Unexpected Amanita phalloides-Induced Hematotoxicity—Results from a Retrospective Study

Visser, Miranda; Hof, Willemien F. J.; Broek, Astrid M.; van Hoek, Amanda; de Jong, Joyce J.; Touw, Daan J.; Dekkers, Bart G. J.

doi:10.3390/toxins16020067

Toxins

2024

DOI: 10.3390/toxins16020067

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Unexpected Amanita phalloides-Induced Hematotoxicity—Results from a Retrospective Study

Miranda Visser,

Willemien F. J. Hof,

Astrid M. Broek

et al.

Abstract: Introduction: Amanita phalloides poisoning is a serious health problem with a mortality rate of 10–40%. Poisonings are characterized by severe liver and kidney toxicity. The effect of Amanita phalloides poisonings on hematological parameters has not been systematically evaluated thus far. Methods: Patients with suspected Amanita phalloides poisonings were retrospectively selected from the hospital database of the University Medical Center Groningen (UMCG). Medical data—including demographics; liver, kidney, an… Show more

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2024

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Cited by 2 publications

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Amanita phalloides-Associated Liver Failure: Molecular Mechanisms and Management

Kayes,

2024

IJMS

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Amanita phalloides is well-established as one of the most poisonous mushrooms; toxicity from ingestion was reported as early as the first century. Although native to Europe, this ectomycorrhizal fungus has been widely spread and is responsible for liver toxicity in many parts of the world. Toxicity is characterized by delayed gastrointestinal symptoms mimicking acute gastroenteritis followed by severe hepatotoxicity and liver failure with consequent multi-organ failure. The primary mechanism of liver toxicity is considered to be the inhibition of RNA polymerase II with consequent hepatocyte apoptosis. Treatment measures include supportive measures such as rehydration and correction of electrolytes on initial presentation, activated charcoal and lavage to decrease absorption, extracorporeal purification methods such as plasmapheresis, fractionated plasma separation and adsorption, and molecular adsorbent recirculating system, as well as drug therapies including antibiotics, N-acetylcysteine, and silibinin. Liver transplantation is required in those with acute liver failure and poor prognostic features. Here, we reviewed the basic biology, pathophysiology, and molecular mechanisms of Amanita phalloides liver toxicity, as well as available treatments.

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Amanita phalloides-Associated Liver Failure: Molecular Mechanisms and Management

Kayes,

2024

IJMS

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Unraveling Hematotoxicity of α-Amanitin in Cultured Hematopoietic Cells

Hof,

Visser,

de Jong

et al. 2024

Toxins

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Amanita phalloides poisonings account for the majority of fatal mushroom poisonings. Recently, we identified hematotoxicity as a relevant aspect of Amanita poisonings. In this study, we investigated the effects of the main toxins of Amanita phalloides, α- and β-amanitin, on hematopoietic cell viability in vitro. Hematopoietic cell lines were exposed to α-amanitin or β-amanitin for up to 72 h with or without the pan-caspase inhibitor Z-VAD(OH)-FMK, antidotes N-acetylcysteine, silibinin, and benzylpenicillin, and organic anion-transporting polypeptide 1B3 (OATP1B3) inhibitors rifampicin and cyclosporin. Cell viability was established by trypan blue exclusion, annexin V staining, and a MTS assay. Caspase-3/7 activity was determined with Caspase-Glo assay, and cleaved caspase-3 was quantified by Western analysis. Cell number and colony-forming units were quantified after exposure to α-amanitin in primary CD34+ hematopoietic stem cells. In all cell lines, α-amanitin concentration-dependently decreased viability and mitochondrial activity. β-Amanitin was less toxic, but still significantly reduced viability. α-Amanitin increased caspase-3/7 activity by 2.8-fold and cleaved caspase-3 by 2.3-fold. Z-VAD(OH)-FMK significantly reduced α-amanitin-induced toxicity. In CD34+ stem cells, α-amanitin decreased the number of colonies and cells. The antidotes and OATP1B3 inhibitors did not reverse α-amanitin-induced toxicity. In conclusion, α-amanitin induces apoptosis in hematopoietic cells via a caspase-dependent mechanism.

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Unexpected Amanita phalloides-Induced Hematotoxicity—Results from a Retrospective Study

Cited by 2 publications

References 38 publications

Amanita phalloides-Associated Liver Failure: Molecular Mechanisms and Management

Amanita phalloides-Associated Liver Failure: Molecular Mechanisms and Management

Unraveling Hematotoxicity of α-Amanitin in Cultured Hematopoietic Cells

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