Y, Muto H, Toyoshima I, Sato S, Yoshioka N, Suzuki O (2005) Situation of occurrence of an acute encephalopathy in Akita Prefecture, and a toxicological approach to clarify the disorder (in Japanese). Jpn J Clin Toxicol 18:249–255

39.

Gonmori K, Yokoyama K (2009) Acute encephalopathy caused by cyanogenic fungi in 2004, and magic mushroom regulation in Japan (in Japanese with English abstract). Jpn J Clin Toxicol 22:61–69

40.

Ishii A, Seno H, Watanabe-Suzuki K, Suzuki O, Kumazawa T (1998) Determination of cyanide in whole blood by capillary gas chromatography with cryogenic oven trapping. Anal Chem 70:4873–4876PubMedCrossRef

41.

Shindo T, Ushiyama H, Kan K, Yasuda K (1999) Study on content of cyanide in basidiomycetes and the effect of cooking (in Japanese with English abstract). Shokuhin Eiseigaku Zasshi 40:29–35

42.

Stijve T, de Meijer AAR (1999) Hydrocyanic acid in mushrooms, with special reference to wild growing and cultivated edible species. Deutche Lebensmittel-Rundshau 95:366–373

43.

Tor-Agbidye J, Palmer VS, Lasarev MR, Craig AM, Blythe LL, Sabri MI, Spencer PS (1999) Bioactivation of cyanide to cyanate in sulfur amino acid deficiency: relevance to neurological disease in humans subsisting on cassava. Toxicol Sci 50:228–235PubMedCrossRef

44.

Sasaki H, Akiyama H, Yoshida Y, Kondo K, Amakura Y, Kasahara Y, Maitani T (2006) Sugihiratake mushroom (angel’s wing mushroom)-induced cryptogenic encephalopathy may involve vitamin D analogues. Biol Pharm Bull 29:2514–2518PubMedCrossRef

45.

Hasegawa T, Ishibashi M, Takata T, Takano F, Ohta T (2007) Cytotoxic fatty acid from Pleurocybella porrigens. Chem Pharm Bull 55:1748–1749PubMedCrossRef

46.

Takata T, Hasegawa T, Tatsuno T, Date J, Ishigaki Y, Nakamura Y, Tomosugi N, Takano F, Ohta T (2009) Isolation of N-acetylneuraminic acid and N-glycolylneuraminic acid from Pleurocybella porrigens. J Health Sci 55:373–379CrossRef

47.

Wakimoto T, Asakawa T, Akahoshi S, Suzuki T, Nagai K, Kawagishi H, Kan T (2010) Proof of the existence of an unstable amino acid: pleurocybellaziridine in Pleurocybella porrigens. Angew Chem Int Ed 49:1–4

48.

Yokoyama K, Gonmori K (2009) Increase of poisoning by the tropical mushrooms in Japan in recent years (in Japanese with English abstract). Jpn J Clin Toxicol 22:240–248

49.

Suzuki M, Katoh Y, Kumagai H, Saitoh M, Ishikawa H, Itoh H, Shimazu K (2002) Successful treatment in a case of Podostroma cornu-damae poisoning, a deadly poisonous mushroom (in Japanese with English abstract). Jpn J Toxicol 15:177–182

50.

Saikawa Y, Okamoto H, Inui T, Makabe M, Okuno T, Sude T, Hashimoto K, Nakata M (2001) Toxic principles of a poisonous mushroom Podostroma cornu-damae. Tetrahedron 57:8277–8281CrossRef

51.

Matsuura M, Saikawa Y, Inui K, Nakae K, Igarashi M, Hashimoto K, Nakata M (2009) Identification of the toxic trigger in mushroom poisoning. Nat Chem Biol 5:465–467PubMedCrossRef

52.

Bedry R, Baudrimont I, Deffieux G, Creppy EE, Pomies JP, Ragnaud JM, Dupon M, Neau D, Gabinski C, De Witte S, Chapalain JC, Godeau P, Beylot J (2001) Wild-mushroom intoxication as a cause of rhabdomyolysis. N Engl J Med 345:798–802PubMedCrossRef

53.

Chodorowski Z, Waldman W, Sein AJ (2002) Acute poisoning with Tricholoma equestre. Przegl Lek 59:386–387PubMed

Title: Mushroom toxins: a forensic toxicological review
Authors: Kunio Gonmori
Hiroki Fujita
Kazumasa Yokoyama
Kanako Watanabe
Osamu Suzuki
Publication date: 01-07-2011
Publisher: Springer Japan
Published in: Forensic Toxicology / Issue 2/2011
Print ISSN: 1860-8965
Electronic ISSN: 1860-8973
DOI: https://doi.org/10.1007/s11419-011-0115-4

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Mushroom toxins: a forensic toxicological review

Abstract

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