DSP107, a Novel Bi-Functional Fusion Protein That Combines Inhibition of CD47 with Targeted Activation of 4-1BB to Trigger Innate and Adaptive Anticancer Immune Responses

The mainstay of treatment for Diffuse Large B cell Lymphoma (DLBCL) is conventional chemotherapy combined with anti-CD20 monoclonal antibody rituximab (RTX). However, a subset of patients is refractory to treatment and between 20 to 50% of patients will, after experiencing an initial complete respon...

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Published in:Blood 2020-11, Vol.136 (Supplement 1), p.19-20
Main Authors: Cendrowicz, Ewa, Jacob, Lisa, Greenwald, Shirley, Tamir, Ami, Gozlan, Yosi, Huls, Gerwin, Foley-Comer, Adam, Pereg, Yaron, Chajut, Ayelet, Peled, Amnon, Bremer, Edwin
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Language:English
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Summary:The mainstay of treatment for Diffuse Large B cell Lymphoma (DLBCL) is conventional chemotherapy combined with anti-CD20 monoclonal antibody rituximab (RTX). However, a subset of patients is refractory to treatment and between 20 to 50% of patients will, after experiencing an initial complete response (CR), develop resistance to treatment and relapse with poor prognosis. Therefore, additional therapeutic options are urgently needed. In this respect, combination of RTX treatment with CD47 monoclonal antibodies has yielded high objective response rates in patients with relapsed/refractory DLBCL in recent phase I trials. Interestingly, although CD47-targeting specifically activates the innate immune system, treatment with CD47 antibodies augments antigen-presentation in the context of MHC by macrophages and dendritic cells, thereby, triggering cross-priming of T cells in murine models. This T cell activation was pivotal in vivo efficacy in these murine models. Thus, a clear rationale exists for the development of novel therapeutics that exploit CD47 checkpoint inhibition while simultaneously stimulating anticancer T cell immunity. Here, we report on such an immunotherapeutic, termed Dual Signaling Protein 107 (DSP107), comprising a computationally-designed fusion of human soluble SIRPα and 4-1BBL. DSP107 was designed to bind to CD47 on cancer cells and block the CD47/SIRPα inhibitory signal delivered to phagocytes. Further, DSP107 was designed to bind to 4-1BB, a costimulatory receptor upregulated upon TCR/MHC interaction and a validated surrogate marker for the tumor-reactive subset of T cells in tumor tissue. Since 4-1BB activation by soluble 4-1BBL requires cross-linking, DSP107 will trigger 4-1BB signaling only after binding to CD47. This CD47-mediated surface immobilization of DSP107 enables delivery of the 4-1BBL-4-1BB costimulatory signal to tumor localized T cells. This dual immunomodulatory effect of DSP107 is designed to unleash both innate and adaptive immune responses targeted to the tumor site (Figure 1). Treatment with DSP107 alone or in combination with RTX triggered significant phagocytosis of a panel of DLBCL cancer cell lines as well as primary patient-derived DLBCL cells by macrophages and neutrophils within 3 hours. Further, after longer term incubation of 24h an ~85% reduction in remaining tumor cells was detected upon combined DSP107 and RTX treatment compared to medium control, whereas an increase in apoptosis was detected in the remain
ISSN:0006-4971
1528-0020
DOI:10.1182/blood-2020-140280