Abstract 597: Bispecific anti-CD123 x anti-CD3 ADAPTIR™ molecules for redirected T-cell cytotoxicity in hematological malignancies

Introduction: CD123 is a component of the IL-3 receptor expressed in several hematological malignancies including AML, ALL, HCL, and MDS. CD123 is a compelling target in AML due to its overexpression on AML blasts as well as leukemic stem cells, which are thought to be resistant to chemotherapy and may be responsible for relapse of disease following treatment. While CD123 is expressed by some normal leukocyte populations in circulation and hematopoietic progenitor cells in the bone marrow, the low frequency of expression on normal cell types provides a therapeutic window for targeting CD123 in tumor settings with the potential for durable response and reversible side effects. We have developed bispecific anti-CD123 x anti-CD3 ADAPTIR molecules APVO436 and APVO437 for redirecting T-cell cytotoxicity to CD123-expressing tumor cells. Results are presented that examine the in vitro and in vivo activity of these molecules in preclinical models of AML. Methods: APVO436 and APVO437 proteins were expressed in CHO cells. Affinity SPR studies were performed using recombinant CD123-ectodomain. In vitro functional studies were conducted with CD123+ AML tumor cell lines and primary human and cynomolgus macaque T-cell populations. Cytotoxic activity was determined using chromium release assays. On-cell binding, T-cell activation and proliferation were assessed using multi-color flow cytometry. Pharmacokinetic parameters were determined in BALB/c mice using a single IV dose of approximately 10 mg/kg. In vivo studies to examine tumor growth inhibition activity were performed with NOD/SCID mice co-implanted subcutaneously with AML tumor cells and human T-cells followed by treatment with APVO436 or APVO437. Tumor growth was assessed by measuring tumor volume and Bioluminescent Imaging. Results: APVO436 and APVO437 bound human CD123 protein with high affinity and binding to CD123 and CD3 expressing cell lines was confirmed by flow cytometry. Both APVO436 and APVO437 induced concentration-dependent lysis of CD123+ AML cell lines with primary human effector T-cells, accompanied by T-cell activation and proliferation. Comparable redirected T-cell cytotoxicity function was observed using primary cynomolgus macaque T cells. These activities were dependent on the expression of CD123 by the tumor target cells. APVO436 and APVO437 demonstrated an extended elimination half-life in mouse serum, typical of molecules capable of binding the neo-natal Fc receptor. In vivo, growth of AML tumor cells was inhibited by treatment with low doses of APVO436 and APVO437, significantly improving host survival. Conclusion: Taken together these data demonstrate potent in vitro and in vivo activity of APVO436 and APVO437 against CD123 expressing tumor cells and are supportive of further investigation of this approach as a potential treatment option for AML and other hematological malignancies. Citation Format: Michael R. Comeau, Danielle Mitchell, Rebecca Gottschalk, Lynda Misher, Mollie Daugherty, Lara Parr, Peter Pavlik, Brian Woodruff, Hang Fang, Megan Aguilar, Jeannette Bannink, Starrla Johnson, Gary Li, Robert E. Miller, Robert Bader, Nicole Zhang, Toddy Sewell, Maria Dasovich, Gabriela H. Hoyos, John W. Blankenship, Catherine McMahan, David Bienvenue, Jane A. Gross. Bispecific anti-CD123 x anti-CD3 ADAPTIR™ molecules for redirected T-cell cytotoxicity in hematological malignancies [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 597. doi:10.1158/1538-7445.AM2017-597