Blocking Antibodies Targeting the CD39/CD73 Immunosuppressive Pathway Unleash Immune Responses in Combination Cancer Therapies

Ivan Perrot; Henri‐Alexandre Michaud; Marc Giraudon-Paoli; Séverine Augier; Aurélie Docquier; Laurent Gros; Rachel Courtois; Cécile Déjou; Diana Jecko; O. Becquart; Hélène Rispaud-Blanc; Laurent Gauthier; Benjamín Rossi; Stéphanie Chanteux; Nicolas Gourdin; Béatrice Amigues; Alain Roussel; Armand Bensussan; Jean‐François Eliaou; Jérémy Bastid; François Romagné; Yannis Morel; Émilie Narni-Mancinelli; Éric Vivier; Carine Paturel; Nathalie Bonnefoy

doi:10.1016/j.celrep.2019.04.091

Blocking Antibodies Targeting the CD39/CD73 Immunosuppressive Pathway Unleash Immune Responses in Combination Cancer Therapies

Ivan Perrot(Innate Pharma (France)), Henri‐Alexandre Michaud(Inserm), Marc Giraudon-Paoli(Innate Pharma (France)), Séverine Augier(Innate Pharma (France)), Aurélie Docquier(OREGA Biotech (France)), Laurent Gros(Inserm), Rachel Courtois(Innate Pharma (France)), Cécile Déjou(OREGA Biotech (France)), Diana Jecko(Innate Pharma (France)), O. Becquart(Inserm), Hélène Rispaud-Blanc(Innate Pharma (France)), Laurent Gauthier(Innate Pharma (France)), Benjamín Rossi(Innate Pharma (France)), Stéphanie Chanteux(Innate Pharma (France)), Nicolas Gourdin(Innate Pharma (France)), Béatrice Amigues(Centre National de la Recherche Scientifique), Alain Roussel(Centre National de la Recherche Scientifique), Armand Bensussan(Inserm), Jean‐François Eliaou(Inserm), Jérémy Bastid(OREGA Biotech (France)), François Romagné(Aix-Marseille Université), Yannis Morel(Innate Pharma (France)), Émilie Narni-Mancinelli(Centre National de la Recherche Scientifique), Éric Vivier(Centre National de la Recherche Scientifique), Carine Paturel(Innate Pharma (France)), Nathalie Bonnefoy(Inserm)

Cell Reports

May 1, 2019

10.1016/j.celrep.2019.04.091

Cited by 414Open Access

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Abstract

Immune checkpoint inhibitors have revolutionized cancer treatment. However, many cancers are resistant to ICIs, and the targeting of additional inhibitory signals is crucial for limiting tumor evasion. The production of adenosine via the sequential activity of CD39 and CD73 ectoenzymes participates to the generation of an immunosuppressive tumor microenvironment. In order to disrupt the adenosine pathway, we generated two antibodies, IPH5201 and IPH5301, targeting human membrane-associated and soluble forms of CD39 and CD73, respectively, and efficiently blocking the hydrolysis of immunogenic ATP into immunosuppressive adenosine. These antibodies promoted antitumor immunity by stimulating dendritic cells and macrophages and by restoring the activation of T cells isolated from cancer patients. In a human CD39 knockin mouse preclinical model, IPH5201 increased the anti-tumor activity of the ATP-inducing chemotherapeutic drug oxaliplatin. These results support the use of anti-CD39 and anti-CD73 monoclonal antibodies and their combination with immune checkpoint inhibitors and chemotherapies in cancer.

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