What we have learned from phalloidin
| Autor: | Max Frimmer |
|---|---|
| Rok vydání: | 1987 |
| Předmět: |
Amanitins
Chemical Phenomena Phalloidine Phalloidin Amanita Mushroom Poisoning macromolecular substances Biology Toxicology medicine.disease_cause Mice chemistry.chemical_compound medicine Animals Bile Amanita phalloides Toxin General Medicine biology.organism_classification Rats Actin Cytoskeleton Chemistry medicine.anatomical_structure Liver Biochemistry chemistry Antamanide Hepatocyte Toxicity Oligopeptides Intracellular |
| Zdroj: | Toxicology Letters. 35:169-182 |
| ISSN: | 0378-4274 |
| DOI: | 10.1016/0378-4274(87)90204-9 |
| Popis: | In contrast to popular opinion phallotoxins do not play a role in poisoning with Amanita phalloides when the fungi are ingested orally. All toxic properties of this mushroom are due to amatoxins which, in contrast to the phallotoxins, are absorbed upon ingestion. Nearly all experiments on intact animals were performed by parenteral injection of phalloidin and therefore, most of these are unsuitable for practical consideration. In the present survey, however, a series of important findings are discussed, which provide insight into various functions of liver cells. When present in the blood, phalloidin and other phallotoxins are selectively taken up by hepatocytes. No other types of cells are sensitive to the toxin. No extrahepatic tissue is primarily impaired by phalloidin. Phalloidin cannot be degraded by peptidases or by proteases occurring in animals. Phalloidin is therefore a useful model substance for studies on the uptake of cyclopeptides by liver cells. The carrier system responsible for the active uptake of phalloidin can also translocate antamanide and several cyclic modifications of somatostatin. Phallotoxins bind with high affinity to microfilamentous structures, in particular to F-actin [Govindan et al., Naturwissenschaften, 59 (1972) 521-522] whereas phallotoxins are not bound to the monomer (G-actin). With respect to the strong organotropism of phallotoxins, intravenously injected phalloidin binds preferentially to microfilamentous F-actin of hepatocytes. Phalloidin is therefore a tool for inactivation of microfilamentous functions specifically in liver cells, and is suitable as a prototype of a cholestatic agent. In perfused livers arrest of bile flow is the earliest effect seen after addition of the toxin. In cells from other tissues phalloidin is only toxic when applied by intracellular microinjection. Phalloidin poisoning has been often used as a model for liver damage in the testing of hepatoprotective drugs. This substance is, however, not useful for such studies since the mechanism of phalloidin poisoning is too specific for interpretation in the sense of general liver protection. |
| Databáze: | OpenAIRE |
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