Blinatumomab is a bispecific T-cell engager (BiTE(®)) antibody construct that transiently links CD19-positive B cells to CD3-positive T cells, resulting in induction of T-cell-mediated serial lysis of B cells and concomitant T-cell proliferation. Blinatumomab showed anti-leukemia activity in clinical trials and was approved by the US Food and Drug Administration for the treatment of Philadelphia chromosome-negative relapsed/refractory B-cell precursor acute lymphoblastic leukemia (r/r ALL). The objectives of this work were to characterize blinatumomab pharmacokinetics and pharmacodynamics and to evaluate dosing regimens.
Data from six phase I and II trials in patients with r/r ALL, minimal residual disease-positive ALL, and non-Hodgkin's lymphoma (NHL) were analyzed. Blinatumomab pharmacokinetics was characterized by non-compartmental and population pharmacokinetic analyses and pharmacodynamics was described graphically.
Blinatumomab exhibited linear pharmacokinetics under continuous intravenous infusion for 4-8 weeks per cycle over a dose range of 5-90 µg/m(2)/day, without target-mediated disposition. Estimated mean (standard deviation) volume of distribution, clearance, and elimination half-life were 4.52 (2.89) L, 2.72 (2.71) L/h, and 2.11 (1.42) h, respectively. Pharmacokinetics was similar in patients with ALL and NHL and was not affected by patient demographics, supporting fixed dosing in adults. Although creatinine clearance was a significant covariate of drug clearance, no dose adjustment was required in patients with mild or moderate renal impairment. Incidence of neutralizing antidrug antibodies was <1 %. Blinatumomab pharmacodynamics featured T-cell redistribution and activation, B-cell depletion, and transient dose-dependent cytokine elevation. Blinatumomab did not affect cytochrome P450 enzymes directly; cytokines may trigger transient cytochrome P450 suppression with low potential for inducing drug interactions.
Blinatumomab has unique pharmacokinetic and immunological features that require indication-dependent dosing regimens. Stepped dosing is required to achieve adequate efficacy and minimize cytokine release in diseases with high tumor burden.
Clinical pharmacokinetics. 2016 May 21 [Epub ahead of print]
Min Zhu, Benjamin Wu, Christian Brandl, Jessica Johnson, Andreas Wolf, Andrew Chow, Sameer Doshi
Amgen Inc., Thousand Oaks, CA, 91320, USA. ., Amgen Inc., Thousand Oaks, CA, 91320, USA., Amgen Research Munich, Munich, Germany., Amgen Inc., Thousand Oaks, CA, 91320, USA., Amgen Research Munich, Munich, Germany., Amgen Inc., Thousand Oaks, CA, 91320, USA., Amgen Inc., Thousand Oaks, CA, 91320, USA.