Abstract
Onartuzumab, a humanized, monovalent monoclonal anti-MET antibody, antagonizes MET signaling by inhibiting binding of its ligand, hepatocyte growth factor (HGF). We investigated the effects of onartuzumab on cell-associated and circulating (shed) MET (sMET) and circulating HGF in vitro and nonclinically to determine their utility as pharmacodynamic biomarkers for onartuzumab. Effects of onartuzumab on cell-associated MET were assessed by flow cytometry and immunofluorescence. sMET and HGF were measured in cell supernatants and in serum or plasma from multiple species (mouse, cynomolgus monkey, and human) using plate-based immunoassays. Unlike bivalent anti-MET antibodies, onartuzumab stably associates with MET on the surface of cells without inducing MET internalization or shedding. Onartuzumab delayed the clearance of human xenograft tumor-produced sMET from the circulation of mice, and endogenous sMET in cynomolgus monkeys. In mice harboring MET-expressing xenograft tumors, in the absence of onartuzumab, levels of human sMET correlated with tumor size, and may be predictive of MET-expressing tumor burden. Because binding of sMET to onartuzumab in circulation resulted in increasing sMET serum concentrations due to reduced clearance, this likely renders sMET unsuitable as a pharmacodynamic biomarker for onartuzumab. There was no observed effect of onartuzumab on circulating HGF levels in xenograft tumor-bearing mice or endogenous HGF in cynomolgus monkeys. Although sMET and HGF may serve as predictive biomarkers for MET therapeutics, these data do not support their use as pharmacodynamic biomarkers for onartuzumab.
Highlights
MET is a heteromeric receptor tyrosine kinase, comprising an a and b chain that binds to hepatocyte growth factor (HGF)
The onartuzumab ELISA was performed as above using 8Â His-conjugated human MET-extracellular domain (ECD) as capture, detection was with 0.05 mg/mL peroxidase-labeled Fc-specific F(ab0)2 fragments of goat anti-human immunoglobulin G (IgG)
Development of assays for human shed MET (sMET) and HGF To better assess the pharmacodynamics of onartuzumab, we developed an ELISA and an electrochemiluminescent assay (ECLA) to assess the displacement of HGF, and the potential for the generation of sMET, respectively
Summary
MET is a heteromeric receptor tyrosine kinase, comprising an a and b chain that binds to hepatocyte growth factor (HGF). HGF binding results in receptor dimerization, activation, and internalization mediated by the phosphorylation of multiple tyrosine residues in the MET intracellular domain [1,2,3,4,5,6]. Circulating biomarkers of the proximal events following therapeutic intervention with MET antagonists, including regulation of MET and HGF, are important to evaluate. Levels of sMET in blood and urine correlated with size and malignant potential of human tumors in xenograft mouse models and in patients [33, 35,36,37]. To investigate the utility of monitoring sMET or HGF circulating biomarkers, we developed robust and sensitive assays, and measured modulation of these markers upon onartuzumab exposure to MET-expressing tumor cell lines and animal models
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
