Eden Kapcan scite author profile

Eden Kapcan

4Publications

84Citation Statements Received

161Citation Statements Given

How they've been cited

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159

Affiliations

McMaster University, McMaster University Medical Centre

Publications

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Covalent Immune Recruiters: Tools to Gain Chemical Control Over Immune Recognition

et al. 2020

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Unprecedented progress made in the treatment of cancer using the body’s own immune system has encouraged the development of synthetic molecule based immunotherapeutics. An emerging class of these compounds, called Antibody Recruiting Molecules (ARMs) or Antibody Engagers (AEs), functions by reversibly binding antibodies naturally present in human serum and recruiting these to cancer cells. The recruited antibodies then engage immune cells to form quaternary complexes that drive cancer erradication. Despite their promise, the requirement to form quaternary complexes governed by multiple equilibria complicates an understanding of their in vivo efficacy. Particularly problematic are low endogenous serum antibody concentrations and rapid clearance of AEs from circulation. Here we describe a new class of trifunctional chemical tools we call covalent immune recruiters (CIRs). CIRs covalently label specific serum antibodies in a selective manner with a target protein binding ligand. CIRs thereby exert well-defined control over antibody recruitment and simplify quaternary complex equilibium, enabling probing of the resultant effects on immune recognition. We demonstrate CIRs can selectively covalently label anti-DNP IgG, a natural human antibody, directly in human serum to drive efficient immune cell recognition of targets. We expect CIRs will be useful tools to probe how quaternary complex stability impacts the immune recognition of cancer in vivo, revealing new design principles to guide the development of future AEs.

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Covalent Stabilization of Antibody Recruitment Enhances Immune Recognition of Cancer Targets

et al. 2021

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Antibody recruiting molecules (ARMs) represent an important class of “proximity-inducing” chemical tools with therapeutic potential. ARMs function by simultaneously binding to a hapten-specific serum antibody (Ab) (e.g., anti-dinitrophenyl (DNP)) and a cancer cell surface protein, enforcing their proximity. ARM anticancer efficacy depends on the formation of ARM:Ab complexes on the cancer cell surface, which activate immune cell recognition and elimination of the cancer cell. Problematically, ARM function in human patients may be limited by conditions that drive the dissociation of ARM:Ab complexes, namely, intrinsically low binding affinity and/or low concentrations of anti-hapten antibodies in human serum. To address this potential limitation, we previously developed a covalent ARM (cARM) chemical tool that eliminates the ARM:antibody equilibrium through a covalent linkage. In the current study, we set out to determine to what extent maximizing the stability of ARM:antibody complexes via cARMs enhances target immune recognition. We observe cARMs significantly increase target immune recognition relative to ARMs across a range of therapeutically relevant antibody concentrations. These results demonstrate that ARM therapeutic function can be dramatically enhanced by increasing the kinetic stability of ARM:antibody complexes localized on cancer cells. Our findings suggest that a) high titres/concentrations of target antibody in human serum are not neccessary and b) saturative antibody recruitment to cancer cells not sufficient, to achieve maximal ARM therapeutic function.

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A covalent opsonization approach to enhance synthetic immunity against viral escape variants

Kapcan

Rullo

2023

Cell Reports Physical Science

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A Covalent Opsonization Approach to Enhance Synthetic Immunity Against Viral Escape Variants

Kapcan

Rullo

2022

SSRN Journal

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Eden Kapcan

Covalent Immune Recruiters: Tools to Gain Chemical Control Over Immune Recognition

Covalent Stabilization of Antibody Recruitment Enhances Immune Recognition of Cancer Targets

A covalent opsonization approach to enhance synthetic immunity against viral escape variants

A Covalent Opsonization Approach to Enhance Synthetic Immunity Against Viral Escape Variants

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