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Abstract
Genetically engineered T cell therapy can induce remarkable tumor responses in hematologic malignancies. However, it is not known if this type of therapy can be applied effectively to epithelial cancers, which account for 80–90% of human malignancies. We have conducted a first-in-human, phase 1 clinical trial of T cells engineered with a T cell receptor targeting HPV-16 E7 for the treatment of metastatic human papilloma virus-associated epithelial cancers (NCT02858310). The primary endpoint was maximum tolerated dose. Cell dose was not limited by toxicity with a maximum dose of 1 × 1011 engineered T cells administered. Tumor responses following treatment were evaluated using RECIST (Response Evaluation Criteria in Solid Tumors) guidelines. Robust tumor regression was observed with objective clinical responses in 6 of 12 patients, including 4 of 8 patients with anti-PD-1 refractory disease. Responses included extensive regression of bulky tumors and complete regression of most tumors in some patients. Genomic studies, which included intra-patient tumors with dichotomous treatment responses, revealed resistance mechanisms from defects in critical components of the antigen presentation and interferon response pathways. These findings demonstrate that engineered T cells can mediate regression of common carcinomas, and they reveal immune editing as a constraint on the curative potential of cellular therapy and possibly other immunotherapies in advanced epithelial cancer.
In a first-in-human phase 1 trial of patients with HPV-associated metastatic epithelial cancers, T cells targeting HPV-16 E7 were well tolerated, with one observed dose-limiting toxicity, and elicited objective clinical responses in 6 of 12 treated patients.
Details
; Norberg, Scott M 1 ; Sinkoe, Andrew L 1 ; Adhikary Sabina 2 ; Meyer, Thomas J 3 ; Lack, Justin B 4 ; Warner, Andrew C 5
; Schweitzer, Colleen 2 ; Doran, Stacey L 6 ; Korrapati Soumya 1 ; Stevanović Sanja 6 ; Trimble, Cornelia L 7 ; Kanakry, Jennifer A 6 ; Bagheri, Mohammad Hadi 8
; Ferraro, Erin 9 ; Astrow, Stephanie H 2 ; Bot, Adrian 2 ; Faquin William C 10 ; Stroncek, David 11 ; Gkitsas Nikolaos 6 ; Highfill, Steven 11 ; Hinrichs, Christian S 1
1 National Cancer Institute, National Institutes of Health, Genitourinary Malignancies Branch, Bethesda, USA (GRID:grid.48336.3a) (ISNI:0000 0004 1936 8075)
2 Kite, A Gilead Company, Santa Monica, USA (GRID:grid.504964.a)
3 National Cancer Institute, National Institutes of Health, CCR Collaborative Bioinformatics Resource, Bethesda, USA (GRID:grid.48336.3a) (ISNI:0000 0004 1936 8075); Advanced Biomedical Computational Science, Frederick National Laboratory for Cancer Research, Frederick, USA (GRID:grid.418021.e) (ISNI:0000 0004 0535 8394)
4 Advanced Biomedical Computational Science, Frederick National Laboratory for Cancer Research, Frederick, USA (GRID:grid.418021.e) (ISNI:0000 0004 0535 8394); National Institute of Allergy and Infectious Diseases, NIAID Collaborative Bioinformatics Resource, Bethesda, USA (GRID:grid.419681.3) (ISNI:0000 0001 2164 9667)
5 Frederick National Laboratory for Cancer Research, Frederick, USA (GRID:grid.418021.e) (ISNI:0000 0004 0535 8394)
6 Experimental Transplantation and Immunology Branch, National Cancer Institute, National Institutes of Health, Bethesda, USA (GRID:grid.94365.3d) (ISNI:0000 0001 2297 5165)
7 Johns Hopkins Medical Institutions, Department of Gynecology and Obstetrics, Baltimore, USA (GRID:grid.21107.35) (ISNI:0000 0001 2171 9311)
8 Clinical Center, National Institutes of Health, Radiology and Imaging Sciences Department, Bethesda, USA (GRID:grid.410305.3) (ISNI:0000 0001 2194 5650)
9 National Institutes of Health, Office of the Clinical Director, National Cancer Institute, Bethesda, USA (GRID:grid.94365.3d) (ISNI:0000 0001 2297 5165)
10 Massachusetts General Hospital, Pathology Department, Boston, USA (GRID:grid.32224.35) (ISNI:0000 0004 0386 9924)
11 Clinical Center, National Institutes of Health, Department of Transfusion Medicine, Bethesda, USA (GRID:grid.410305.3) (ISNI:0000 0001 2194 5650)