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Journal of Natural Medicines
Published in: Journal of Natural Medicines 2/2023

12-01-2023 | Alkaloids | Original Paper

Ergot alkaloids in sclerotia collected in Japan: synthetic profiles and induction of apoptosis by Clavine-type compounds

Authors: Yuji Doi, Daigo Wakana, Satoshi Kitaoka, Fumiaki Sato, Eiji Tanaka, Hisashi Takeda, Tomoo Hosoe

Published in: Journal of Natural Medicines | Issue 2/2023

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Abstract

The genus Claviceps (Clavicipitaceae) is famous for producing ergot alkaloids (EAs) in sclerotia. EAs can cause ergotism, resulting in convulsions and necrosis when ingested, making these compounds a serious concern for food safety. Agroclavine (2), a typical Clavine-type EA, is a causative agent of ergotism and is listed as a compound to be monitored by the European Food Safety Authority. Clavine-type EAs are known to cause cytotoxicity, but the mechanism has not been elucidated. We performed annexin V and PI double-staining followed by flow cytometric analysis to detect apoptosis in HepG2 and PANC-1 cells after exposure to Clavine-type EAs. Clavine-type EAs reduced cell viability and induced apoptosis in both cell lines. We then performed LC–MS analysis of EAs from 41 sclerotia samples of Claviceps collected in Japan. 24 out of 41 sclerotia extracts include peptide-type EAs (ergosine/inine: 4/4′, ergotamine: 5, ergocornine/inine: 6/6′, α-ergocryptine/inine: 8/8′, and ergocristine/inine: 9/9′) and 19 sclerotia extracts among 24 sclerotia detected peptide type EAs include Clavine-type EAs (pyroclavine: 1, agroclavine: 2, festuclavine: 3) by LC–MS. We then performed a metabolomic analysis of the EAs in the sclerotia using principal component analysis (PCA). The PCA score plots calculated for EAs suggested the existence of four groups with different EA production patterns. One of the groups was formed by the contribution of Clavine-type EAs. These results suggest that Clavine-type EAs are a family of compounds requiring attention in food safety and livestock production in Japan.
Literature
1.
Flieger M, Wurst M, Shelby R (1997) Ergot alkaloids - sources, structures and analytical methods. Folia Microbiol (Praha) 42:3–30CrossRefPubMed
2.
Lee MR (2009) The history of ergot of rye (Claviceps purpurea) II: 1900–1940. J R Coll Physicians Edinburgh 39:365–369CrossRef
3.
Lee MR (2009) The history of ergot of rye (Claviceps purpurea) I: from antiquity to 1900. J R Coll Physicians Edinb 39:179–184PubMed
4.
Buchta M, Cvak L (1999) Ergot alkaloids and other metabolites of the genus Claviceps. Ergot. CRC Press, Florida, pp 188–216
5.
Krishnamachari KA, Bhat RV (1976) Poisoning by ergoty bajra (pearl millet) in man. Indian J Med Res 64:1624–1628PubMed
6.
Belser-Ehrlich S, Harper A, Hussey J, Hallock R (2013) Human and cattle ergotism since 1900. Toxicol Ind Health 70:307–316CrossRef
7.
Urga K, Asfaw D, Yeshi WM, Agata N, Abebe B, Wubalem Z (2002) Laboratory studies on the outbreak of Gangrenous ergotism associated with consumption of contaminated barley in Arsi, Ethiopia. Ethiop J Heal Dev 16:317–323
8.
European food safety Authority (2012) Scientific Opinion on ergot alkaloids in food and feed. EFSA J 10:2798
9.
Takemoto J (1944) [Investigation of “alkaloid” content in domestic and foreign wild ergot (Report 1) qualitative test.] Naigai yasei bakkaku no “alkaloid” ganyu tyousa (dai 1 hou) teisei shiken (in Japanese). Yakugaku Zasshi 64:225–228CrossRef
10.
Takemoto J (1944) [Investigation of “alkaloid” content in domestic and foreign wild ergot (Report 2) quantitative test.] Naigai yasei bakkaku no “alkaloid” ganyu tyousa (dai 2 hou) teiryou shiken (in Japanese). Yakugaku Zasshi 64:228–231CrossRef
11.
Tanaka K, Sugawa T (1952) Studies on ergot alkaloids by paper partition chromatography I. Yakugaku Zasshi 72:616–620CrossRef
12.
Tanaka K, Sugawa T (1952) Studies on ergot alkaloids by paper partition chromatography II. Yakugaku Zasshi 72:620–623CrossRef
13.
Doi Y, Wakana D, Takeda H, Tanaka E, Hosoe T (2022) Production of ergot alkaloids by the Japanese isolate Claviceps purpurea var. agropyri on rice medium. Adv Microbiol 12:254–269CrossRef
14.
Mulac D, Lepski S, Ebert F, Schwerdtle T, Humpf HU (2013) Cytotoxicity and fluorescence visualization of ergot alkaloids in human cell lines. J Agric Food Chem 61:462–471CrossRefPubMed
15.
Mrusek M, Seo EJ, Greten HJ, Simon M, Efferth T (2015) Identification of cellular and molecular factors determining the response of cancer cells to six ergot alkaloids. Invest New Drugs 33:32–44CrossRefPubMed
16.
Hothorn T, Bretz F, Westfall P (2008) Simultaneous inference in general parametric models. Biometrical J 50:346–363CrossRef
17.
Píchová K, Pažoutová S, Kostovčík M, Chudíčková M, Stodůlková E, Novák P, Flieger M, Linde E, Kolařík M (2018) Evolutionary history of ergot with a new infrageneric classification (Hypocreales: Clavicipitaceae: Claviceps). Mol Phylogenet Evol 123:73–87CrossRefPubMed
18.
Haarmann T, Lorenz N, Tudzynski P (2008) Use of a nonhomologous end joining deficient strain (Δku70) of the ergot fungus Claviceps purpurea for identification of a nonribosomal peptide synthetase gene involved in ergotamine biosynthesis. Fungal Genet Biol 45:35–44CrossRefPubMed
19.
Lorenz N, Haarmann T, Pažoutová S, Jung M, Tudzynski P (2009) The ergot alkaloid gene cluster : functional analyses and evolutionary aspects. Phytochemistry 70:1822–1832CrossRefPubMed
20.
Hicks C, Witte TE, Sproule A, Lee T, Shoukouhi P, Popovic Z, Menzies JG, Boddy CN, Liu M, Overy DP (2021) Evolution of the ergot alkaloid biosynthetic gene cluster results in divergent mycotoxin profiles in Claviceps purpurea sclerotia. Toxins (Basel) 13:861CrossRefPubMed
Metadata
Title
Ergot alkaloids in sclerotia collected in Japan: synthetic profiles and induction of apoptosis by Clavine-type compounds
Authors
Yuji Doi
Daigo Wakana
Satoshi Kitaoka
Fumiaki Sato
Eiji Tanaka
Hisashi Takeda
Tomoo Hosoe
Publication date
12-01-2023
Publisher
Springer Nature Singapore
Published in
Journal of Natural Medicines / Issue 2/2023
Print ISSN: 1340-3443
Electronic ISSN: 1861-0293
DOI
https://doi.org/10.1007/s11418-022-01673-8

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