Pharmacokinetics and toxicity of the antitumour agentN-[2-(dimethylamino)ethyl]acridine-4-carboxamide after i.v. administration in the mouse |
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Authors: | James W Paxton Deborah Young Sean M H Evans Philip Kestell Iain G C Robertson Eain M Cornford |
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Institution: | (1) Department of Pharmacology and Clinical Pharmacology, University of Auckland School of Medicine, Private Bag, Auckland, New Zealand;(2) Cancer Research Laboratory, University of Auckland School of Medicine, Anckland, New Zealand;(3) Veterans Administration, West Los Angeles Medical Center, California, USA |
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Abstract: | Summary The pharmacokinetics, tissue distribution and toxicity of the antitumour agentN-2-(dimethylamino)ethyl]acridine-4-carboxamide(AC) were studied after i.v. administration to mice. Over the dose range of 9–121 mol/kg (3–40 mg/kg), AC displayed linear kinetics with the following model-independent parameters: clearance (C), 21.0±1.9 l h–1 kg–1; steady-state volume of distribution (Vss), 11.8±1.4 l/kg; and mean residence time (MRT), 0.56±0.02 h. The plasma concentration-time profiles for AC fitted a two-compartment model with the following parameters:C
c, 19.4±2.3 l h–1 kg–1; Vc, 7.08±1.06 l/kg;t
1/2 13.1±3.5 min; andt
1/2Z, 1.60±0.65 h. AC displayed moderately high binding in healthy mouse plasma, giving a free fraction of 15.9%–25.3% over the drug concentration range of 1–561 M. After the i.v. administration of 30 mol/kg 3H]-AC, high radioactivity concentrations were observed in all tissues (especially the brain and kidney), showing a hight
1/2c value (37–59 h). At 2 min (first blood collection), the AC concentration as measured by high-performance liquid chromatography (HPLC) comprised 61% of the plasma radioactivity concentration (expressed as AC equivalents/l). By 48 h, 73% of the dose had been eliminated, with 26% and 47% of the delivered drug being excreted by the urinary and faecal routes, respectively; <1% of the total dose was excreted as unchanged AC in the urine. At least five distinct radiochemical peaks were distinguishable by HPLC analysis of plasma extracts, with some similar peaks appearing in urine. The 121-mol/kg dose was well tolerated by mice, with sedation being the only obvious side effect and no significant alterations in blood biochemistry or haematological parameters being recorded. After receiving a dose of 152 mol/kg, all mice experienced clonic seizures for 2 min (with one death occuring) followed by a period of sedation that lasted for up to 2h. No leucopenia occurred, but some mild anaemia was noted. There was no significant change in blood biochemistry. A further 20% increase in the i.v. dose (to 182 mol/kg) resulted in mortality, with death occurring within 2 min of AC administration.Supported by the Auckland Medical Research Foundation and the Cancer Society of New Zealand |
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