Synthetic Cancer‐Targeting Innate Immune Stimulators Give Insights into Avidity Effects
Multispecific and multivalent antibodies are seen as promising cancer therapeutics, and numerous antibody fragments and derivatives have been developed to exploit avidity effects that result in increased selectivity. Most of these multispecific and multivalent antibody strategies make use of recombi...
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Veröffentlicht in: | Chembiochem : a European journal of chemical biology 2018-03, Vol.19 (5), p.459-469 |
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Zusammenfassung: | Multispecific and multivalent antibodies are seen as promising cancer therapeutics, and numerous antibody fragments and derivatives have been developed to exploit avidity effects that result in increased selectivity. Most of these multispecific and multivalent antibody strategies make use of recombinant expression of antigen‐binding modules. In contrast, chemical synthesis and chemoselective ligations can be used to generate a variety of molecules with different numbers and combinations of binding moieties in a modular and homogeneous fashion. In this study we synthesized a series of targeted immune system engagers (ISErs) by using solid‐phase peptide synthesis and chemoselective ligations. To explore avidity effects, we constructed molecules bearing different numbers and combinations of two “binder” peptides that target ephrin A2 and integrin α3 receptors and an “effector” peptide that binds to formyl peptide receptors and stimulates an immune response. We investigated various strategies for generating multivalent and multispecific targeted innate immune stimulators and studied their activities in terms of binding to cancer cells and stimulation of immune cells. This study gives insights into the influence that multivalency and receptor density have on avidity effects and is useful for the design of potential anticancer therapeutics.
Multivalent and multispecific molecules based on cancer‐targeting and immune‐stimulatory peptide components joined by flexible linkers were synthesized by solid‐phase peptide synthesis and chemoselective ligations to explore avidity effects on cancer and immune cells. |
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ISSN: | 1439-4227 1439-7633 |
DOI: | 10.1002/cbic.201700522 |