Engineered SIRPα Variants as Immunotherapeutic Adjuvants to Anticancer Antibodies

Kipp Weiskopf; Aaron M. Ring; Chia Chi M. Ho; Jens-Peter Volkmer; Aron M. Levin; Anne Kathrin Volkmer; Engin Özkan; Nathaniel B. Fernhoff; Matt van de Rijn; Irving L. Weissman; K. Christopher García

doi:10.1126/science.1238856

Engineered SIRPα Variants as Immunotherapeutic Adjuvants to Anticancer Antibodies

Kipp Weiskopf(Stanford University), Aaron M. Ring(Howard Hughes Medical Institute), Chia Chi M. Ho(Howard Hughes Medical Institute), Jens-Peter Volkmer(Stanford University), Aron M. Levin(Howard Hughes Medical Institute), Anne Kathrin Volkmer(Düsseldorf University Hospital), Engin Özkan(Howard Hughes Medical Institute), Nathaniel B. Fernhoff(Stanford University), Matt van de Rijn(Stanford Medicine), Irving L. Weissman(Stanford Medicine), K. Christopher García(Howard Hughes Medical Institute)

Science

May 31, 2013

10.1126/science.1238856

Cited by 494Open Access

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Abstract

CD47 is an antiphagocytic signal that cancer cells employ to inhibit macrophage-mediated destruction. Here, we modified the binding domain of human SIRPα, the receptor for CD47, for use as a CD47 antagonist. We engineered high-affinity SIRPα variants with about a 50,000-fold increased affinity for human CD47 relative to wild-type SIRPα. As high-affinity SIRPα monomers, they potently antagonized CD47 on cancer cells but did not induce macrophage phagocytosis on their own. Instead, they exhibited remarkable synergy with all tumor-specific monoclonal antibodies tested by increasing phagocytosis in vitro and enhancing antitumor responses in vivo. This "one-two punch" directs immune responses against tumor cells while lowering the threshold for macrophage activation, thereby providing a universal method for augmenting the efficacy of therapeutic anticancer antibodies.

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