Adverse drug reactions are a major clinical problem. Drug-induced hepatotoxicity constitutes a large percentage of these reactions. A thorough understanding of the genetic events, specifically, the early "decision-making" processes underlying biological changes caused by drugs and metabolites, is required. To assist in the understanding of these events, we have employed the model hepatotoxin, paracetamol (APAP), and GeneChip technology to investigate global genetic events seen after nontoxic and toxic doses in the mouse. Mice were dosed [vehicle, nontoxic APAP (1 mmol/kg), and toxic APAP (3.5 mmol/kg)], and individual hepatic RNA samples were hybridized to separate chips to determine interanimal variation. Statistical analysis detected 175 CD-1 mouse genes that were significantly regulated (P < 4.1 x 10(-6)), and nonsignificant genes were discarded. For clarity, the significantly regulated genes were then binned into categories according to their major function-antioxidant, glutathione, metabolism, transcription, immune, and apoptosis. There was no hepatic stress observed after dosing 1 mmol/kg APAP, when measured by serum alanine aminotransferase levels. Hepatic toxicity was observed at both 4 and 24 h after a 3.5 mmol/kg dose of APAP. Time course expression profiles for selected genes have been created. These results demonstrate that most active gene expression occurs around 4 h after a toxic dose of APAP. Down-regulation of these genes is observed over 24 h, coinciding with the development of overt toxicity. These data provide a deeper understanding of the in vivo time course of physiological responses of the liver to chemical stress and provide a logical step forward for the investigation of new chemical entities demonstrated positive in chemically reactive metabolite screens. The complete data set can be viewed at http://www.ebi.ac.uk/arrayexpress/. The accession number is E-MEXP-82.
The aim of the current study was to establish the quantitative relationship between plasma potassium concentrations and the QT interval of the electrocardiogram in dogs. Furosemide, a potent diuretic, was given at increasing doses (5-60 mg/kg) to five male and five female beagle dogs. Electrocardiogram (ECG) was recorded three times each day, simultaneous to blood sampling for measurement of plasma potassium. Furosemide treatment produced a clear hypokalaemia, which was associated with an increase in QT and corrected QT intervals (QTc) duration. On average, the slopes of the negative linear correlation between potassium plasma levels and QT or QTc were steeper in females than in males. These results show that a decrease in potassium plasma level may explain a concomitant increase in QT duration in a toxicity study in dogs, in particular if potassium values are decreased below 3.3 mmol/L. Correction of QT interval for K+ plasma level has, therefore, been established separately for males and females. A global formula correcting QT for K+ and heart rate simultaneously was established. Hypokalaemia was also associated with changes in the morphology of the T wave recorded in CV5RL, in particular, with a flattening and/or a notching of the wave (appearance of a second peak), biphasic aspect or inversion of polarity. These changes are probably related to an increased heterogeneity of repolarization between different populations of cardiomyocytes. In conclusion, hypokalaemia is quantitatively associated with an increase in QT and QTc duration in dogs. The relationship is apparently stronger for females than for males. A formula may be used to correct QT for potassium plasma level.
the Et20 layer afforded lupeol (1 mg). The aqueous layer was acidified with 5% HCI and then extracted with CH2CI2. The CH2CI2 layer furnished coumaric acid (0.4 mg). Abstract: An antimitotic and cytotoxic lignan deoxypodophyllotoxin (1) has been isolated from the leaves and bark of Myodocarpus gracilis (Araliaceae), together with four other cytoOptical rotation: Perkin-Elmer 241 polarimeter. NMR: Bruker AC 250 and AC 300. Mass spectra: Kratos MS 50. Column chromatography: silica gel Merck H60. HPLC: column Nucleodex a-PM (250 x 10mm), eluent MeOH-H2O 85-15, flow rate 3.75 mI/mm, IJV detection at 325 nm.
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