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Poster session 07

2P - Single-cell profiling and integrative TCR analysis reveals tumor-mutation associated phenotypes and immune repertoire in lung adenocarcinoma

Date

14 Sep 2024

Session

Poster session 07

Topics

Cancer Biology;  Tumour Immunology;  Translational Research;  Targeted Therapy

Tumour Site

Non-Small Cell Lung Cancer

Presenters

Alexander Lozano

Citation

Annals of Oncology (2024) 35 (suppl_2): S215-S228. 10.1016/annonc/annonc1574

Authors

A.X. Lozano1, M. Ghaedi2, A. Azarmina3, A. Sayad4, S.C. Lien5, S. Soleimani6, D.C. Chung5, N. Jacquelot7, T.K. Waddell8, K. Yasufuku8, M. de Perrot9, L. Eng10, F.A. Shepherd11, P.A. Bradbury12, N.B. Leighl13, G. Liu13, M. Tsao14, T.J. Pugh15, P.S. Ohashi16, A.G. Sacher10

Author affiliations

  • 1 Cancer Clinical Research Unit, Princess Margaret Cancer Centre, M5G 2C4 - Toronto/CA
  • 2 Immunology, Sanofi Canada, M2R 3T4 - North York/CA
  • 3 Immunology, Princess Margaret Cancer Centre – University of Toronto, M5G 2C4 - Toronto/CA
  • 4 Immunology, Princess Margaret Cancer Centre – University of Toronto, M5G 1Z5 - Toronto/CA
  • 5 Immunology, Princess Margaret Cancer Centre, M5G 1Z5 - Toronto/CA
  • 6 Medical Biophysics, University of Toronto - St. George Campus, M5S 3H7 - Toronto/CA
  • 7 Biochemistry & Molecular Biology, University of Calgary, Cumming School of Medicine, T2N 4N1 - Calgary/CA
  • 8 Thoracic Surgery, University Health Network - Toronto General Hospital Research Institute (TGHRI), M5G 2C4 - Toronto/CA
  • 9 Thoracic Surgery, Princess Margaret Cancer Centre, M5G 1Z5 - Toronto/CA
  • 10 Medical Oncology And Hematology Department, UHN - University Health Network - Princess Margaret Cancer Center, M5G 2M9 - Toronto/CA
  • 11 Medical Oncology, Princess Margaret Cancer Centre, M5G 1Z5 - Toronto/CA
  • 12 Medical Oncology Hematology Department, Princess Margaret Cancer Center, M5G 2M9 - Toronto/CA
  • 13 Medical Oncology Department, UHN - University Health Network - Princess Margaret Cancer Center, M5G 2M9 - Toronto/CA
  • 14 Room 11-314, UHN - Princess Margaret Cancer Research Tower - MaRS Discovery District, M5G 1L7 - Toronto/CA
  • 15 Medical Biophysics, University of Toronto, M5S 3H7 - Toronto/CA
  • 16 Immunology, University of Toronto - St. George Campus, M5S 3H7 - Toronto/CA

Resources

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Abstract 2P

Background

Tumor genomics has been linked to prognosis and response to therapies in non-small cell lung cancer (NSCLC) including well-established associations with aggressive disease biology in both KRAS and tp53 mutated tumors. Deciphering the contribution of specific mutations to the composition of the tumor immune microenvironment (TME) has been more complex. Early work suggests that specific mutations may sculpt the TME and affect prognosis and response to immunotherapy, however much remains unknown about how mutations mediate the interaction between tumor cells and immune cell populations. Here, we applied single cell sequencing to investigate the association between TME composition and the presence of KRAS and tp53 mutations in NSCLC focusing on conventional T cell phenotype as well as TCR clonality and predicted specificity.

Methods

We profiled the tumors of 18 patients with lung adenocarcinoma with concomitant tumor genomic profiling using single-cell RNA sequencing with paired protein expression (CITEseq) and single-cell V(D)J immune repertoire analysis. To the immune repertoire we applied GLIPH 2 and clustering to uncover TCR-antigen associations.

Results

We identified that an exhausted CD8 T cell phenotype that differentially expresses genes including: HAVCR2 (TIM3), PDCD1, LAG3, and ENTPD1 was significantly enriched in tp53 mutated NSCLC (P = 0.013), with a strong trend to suggest that this holds irrespective of KRAS status. This phenotype exhibited a more clonal TCR repertoire compared to other T cell populations, and its clonotypes clustered with known external antigens. Fractional abundance of this phenotype in profiled tumor above the median for the patient cohort was associated with shorter overall survival (P = 0.33, HR = 2.25 [0.44 – 11.15]), and was significantly associated with increasing tumor stage (P = 0.043).

Conclusions

We identified a unique tp53-associated T cell phenotype that we hypothesize infiltrates tp53 mutant NSCLC early in the course of disease and becomes exhausted over time and less able to mediate anti-tumor immunity. This population may underpin the responsiveness of tp53 mutant NSCLC to immune checkpoint inhibitors and may serve as a key biomarker in the future.

Clinical trial identification

Editorial acknowledgement

Legal entity responsible for the study

The authors.

Funding

Princess Margaret Cancer Centre, Canadian Institutes of Health Research (CIHR).

Disclosure

M. Ghaedi: Financial Interests, Full or part-time Employment: Sanofi Canada. F.A. Shepherd: Financial Interests, Personal, Advisory Board: AstraZeneca; Financial Interests, Personal, Invited Speaker: AstraZeneca; Financial Interests, Institutional, Local PI: AstraZeneca, Novartis. N.B. Leighl: Financial Interests, Personal, Other, CME/independent lectures: MSD, BMS; Financial Interests, Personal, Invited Speaker, independent lectures: Novartis, Takeda; Financial Interests, Personal, Invited Speaker, independent CME lecture: BeiGene; Financial Interests, Personal, Invited Speaker, Independent CME lectures: Janssen; Financial Interests, Institutional, Research Grant: AstraZeneca, Lilly, MSD, Pfizer, Janssen, Inivata/Neogenomics, Novartis; Other, Travel funding to deliver independent CME lectures: AstraZeneca; Other, Travel funding to deliver independent CME lecture: Janssen, MSD, Sanofi, Guardant Health. P.S. Ohashi: Financial Interests, Advisory Board: Providence Therapeutics, Treadwell Therapeutics, Tikva Allocell, Rondo Therapeutics. Inc.; Financial Interests, Research Funding: Providence Therapeutics. A.G. Sacher: Financial Interests, Institutional, Coordinating PI: Genentech-Roche, BMS, AstraZeneca; Financial Interests, Institutional, Local PI: Amgen, Iovance, CRISPR Therapeutics, Merck, Pfizer, GSK, Spectrum, Lilly, BridgeBio, Hotspot Therapeutics. All other authors have declared no conflicts of interest.

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