Commensal bacteria stimulate antitumor responses via T cell cross-reactivity
Catherine A. Bessell, Ariel Isser, Jonathan J. Havel, Sangyun Lee, David R. Bell, John W. Hickey, Worarat Chaisawangwong, Joan Glick Bieler, Raghvendra Srivastava, Fengshen Kuo, Tanaya Purohit, Ruhong Zhou, Timothy A. Chan, Jonathan P. Schneck
Catherine A. Bessell, Ariel Isser, Jonathan J. Havel, Sangyun Lee, David R. Bell, John W. Hickey, Worarat Chaisawangwong, Joan Glick Bieler, Raghvendra Srivastava, Fengshen Kuo, Tanaya Purohit, Ruhong Zhou, Timothy A. Chan, Jonathan P. Schneck
View: Text | PDF
Research Article Immunology Oncology

Commensal bacteria stimulate antitumor responses via T cell cross-reactivity

Abstract

Recent studies show gut microbiota modulate antitumor immune responses; one proposed mechanism is cross-reactivity between antigens expressed in commensal bacteria and neoepitopes. We found that T cells targeting an epitope called SVYRYYGL (SVY), expressed in the commensal bacterium Bifidobacterium breve (B. breve), cross-react with a model neoantigen, SIYRYYGL (SIY). Mice lacking B. breve had decreased SVY-reactive T cells compared with B. breve–colonized mice, and the T cell response was transferable by SVY immunization or by cohousing mice without Bifidobacterium with ones colonized with Bifidobacterium. Tumors expressing the model SIY neoantigen also grew faster in mice lacking B. breve compared with Bifidobacterium-colonized animals. B. breve colonization also shaped the SVY-reactive TCR repertoire. Finally, SVY-specific T cells recognized SIY-expressing melanomas in vivo and led to decreased tumor growth and extended survival. Our work demonstrates that commensal bacteria can stimulate antitumor immune responses via cross-reactivity and how bacterial antigens affect the T cell landscape.

Authors

Catherine A. Bessell, Ariel Isser, Jonathan J. Havel, Sangyun Lee, David R. Bell, John W. Hickey, Worarat Chaisawangwong, Joan Glick Bieler, Raghvendra Srivastava, Fengshen Kuo, Tanaya Purohit, Ruhong Zhou, Timothy A. Chan, Jonathan P. Schneck

×

Figure 5

Jackson mice have an increased antitumor response and antigen-selective pressure on the tumor.

Options: View larger image (or click on image) Download as PowerPoint
Jackson mice have an increased antitumor response and antigen-selective ...
(A) Jackson and Taconic mice were injected with 2 × 106 B16.SIY cells subcutaneously on day 0. Tumor growth curves show Jackson mice have significantly delayed tumor growth as compared with Taconic mice. P value = 0.0455. Significance was measured by 2-way ANOVA with Bonferroni’s post hoc test for multiple comparisons. N = 7/group. (B) Additionally, Jackson mice had significantly increased survival compared with the Taconic mice. P = 0.0065. Significance was measured by the log-rank test (Mantel-Cox test). N = 7/group. (C) Jackson and Taconic mice were injected with 2 × 106 B16.SIY cells subcutaneously on day 0. Tumors were harvested at an approximate size of 200–250 mm2 and analyzed by flow cytometry for GFP expression, as SIY and GFP are expressed as a fusion protein in the B16.SIY cell line (15). Jackson have a significantly lower GFP expression (P value = 0.0030) by unpaired, 2-tailed t test (n = 5 TAC, and n = 6 JAX). (D) Jackson and Taconic mice were injected with 2 × 106 B16.SIY cells subcutaneously on day 0. Tumor-infiltrating lymphocytes were harvested on day 24 and analyzed by flow cytometry for CD8+ T cell specificity, gated on live CD8+ T cells. N = 2/group.