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.
