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A phase I and pharmacokinetic study of the mitochondrial-specific rhodacyanine dye analog MKT 077.
Britten, CD, Rowinsky, EK, Baker, SD, Weiss, GR, Smith, L, Stephenson, J, Rothenberg, M, Smetzer, L, Cramer, J, Collins, W, et al
Clinical cancer research : an official journal of the American Association for Cancer Research. 2000;(1):42-9
Abstract
This Phase I study was performed to evaluate the tolerability and pharmacokinetic behavior of MKT-077, a water soluble rhodacyanine dye analogue, which partitions into tumor cell mitochondria where it is thought to act as a metabolic poison, leading to G1 arrest and apoptosis. Thirteen patients with advanced solid malignancies were treated with MKT-077 administered as a 30-min i.v. infusion weekly for 4 weeks every 6 weeks at doses ranging from 42 to 126 mg/m2/week. The principal toxicity was renal magnesium wasting, which was dose-limiting (grade 3) in one patient at each of the 84- and 126-mg/m2 dose levels. The other three patients at the 126-mg/m2 dose level developed grade 2 hypomagnesemia, which was cumulative in nature, improved with i.v. magnesium supplementation, and was controlled in two patients by the administration of prophylactic magnesium before and after treatment with MKT-077. Given the requirement for extensive monitoring of serum magnesium levels, dose escalation >126 mg/m2 was not considered feasible. Thus, the recommended dose for disease-oriented studies with this schedule of MKT-077 is 126 mg/m2/week. Pharmacokinetic studies revealed a prolonged terminal half-life (37 +/- 17 h) and a large volume of distribution (685 +/- 430 liters/m2). Clearance averaged 39 +/- 13 liters/h/m2. Peak MKT-077 plasma concentrations (1.2 +/-0.31 to 6.3 +/- 5.3 microg/ml) exceeded the IC50 concentrations required for human CX-1 colon, MCF-breast, CRL-1420 pancreas, EJ bladder, and LOX melanoma tumor cell lines in vitro (0.15-0.5 microg/ml). These results indicate that at the recommended dose level of 126 mg/m2/week of MKT-077, the toxicity profile was consistent with the preferential accumulation of the agent within tumor cell mitochondria, and biologically relevant plasma concentrations were achieved.