Neutrophil content predicts lymphocyte depletion and anti-PD1 treatment failure in NSCLC
Julia Kargl, Xiaodong Zhu, Huajia Zhang, Grace H. Y. Yang, Travis J. Friesen, Melissa Shipley, Dean Y. Maeda, John A. Zebala, Jill McKay-Fleisch, Gavin Meredith, Afshin Mashadi-Hossein, Christina Baik, Robert H. Pierce, Mary W. Redman, Jeffrey C. Thompson, Steven M. Albelda, Hamid Bolouri, A. McGarry Houghton
Julia Kargl, Xiaodong Zhu, Huajia Zhang, Grace H. Y. Yang, Travis J. Friesen, Melissa Shipley, Dean Y. Maeda, John A. Zebala, Jill McKay-Fleisch, Gavin Meredith, Afshin Mashadi-Hossein, Christina Baik, Robert H. Pierce, Mary W. Redman, Jeffrey C. Thompson, Steven M. Albelda, Hamid Bolouri, A. McGarry Houghton
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Research Article Immunology Oncology

Neutrophil content predicts lymphocyte depletion and anti-PD1 treatment failure in NSCLC

Abstract

Immune checkpoint inhibitor (ICI) treatment has recently become a first-line therapy for many non–small cell lung cancer (NSCLC) patients. Unfortunately, most NSCLC patients are refractory to ICI monotherapy, and initial attempts to address this issue with secondary therapeutics have proven unsuccessful. To identify entities precluding CD8+ T cell accumulation in this process, we performed unbiased analyses on flow cytometry, gene expression, and multiplexed immunohistochemical data from a NSCLC patient cohort. The results revealed the presence of a myeloid-rich subgroup, which was devoid of CD4+ and CD8+ T cells. Of all myeloid cell types assessed, neutrophils were the most highly associated with the myeloid phenotype. Additionally, the ratio of CD8+ T cells to neutrophils (CD8/PMN) within the tumor mass optimally distinguished between active and myeloid cases. This ratio was also capable of showing the separation of patients responsive to ICI therapy from those with stable or progressive disease in 2 independent cohorts. Tumor-bearing mice treated with a combination of anti-PD1 and SX-682 (CXCR1/2 inhibitor) displayed relocation of lymphocytes from the tumor periphery into a malignant tumor, which was associated with induction of IFN-γ–responsive genes. These results suggest that neutrophil antagonism may represent a viable secondary therapeutic strategy to enhance ICI treatment outcomes.

Authors

Julia Kargl, Xiaodong Zhu, Huajia Zhang, Grace H. Y. Yang, Travis J. Friesen, Melissa Shipley, Dean Y. Maeda, John A. Zebala, Jill McKay-Fleisch, Gavin Meredith, Afshin Mashadi-Hossein, Christina Baik, Robert H. Pierce, Mary W. Redman, Jeffrey C. Thompson, Steven M. Albelda, Hamid Bolouri, A. McGarry Houghton

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Figure 4

Impact of immune cell populations on ICI treatment outcomes in NSCLC.

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Impact of immune cell populations on ICI treatment outcomes in NSCLC. FF...
FFPE tumor slides from a cohort of n = 28 anti-PD1/PDL1 recipient NSCLC patients (CR/PR = 8, SD = 10, PD = 10) were stained for CK, CD4, CD8, and CD66b, imaged on the Vectra-3 platform, and analyzed with HALO. (A) Representative images from a PR and a PD tumor for cytokeratin, CD4, CD8, CD66b, and the 4-plex panel. Original magnification, ×20. (B) Representative image of a HALO spatial plot from the same cases as in A. (C and D) CD4 content in tumor (CD4T) (C) or CD8 content in tumor (CD8T) paired with CD66b content from stroma (CD66bS) (D) from M-IHC images stratified by response category. P value as indicated (2-way ANOVA). (E and F) CD4T/CD66bS (E) and CD8T/CD66bS (F) ratios from M-IHC images stratified by response category. P values as indicated (1-way ANOVA). (G) Kaplan-Meier life survival curves for the lowest quartiles of CD4T, CD8T, CD4T/CD66bS, and CD8T/CD66bS and the highest quartile of CD66bS vs. the remainder of the cohort. P values as indicated (log-rank test). A validation set consisting of n = 52 anti-PD1/PDL1 recipient NSCLC patients (CR/PR = 9, SD = 16, PD = 27) was studied using gene expression data to infer immune cell content. (H–J) CD8 score (H), PMN score (I), and CD8/PMN ratio (J) stratified by response category. Data expressed as mean value ± SEM. P values as indicated (1-way ANOVA).