A phase 1 study of the BCL2-targeted deoxyribonucleic acid inhibitor (DNAi) PNT2258 in patients with advanced solid tumors.

PURPOSE: Maximum tolerated dose, safety, pharmacokinetics, and pharmacodynamics were assessed in this phase 1 study of PNT2258, a BCL-2-targeted liposomal formulation of a 24-base DNA oligonucleotide called PNT100. METHODS: Patients with malignant solid tumors were assigned sequentially to one of ten dose-escalation cohorts of PNT2258 at 1, 2, 4, 8, 16, 32, 64, 85, 113, and 150 mg/m(2) administered intravenously on days 1 through 5 of each 21-day cycle. Pharmacokinetics were determined on days 1 and 5 of the first cycle. Lymphocyte and platelets concentrations were measured for evidence of BCL2-targeted effect. CT scans were used to identify radiologic evidence of anti-tumor effect. RESULTS: Twenty-two subjects received PNT2258, and the maximum tolerated dose for PNT2258 was not reached. Doses at or above 32 mg/m(2) resulted in exposure to PNT2258 above the exposure level required for anti-tumor activity in preclinical xenograft testing of 22,377 ng h/ml (PK analysis 2012). Fatigue was the most commonly reported adverse event. Dose-limiting toxicity, manifesting as a transient increase in aspartate aminotransferase, occurred at 150 mg/m(2), the highest dose tested. Four subjects, two each with diagnosis of non-small-cell lung cancer and sarcoma, treated at doses of 64 mg/m(2) or higher, remained on study for 5-8 cycles. CONCLUSIONS: PNT2258 was safe and well tolerated at the doses tested up to 150 mg/m(2). Exposure to PNT2258 resulted in clinically manageable decreases in lymphocyte and platelet concentrations.

Pharmacokinetics of dexrazoxane in subjects with impaired kidney function.

Dexrazoxane is approved as a cardioprotective agent for use in female patients with breast cancer who are receiving doxorubicin. The effect of renal insufficiency on elimination is not known. The pharmacokinetics of dexrazoxane 150 mg/m(2), given as a 15-minute constant-rate intravenous infusion, were assessed in 24 men and women with varying degrees of renal function in a single-dose, open-label, parallel-group study. Blood and urine samples were measured by a validated liquid chromatography/mass spectrometry assay. Dexrazoxane pharmacokinetic parameters were derived by standard noncompartmental methods. The effect of kidney function and effect of body surface area on the pharmacokinetics of dexrazoxane were analyzed using linear and nonlinear regression in the SPSS statistical program. Dexrazoxane clearance is decreased in subjects with kidney dysfunction. Compared with normal subjects (creatinine clearance [CL(CR)] >80 mL/min), mean area under the concentration curve from time 0 to infinity (AUC(0-inf)) was 2-fold greater in subjects with moderate (CL(CR) 30-50 mL/min) to severe (CL(CR) <30 mL/min) renal dysfunction. Modeling demonstrated that equivalent exposure (AUC(0-inf)) could be achieved if dosing were reduced by 50% in subjects with CL(CR) less than 40 mL/min compared with control subjects (CL(CR) >80 mL/min). Modeling study results suggested that equivalent exposure could be achieved if dosing was halved in subjects with CL(CR) less than 40 mL/min compared with controls.