Go to The Journal of Clinical Investigation
  • About
  • Editors
  • Consulting Editors
  • For authors
  • Publication ethics
  • Publication alerts by email
  • Transfers
  • Advertising
  • Job board
  • Contact
  • Physician-Scientist Development
  • Current issue
  • Past issues
  • By specialty
    • COVID-19
    • Cardiology
    • Immunology
    • Metabolism
    • Nephrology
    • Oncology
    • Pulmonology
    • All ...
  • Videos
  • Collections
    • In-Press Preview
    • Resource and Technical Advances
    • Clinical Research and Public Health
    • Research Letters
    • Editorials
    • Perspectives
    • Physician-Scientist Development
    • Reviews
    • Top read articles

  • Current issue
  • Past issues
  • Specialties
  • In-Press Preview
  • Resource and Technical Advances
  • Clinical Research and Public Health
  • Research Letters
  • Editorials
  • Perspectives
  • Physician-Scientist Development
  • Reviews
  • Top read articles
  • About
  • Editors
  • Consulting Editors
  • For authors
  • Publication ethics
  • Publication alerts by email
  • Transfers
  • Advertising
  • Job board
  • Contact
Dormant tumors circumvent tumor-specific adaptive immunity by establishing a Treg-dominated niche via DKK3
Timothy N. Trotter, Carina E. Dagotto, Delila Serra, Tao Wang, Xiao Yang, Chaitanya R. Acharya, Junping Wei, Gangjun Lei, H. Kim Lyerly, Zachary C. Hartman
Timothy N. Trotter, Carina E. Dagotto, Delila Serra, Tao Wang, Xiao Yang, Chaitanya R. Acharya, Junping Wei, Gangjun Lei, H. Kim Lyerly, Zachary C. Hartman
View: Text | PDF
Research Article Immunology Oncology

Dormant tumors circumvent tumor-specific adaptive immunity by establishing a Treg-dominated niche via DKK3

  • Text
  • PDF
Abstract

Approximately 30% of breast cancer survivors deemed free of disease will experience locoregional or metastatic recurrence even up to 30 years after initial diagnosis, yet how residual/dormant tumor cells escape immunity elicited by the primary tumor remains unclear. We demonstrate that intrinsically dormant tumor cells are indeed recognized and lysed by antigen-specific T cells in vitro and elicit robust immune responses in vivo. However, despite close proximity to CD8+ killer T cells, dormant tumor cells themselves support early accumulation of protective FoxP3+ T regulatory cells (Tregs), which can be targeted to reduce tumor burden. These intrinsically dormant tumor cells maintain a hybrid epithelial/mesenchymal state that is associated with immune dysfunction, and we find that the tumor-derived, stem cell/basal cell protein Dickkopf WNT signaling pathway inhibitor 3 (DKK3) is critical for Treg inhibition of CD8+ T cells. We also demonstrate that DKK3 promotes immune-mediated progression of proliferative tumors and is significantly associated with poor survival and immunosuppression in human breast cancers. Together, these findings reveal that latent tumors can use fundamental mechanisms of tolerance to alter the T cell microenvironment and subvert immune detection. Thus, targeting these pathways, such as DKK3, may help render dormant tumors susceptible to immunotherapies.

Authors

Timothy N. Trotter, Carina E. Dagotto, Delila Serra, Tao Wang, Xiao Yang, Chaitanya R. Acharya, Junping Wei, Gangjun Lei, H. Kim Lyerly, Zachary C. Hartman

×

Figure 1

The adaptive immune system does not impact tumor dormancy or long-term persistence in mammary D2.1 tumors.

Options: View larger image (or click on image) Download as PowerPoint
The adaptive immune system does not impact tumor dormancy or long-term p...
(A) Tumor growth in the mammary fat pad (MFP) of 1 × 106 parental D2A1 cells in BALB/c or SCID-beige mice (n = 5/group). (B) D2.OR tumor growth of 1 × 106 parental cells in BALB/c or SCID-beige mice (n = 5/group). Comparisons shown are at time of first euthanasia and were performed by Šídák’s 2-way ANOVA (A and B). (C) Growth of parental D2.1 cells (1 × 106) implanted into the MFP of BALB/c (n = 5) or SCID-beige (n = 8) mice. (D) Representative images (left) or quantification (right) of Ki67+eGFP+ tumor cells after MFP implantation of 1 × 106 D2.1-eGFP cells in BALB/c mice and collection after 4 or 12 weeks. Tumor sections were stained for nuclei (DAPI, pseudocolor gray), eGFP (green), or Ki67 (purple). Scale bars: 100 μm. Statistical comparison was by 2-tailed t test. (E) Flow cytometric analysis of MHC-I surface expression on cultured D2A1, D2.OR, and D2.1 cells. (F) D2A1-eGFP, D2.OR-eGFP, or D2.1-eGFP single-cell clones (n = 5/group) were implanted (1 × 106 cells/mouse) into the MFP of female BALB/c mice. Tumors were resected at the indicated time point, digested, and cultured ex vivo for a pure tumor cell population. (G) Left: Representative flow plots for eGFP expression of ex vivo D2A1, D2.OR, or D2.1 tumors compared to parental (no eGFP) cells or respective single-cell clones on the day of injection. Right: Quantification of the percentage of cultured tumor cells that maintained eGFP expression after in vivo selection. Statistical comparisons were performed by 1-way ANOVA with Tukey’s post hoc correction. Data are presented as mean ± SEM.

Copyright © 2026 American Society for Clinical Investigation
ISSN 2379-3708

Sign up for email alerts