Epoxyscillirosidine Induced Cytotoxicity and Ultrastructural Changes in a Rat Embryonic Cardiomyocyte (H9c2) Cell Line

Autor:	Gezina Catharina Helena Ferreira, Hamza Ibrahim Isa, Jan Ernst Crafford, C.J. Botha
Rok vydání:	2019
Předmět:	Cardiac glycoside Karyolysis Necrosis Cell Survival Health Toxicology and Mutagenesis Moraea pallida lcsh:Medicine Toxicology Article Cell Line necrosis Cell membrane 03 medical and health sciences chemistry.chemical_compound Microscopy Electron Transmission epoxyscillirosidine hormesis Lactate dehydrogenase medicine Animals Myocytes Cardiac MTT assay Viability assay Cytotoxicity 030304 developmental biology 0303 health sciences L-Lactate Dehydrogenase Chemistry lcsh:R 030302 biochemistry & molecular biology Embryo Mammalian Molecular biology Rats poisoning Cholenes medicine.anatomical_structure H9c2 cells Toxicity biological phenomena cell phenomena and immunity medicine.symptom LDH assay
Zdroj:	Toxins, Vol 11, Iss 5, p 284 (2019) Toxins Volume 11 Issue 5
ISSN:	2072-6651
Popis:	Moraea pallida Bak. (yellow tulp) poisoning is the most important cardiac glycoside-induced intoxication in ruminants in South Africa. The toxic principle, 1&alpha 2&alpha epoxyscillirosidine, is a bufadienolide. To replace the use of sentient animals in toxicity testing, the aim of this study was to evaluate the cytotoxic effects of epoxyscillirosidine on rat embryonic cardiomyocytes (H9c2 cell line). This in vitro cell model can then be used in future toxin neutralization or toxico-therapy studies. Cell viability, evaluated with the methyl blue thiazol tetrazolium (MTT) assay, indicated that a hormetic dose/concentration response is characterized by a biphasic low dose stimulation and high dose inhibition. Increased cell membrane permeability and leakage, as expected with necrotic cells, were demonstrated with the lactate dehydrogenase (LDH) assay. The LC50 was 382.68, 132.28 and 289.23 µ M for 24, 48, and 72 h respectively. Numerous cytoplasmic vacuoles, karyolysis and damage to the cell membrane, indicative of necrosis, were observed at higher doses. Ultra-structural changes suggested that the cause of H9c2 cell death, subsequent to epoxyscillirosidine exposure, is necrosis, which is consistent with myocardial necrosis observed at necropsy. Based on the toxicity observed, and supported by ultra-structural findings, the H9c2 cell line could be a suitable in vitro model to evaluate epoxyscillirosidine neutralization or other therapeutic interventions in the future.
Databáze:	OpenAIRE
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