A distinct tumor microenvironment makes anaplastic thyroid cancer more lethal but immunotherapy sensitive than papillary thyroid cancer
Pei-Zhen Han, Wei-Dong Ye, Peng-Cheng Yu, Li-Cheng Tan, Xiao Shi, Xu-Feng Chen, Cong He, Jia-Qian Hu, Wen-Jun Wei, Zhong-Wu Lu, Ning Qu, Yu Wang, Qing-Hai Ji, Dong-Mei Ji, Yu-Long Wang
Pei-Zhen Han, Wei-Dong Ye, Peng-Cheng Yu, Li-Cheng Tan, Xiao Shi, Xu-Feng Chen, Cong He, Jia-Qian Hu, Wen-Jun Wei, Zhong-Wu Lu, Ning Qu, Yu Wang, Qing-Hai Ji, Dong-Mei Ji, Yu-Long Wang
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Research Article Oncology

A distinct tumor microenvironment makes anaplastic thyroid cancer more lethal but immunotherapy sensitive than papillary thyroid cancer

Abstract

Both anaplastic thyroid cancer (ATC) and papillary thyroid cancer (PTC) originate from thyroid follicular epithelial cells, but ATC has a significantly worse prognosis and shows resistance to conventional therapies. However, clinical trials found that immunotherapy works better in ATC than late-stage PTC. Here, we used single-cell RNA sequencing (scRNA-Seq) to generate a single-cell atlas of thyroid cancer. Differences in ATC and PTC tumor microenvironment components (including malignant cells, stromal cells, and immune cells) leading to the polarized prognoses were identified. Intriguingly, we found that CXCL13+ T lymphocytes were enriched in ATC samples and might promote the development of early tertiary lymphoid structure (TLS). Last, murine experiments and scRNA-Seq analysis of a treated patient’s tumor demonstrated that famitinib plus anti–PD-1 antibody could advance TLS in thyroid cancer. We displayed the cellular landscape of ATC and PTC, finding that CXCL13+ T cells and early TLS might make ATC more sensitive to immunotherapy.

Authors

Pei-Zhen Han, Wei-Dong Ye, Peng-Cheng Yu, Li-Cheng Tan, Xiao Shi, Xu-Feng Chen, Cong He, Jia-Qian Hu, Wen-Jun Wei, Zhong-Wu Lu, Ning Qu, Yu Wang, Qing-Hai Ji, Dong-Mei Ji, Yu-Long Wang

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Figure 5

Existence of CXCL13+ exhausted T cells in ATC tumors.

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Existence of CXCL13+ exhausted T cells in ATC tumors. (A) Tissue prefere...
(A) Tissue preference of different immune cell subclusters evaluated by R/oe. (B and C) PDCD1 and PD-L1 expression in the tumor immune microenvironment of PTC (B) and ATC (C). (D) Volcano plot of DEGs between ATC-derived CD4_Th cells and PTC-derived CD4_Th cells. CXCL13 was upregulated in ATC-derived cells. (E) Volcano plot of DEGs between ATC-derived CD8_Tex cells and PTC-derived CD8_Tex cells. CXCL13 was upregulated in ATC-derived cells. (F and G) Dot plots of CXCL13 expression in CD4_Th (F) or CD8_Tex (G) cells from different patients. Patients who contained fewer than 50 single cells that were identified as CD4_Th or CD8_Tex were removed from these plots. (H and I) In the CD4_Th (H) or CD8_Tex (I) subpopulation, the percentage of CXCL13+ cells was significantly higher in ATC primary tumors than in PTC primary tumors. Box plots show the interquartile range, median (line), and minimum and maximum (whiskers). Statistical analysis: Student’s 2-tailed t test (*: P < 0.05, **: P < 0.01, ***: P < 0.001). (J) Representative mIHC image showing the coexpression of CD4 (CD4+ T cells, white) and CXCL13 (green) in an ATC section, with nuclei stained by DAPI (blue). CD4+CXCL13+ T lymphocytes are marked by red arrows. (K) Representative mIHC picture showing coexpression of CD8 (CD8+ T cell, red) and CXCL13 (green) in an ATC section, with nuclei stained by DAPI (blue). CD8+CXCL13+ T lymphocytes are marked by red arrows. Scale bar: 20 μm. Original magnification: left: 150×; right: 300×.