Abstract B125: Targeting human CD141+ DC using CLEC9A antibodies for cancer immunotherapy

Abstract

Dendritic cells (DC) are a heterogeneous cell population, with specialist subtypes driving specific immune responses. In mice, the cDC1 subset (also referred to as Batf3-dependent DC, XCR1+ DC, CD8+ DC in lymphoid tissues and CD103+ DC in peripheral tissues) is essential for the induction of tumor immune responses and for the efficacy of checkpoint inhibitor blockade and adoptive T-cell immunotherapies. Vaccines that can deliver antigens (Ag) directly to DCs in vivo are more effective than cell-based therapies in mouse models and are promising approaches to translate to humans. CD141+ DC are the human cDC1 equivalent and specifically express the C-type lectin-like receptor CLEC9A, that facilitates cross-presentation of dead cell Ag. Targeting tumor-associated Ag (TAA) to human CD141+ DC using CLEC9A antibody (Ab) is therefore an attractive strategy to induce or boost tumor immune responses. NYESO1 and WT1 are well characterised, highly immunogenic TAA expressed by a broad array of tumor types. We developed recombinant human chimeric IgG4 Ab specific for human CLEC9A genetically fused to NYESO1 or WT1. For comparison we developed TAA fusions with chimeric IgG4 Ab specific for human DEC-205, which is expressed by many human leukocytes, and β-galactosidase as an irrelevant isotype control. CLEC9A-NYESO1 and CLEC9A-WT1 Abs retained their binding specificity for CD141+ DC. Following uptake of CLEC9A-WT1, CD141+ DC cross-presented a WT-1 HLA-A24-restricted epitope for recognition by specific CD8+ cytotoxic T-cells. Likewise, a HLA-A2-restricted NYESO1 epitope was cross-presented Ag specific CD8+ T-cells by CD141+ DC following uptake of CLEC9A-NYESO1. For both TAA, the CLEC9A Abs were more efficient at delivery of Ag for cross-presentation than DEC-205 or isotype control Abs. Moreover, using a humanized mouse model in which functional human CD141+ DC and Ag-specific T-cells develop, CLEC9A-TAA Ab induced priming of Ag-specific T-cells. Our data advocate further development of human CLEC9A targeting Abs as cancer vaccines. Citation Format: Kristen Radford, Frances Pearson, Kelly-Anne Masterman, Kirsteen Tullett, Oscar Haigh, Carina Walpole, Ghazal Daraj, Ingrid Leal Rojas, Mireille Lahoud. Targeting human CD141+ DC using CLEC9A antibodies for cancer immunotherapy [abstract]. In: Proceedings of the Fourth CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; Sept 30-Oct 3, 2018; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2019;7(2 Suppl):Abstract nr B125.