Biodistribution of a CD3/EpCAM bispecific T-cell engager is driven by the CD3 arm

Abstract

BiTE® (Bispecific T-cell engager) molecules are designed to engage and activate cytotoxic T-cells to kill tumor cells. Little is known about their biodistribution in immunocompetent settings. To explore their pharmacokinetics and the role of the immune cells, BiTE molecules were radiolabeled with positron emission tomography (PET) isotope zirconium-89 (89Zr) and studied in immunocompetent and immunodeficient mouse models. PET images and ex-vivo biodistribution in immunocompetent mice with 89Zr-muS110, targeting mouse CD3 (Kd = 2.9 nM) and mouse EpCAM (Kd = 21 nM), and 89Zr-hyS110, targeting only mouse CD3 (Kd = 2.9 nM), showed uptake in tumor, spleen and other lymphoid organs, while the human-specific control BiTE 89Zr-AMG 110 showed similar tumor uptake but lacked spleen uptake. 89Zr-muS110 spleen uptake was lower in immunodeficient than in immunocompetent mice. After repeated administration of non-radiolabeled muS110 to immunocompetent mice 89Zr-muS110 uptake in spleen, and other lymphoid tissues, decreased and was comparable to uptake in immunodeficient mice, indicating saturation of CD3 binding sites. Autoradiography and immunohistochemistry demonstrated colocalization of 89Zr-muS110 and 89Zr-hyS110 with CD3-positive T-cells in the tumor and spleen but not with EpCAM expression. Also, uptake in the duodenum correlated with a high incidence of T-cells. This study shows that in immunocompetent mice the BiTE 89Zr-muS110 distribution is predominantly based on its high affinity CD3 binding arm. Significance: 89Zr-muS110 biodistribution is mainly dependent on the T-cell targeting arm with limited contribution of its second arm, targeting EpCAM. These findings highlight the need for extensive biodistribution studies of novel bispecific constructs as results might have implications for their respective drug development and clinical translation.