Clinical pharmacology characterization of RG7112, an MDM2 antagonist, in patients with advanced solid tumors.

PURPOSE

RG7112, the first selective small-molecule MDM2 antagonist in clinical testing, is a non-genotoxic oral p53 activator. To optimize its dose and schedule, a number of clinical pharmacology characteristics were explored in this multicenter trial in patients with advanced solid tumors.

METHOD

In part 1, the impact of high-energy/high-fat meal and formulations (crystalline and amorphous) on relative bioavailability was examined in single-dose crossover designs. In part 2, schedule optimization (4 schedules of drug administration under fasting condition and 2 cohorts with liquid supplementation) was investigated in parallel, dose escalation designs. Clinical endpoints were pharmacokinetics (PK), pharmacodynamics (PD) including MIC-1 elevation and platelet reduction, and safety/tolerability.

RESULTS

With a single-dose treatment, a high-fat/high-energy meal and a new formulation under fasting condition, respectively, enhanced overall bioavailability of RG7112 slightly over twofold. Following multiple-dose administrations, all four schedules yielded the comparable per-cycle (28-d) exposure (AUC), as designed; liquid supplements also enhanced bioavailability. High-dose treatments of consecutive daily dosing for 5 and 3 days resulted in higher on-treatment-day exposure to RG7112 than both weekly and low-dose/long-duration (20-day) daily schedules. Serum MIC-1 and blood platelet profiles showed similar patterns to those of PK when the clinical pharmacology conditions were varied, suggesting the relative importance of treatment-day exposure than overall per-cycle AUC.

CONCLUSION

Food (both high-fat and low-fat meals) and new formulation enhanced bioavailability. High-dose consecutive daily treatment for 3-5 days is superior to weekly and low-dose/long-duration (20-day) daily schedules in yielding the sufficiently high drug exposure and PD effects potentially required for cancer treatment efficacy.