An empirical antigen selection method identifies neoantigens that either elicit broad anti-tumor T cell responses or drive tumor growth.

Authors

Hubert Lam
Lisa K McNeil
Hanna Starobinets
Victoria L DeVault
Roger B Cohen
Przemyslaw Twardowski, John Wayne Cancer InstituteFollow
Melissa L Johnson
Maura L Gillison
Mark N Stein
Ulka N Vaishampayan
Arthur P DeCillis
James J Foti
Vijetha Vemulapalli
Emily Tjon
Kyle Ferber
Daniel B DeOliveira
Wendy Broom
Parul Agnihotri
Elizabeth M Jaffee
Kwok-Kin Wong
Charles G Drake
Pamela M Carroll
Thomas A Davis
Jessica Baker Flechtner

Document Type

Article

Publication Date

1-27-2021

Publication Title

Cancer Discov

Keywords

california; JWCI

Abstract

Neoantigens are critical targets of anti-tumor T cell responses. The ATLAS{trade mark, serif} bioassay was developed to identify neoantigens empirically by expressing each unique patient-specific tumor mutation individually in E. coli, pulsing autologous dendritic cells in an ordered array, and testing the patient's T cells for recognition in an overnight assay. Profiling of T cells from lung cancer patients revealed both stimulatory and inhibitory responses to individual neoantigens. In the murine B16F10 melanoma model, therapeutic immunization with ATLAS-identified stimulatory neoantigens protected animals, whereas immunization with peptides associated with inhibitory ATLAS responses resulted in accelerated tumor growth and abolished efficacy of an otherwise-protective vaccine. A planned interim analysis of a clinical study testing a poly-ICLC adjuvanted personalized vaccine containing ATLAS-identified stimulatory neoantigens showed that it is well-tolerated. In an adjuvant setting, immunized patients generated both CD4+ and CD8+ T cell responses, with immune responses to 99% of the vaccinated peptide antigens.

Clinical Institute

Cancer

Department

Oncology

Department

Hematology

Recommended Citation

Lam, Hubert; McNeil, Lisa K; Starobinets, Hanna; DeVault, Victoria L; Cohen, Roger B; Twardowski, Przemyslaw; Johnson, Melissa L; Gillison, Maura L; Stein, Mark N; Vaishampayan, Ulka N; DeCillis, Arthur P; Foti, James J; Vemulapalli, Vijetha; Tjon, Emily; Ferber, Kyle; DeOliveira, Daniel B; Broom, Wendy; Agnihotri, Parul; Jaffee, Elizabeth M; Wong, Kwok-Kin; Drake, Charles G; Carroll, Pamela M; Davis, Thomas A; and Flechtner, Jessica Baker, "An empirical antigen selection method identifies neoantigens that either elicit broad anti-tumor T cell responses or drive tumor growth." (2021). Articles, Abstracts, and Reports. 4288.
https://digitalcommons.providence.org/publications/4288