Type 2 dendritic cells mediate control of cytotoxic T cell resistant tumors
Stephen Iwanowycz, … , Zihai Li, Bei Liu
Stephen Iwanowycz, … , Zihai Li, Bei Liu
Published July 20, 2021
Citation Information: JCI Insight. 2021;6(17):e145885. https://doi.org/10.1172/jci.insight.145885.
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Research Article Immunology

Type 2 dendritic cells mediate control of cytotoxic T cell resistant tumors

Abstract

Type 2 DCs (DC2s) comprise the majority of conventional DCs within most tumors; however, little is known about their ability to initiate and sustain antitumor immunity, as most studies have focused on antigen cross-presenting DC1s. Here, we report that DC2 infiltration identified by analysis of multiple human cancer data sets showed a significant correlation with survival across multiple human cancers, with the benefit being seen in tumors resistant to cytotoxic T cell control. Characterization of DC subtype infiltration into an immunotherapy-resistant model of breast cancer revealed that impairment of DC1s through 2 unique models resulted in enhanced DC2 functionality and improved tumor control. BATF3 deficiency depleted intratumoral DC1s, which led to increased DC2 lymph node migration and CD4+ T cell activation. Enhancing DC2 stimulatory potential by genetic deletion of Hsp90b1 (encoding molecular chaperon GP96) led to a similar enhancement of T cell immunity and improved survival in a spontaneous breast cancer model. These data highlight the therapeutic and prognostic potential of DC2s within checkpoint blockade–resistant tumors.

Authors

Stephen Iwanowycz, Soo Ngoi, Yingqi Li, Megan Hill, Christopher Koivisto, Melodie Parrish, Beichu Guo, Zihai Li, Bei Liu

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Figure 6

GP96 KODC delay progression of spontaneous breast tumors.

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GP96 KODC delay progression of spontaneous breast tumors. (A) Diagram fo...
(A) Diagram for the generation of DC-specific GP96 KO mice that develop spontaneous breast cancer. (B) Carmine stain of whole mounts of fourth mammary gland at 12 weeks of age. Asterisk marks primary carcinoma, and triangles mark select secondary sites. (C) Carcinoma score of H&E-stained mammary gland sections from 10- and 12-week-old mice. n = 4–8 per group. (D) IHC staining for CD8+ T cell infiltration into neoplastic regions from mammary glands of 12-week-old mice. Quantification of the percent of cells within tumor sites that are positive for CD8. n = 5–6 per group. (E) Total tumor area of WT and KO MMVT-PyMT mice: WT (n = 9) and KO (n = 14). (F) Survival graph showing age at which mice reach the humane end point: WT (n = 14) and KO (n = 22). Data are shown as mean ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001. (C and D were analyzed by 2-tailed unpaired t test, E was performed using 2-way ANOVA, F was analyzed using a log-rank test).