Abstract 2982: Macrophages modulate adaptive resistance to anti-angiogenic therapy

Targeted anti-angiogenic therapies were a highly anticipated addition to cancer treatment, but their clinical use has been tempered by the development of resistance. To understand the role of immune cells in potentially mediating such resistance, we carried out systematic immune cell profiling in a syngeneic ovarian cancer mouse model following treatment with the B20 anti-VEGF antibody. Following injection of luciferase-labeled cancer cells and initiation of treatment, mice (n=8/group) were divided into B20-sensitive and resistant groups based on longitudinal bioluminescence imaging of tumor burden. Immune cell profiling confirmed a dramatic increase in macrophages with emergence of resistance to B20. Using the syngeneic model, resistance to B20 was documented with bioluminescence imaging as an increase in tumor burden in mice with previously stable disease. Zoledronic acid, a macrophage-depleting bisphosphonate, was then added to B20 treatment. Restoration of sensitivity to B20 with the addition of zoledronic acid was demonstrated by a 68% prolongation of survival in this treatment group as compared to those receiving B20 alone (p
Source: Cancer Research - Category: Cancer & Oncology Authors: Tags: Tumor Biology Source Type: research