Mechanisms of Chronic Fialuridine Hepatotoxicity; Comparison of Models for Predicting Cardiotoxicity in Humans; and More Featured in October 2019 Toxicological Sciences
Issue Also Contains Papers on Prenatal Dexamethasone Exposures in Female Rat Offspring and Epigenetic Changes to Mouse Livers
Newswise — In the October 2019 issue of Toxicological Sciences, articles on epigenetic changes to mouse livers; prenatal dexamethasone exposures in female rat offspring; and mechanisms of chronic fialuridine hepatotoxicity are highlighted. There also are open access articles on the comparison of models for predicting cardiotoxicity in humans and on the role of miR-380-3p (a microRNA dysregulated by PQ) in paraquat-induced toxicity in mouse neuronal cells.
- TOX SPOTLIGHT “Widespread Epigenetic Changes to the Enhancer Landscape of Mouse Liver Induced by a Specific Xenobiotic Agonist Ligand of the Nuclear Receptor CAR”
- TOX SPOTLIGHT “Prenatal Dexamethasone Exposure Induced Alterations in Neurobehavior and Hippocampal Glutamatergic System Balance in Female Rat Offspring”
- TOX SPOTLIGHT “Mechanisms of Chronic Fialuridine Hepatotoxicity as Revealed in Primary Human Hepatocyte Spheroids”
- OPEN ACCESS “Comparison of Zebrafish Larvae and hiPSC Cardiomyocytes for Predicting Drug-Induced Cardiotoxicity in Humans”
- OPEN ACCESS “Nrf2-Regulated miR-380-3p Blocks the Translation of Sp3 Protein and Its Mediation of Paraquat-Induced Toxicity in Mouse Neuroblastoma N2a Cells”
Toxicological Sciences is the official journal of the Society of Toxicology (SOT), a professional and scholarly organization of more than 8,100 scientists from academic institutions, government, and industry representing the great variety of individuals who practice toxicology in the United States and other countries.