Tumor-conditional anti-CTLA4 uncouples antitumor efficacy from immunotherapy-related toxicity

Chien-Chun Steven Pai; Donald M. Simons; Xiaoqing Lu; Michael J. Evans; Junnian Wei; Yung-Hua Wang; Mingyi Chen; John Huang; Chanhyuk Park; Anthony Chang; Jiaxi Wang; Susan Westmoreland; Christine Beam; Dave Banach; Diana R. Bowley; Feng Dong; Jane Seagal; Wendy Ritacco; Paul L. Richardson; Soumya Mitra; Grace Lynch; Pete Bousquet; John A. Mankovich; Gillian A. Kingsbury; Lawrence Fong

doi:10.1172/jci123391

Tumor-conditional anti-CTLA4 uncouples antitumor efficacy from immunotherapy-related toxicity

Chien-Chun Steven Pai(University of California, San Francisco), Donald M. Simons(AbbVie (United States)), Xiaoqing Lu(AbbVie (United States)), Michael J. Evans(University of California, San Francisco), Junnian Wei(University of California, San Francisco), Yung-Hua Wang(University of California, San Francisco), Mingyi Chen(The University of Texas Southwestern Medical Center), John Huang(University of California, San Francisco), Chanhyuk Park(University of California, San Francisco), Anthony Chang(University of California, San Francisco), Jiaxi Wang(University of California, San Francisco), Susan Westmoreland(AbbVie (United States)), Christine Beam(AbbVie (United States)), Dave Banach(AbbVie (United States)), Diana R. Bowley(AbbVie (United States)), Feng Dong(AbbVie (United States)), Jane Seagal(AbbVie (United States)), Wendy Ritacco(AbbVie (United States)), Paul L. Richardson(AbbVie (United States)), Soumya Mitra(AbbVie (United States)), Grace Lynch(AbbVie (United States)), Pete Bousquet(AbbVie (United States)), John A. Mankovich(AbbVie (United States)), Gillian A. Kingsbury(AbbVie (United States)), Lawrence Fong(University of California, San Francisco)

Journal of Clinical Investigation

December 9, 2018

10.1172/jci123391

Cited by 142Open Access

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Abstract

While immune checkpoint blockade leads to potent antitumor efficacy, it also leads to immune-related adverse events in cancer patients. These toxicities stem from systemic immune activation resulting in inflammation of multiple organs, including the gastrointestinal tract, lung, and endocrine organs. We developed a dual variable domain immunoglobulin of anti-CTLA4 antibody (anti-CTLA4 DVD, where CTLA4 is defined as cytotoxic T lymphocyte-associated antigen-4) possessing an outer tumor-specific antigen-binding site engineered to shield the inner anti-CTLA4-binding domain. Upon reaching the tumor, the outer domain was cleaved by membrane type-serine protease 1 (MT-SP1) present in the tumor microenvironment, leading to enhanced localization of CTLA4 blockade. Anti-CTLA4 DVD markedly reduced multiorgan immune toxicity by preserving tissue-resident Tregs in Rag 1-/- mice that received naive donor CD4+ T cells from WT C57BL/6j mice. Moreover, anti-CTLA4 DVD induced potent antitumor effects by decreasing tumor-infiltrating Tregs and increasing the infiltration of antigen-specific CD8+ T lymphocytes in TRAMP-C2-bearing C57BL/6j mice. Treg depletion was mediated through the antibody-dependent cellular cytotoxicity (ADCC) mechanism, as anti-CTLA4 without the FcγR-binding portion (anti-CTLA4 DANA) spared Tregs, preventing treatment-induced toxicities. In summary, our results demonstrate an approach to anti-CTLA4 blockade that depletes tumor-infiltrating, but not tissue-resident, Tregs, preserving antitumor effects while minimizing toxicity. Thus, our tumor-conditional anti-CTLA4 DVD provides an avenue for uncoupling antitumor efficacy from immunotherapy-induced toxicities.

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