Dennis Y. Gout scite author profile

Dennis Y. Gout

2Publications

38Citation Statements Received

212Citation Statements Given

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Amsterdam University Medical Centers, Oncode Institute, Vrije Universiteit Amsterdam

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Augmented antibody-based anticancer therapeutics boost neutrophil cytotoxicity

Heemskerk¹,

Gruijs²,

Temming³

et al. 2021

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Most clinically used anti-cancer monoclonal antibodies (mAbs) are of the IgG isotype, which can eliminate tumor cells through natural killer (NK) cell-mediated antibody-dependent cellular cytotoxicity and macrophage-mediated antibody-dependent phagocytosis. IgG, however, ineffectively recruits neutrophils as effector cells. IgA mAbs induce migration and activation of neutrophils through the IgA Fc receptor (FcαRI), but are unable to activate NK cells and have poorer half-life. Here, we combine the agonistic activity of IgG mAbs and FcαRI targeting in a therapeutic bispecific antibody format. The resulting TrisomAb molecules recruited NK cells, macrophages and neutrophils as effector cells for eradication of tumor cells in vitro and in vivo. Moreover, TrisomAb had long in vivo half-life and strongly decreased B16F10gp75 tumor outgrowth in mice. Importantly, neutrophils of colorectal cancer patients effectively eliminated tumor cells in the presence of anti-epidermal growth factor receptor (EGFR) TrisomAb, but were less efficient in mediating killing in the presence of IgG α-EGFR mAb (cetuximab). The clinical application of TrisomAb may provide high potential alternatives for cancer patients that do not benefit from current IgG mAb therapy.

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The present and future of immunocytokines for cancer treatment

Gout

Groen

Egmond

2022

Cell. Mol. Life Sci.

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Monoclonal antibody (mAb) therapy has successfully been introduced as treatment of several lymphomas and leukemias. However, solid tumors reduce the efficacy of mAb therapy because of an immune-suppressive tumor micro-environment (TME), which hampers activation of effector immune cells. Pro-inflammatory cytokine therapy may counteract immune suppression in the TME and increase mAb efficacy, but untargeted pro-inflammatory cytokine therapy is limited by severe off-target toxicity and a short half-life of cytokines. Antibody-cytokine fusion proteins, also referred to as immunocytokines, provide a solution to either issue, as the antibody both acts as local delivery platform and increases half-life. The antibody can furthermore bridge local cytotoxic immune cells, like macrophages and natural killer cells with tumor cells, which can be eliminated after effector cells are activated via the cytokine. Currently, a variety of different antibody formats as well as a handful of cytokine payloads are used to generate immunocytokines. However, many potential formats and payloads are still left unexplored. In this review, we describe current antibody formats and cytokine moieties that are used for the development of immunocytokines, and highlight several immunocytokines in (pre-)clinical studies. Furthermore, potential future routes of development are proposed.

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Dennis Y. Gout

Augmented antibody-based anticancer therapeutics boost neutrophil cytotoxicity

The present and future of immunocytokines for cancer treatment

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