Clinical Immunoprofiling Reveals that High Numbers of CD8 + and PD-1 + Cells Predict Superior Patient Survival Across Major Cancer Types Independent of Major Risk Factors

  1. Joao V Alessi
  2. James R Lindsay
  3. Anita Giobbie-Hurder
  4. Bijaya Sharma
  5. Kristen Felt
  6. Priti Kumari
  7. Tali Mazor
  8. Ethan Cerami
  9. William Lotter
  10. Jennifer Altreuter
  11. Jason Weirather
  12. Ian Dryg
  13. Katharina Hoebel
  14. Michael Manos
  15. Elio Adib
  16. Jennifer D. Curtis
  17. Biagio Ricciuti
  18. Alessandro Di Federico
  19. Fatme Ghandour
  20. Eddy Saad
  21. Xin-an Wang
  22. Federica Pecci
  23. Marta Holovatska
  24. Malini M. Gandhi
  25. Melissa E. Hughes
  26. Tess A. O’Meara
  27. Sabrina J. Chan
  28. Kathleen Pfaff
  29. Panagiotis A. Konstantinopoulos
  30. F. Stephan Hodi
  31. Margaret A. Shipp
  32. Sabina Signoretti
  33. Toni Choueiri
  34. Xiao X. Wei
  35. Sandro Santagata
  36. Glenn J. Hanna
  37. Nancy U. Lin
  38. Sara M. Tolaney
  39. Joyce Liu
  40. Peter K. Sorger
  41. Neal Lindeman
  42. Lynette M. Sholl
  43. Jonathan A. Nowak
  44. David Barbie
  45. Mark M. Awad
  46. Bruce E. Johnson
  47. Scott J. Rodig
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Abstract

Background

Numerous retrospective studies have shown associations between the number of intratumoral immune cells and patient outcomes for individual cancers treated with specific therapies. However, the clinical value of using a digital pathology platform to enumerate intratumoral immune biomarkers prospectively in the pan-cancer setting has not been established.

Methods

We developed ImmunoProfile, a clinical workflow combining automated multiplex immunofluorescence tissue staining, digital slide imaging, and machine learning-assisted scoring to quantify intratumoral CD8 + , PD-1 + , CD8 + PD-1 + , and FOXP3 + immune cells and PD-L1 expression in formalin-fixed, paraffin-embedded tissue samples in a standardized and reproducible manner. Over three years, we prospectively applied ImmunoProfile to biopsies collected from 2,023 unselected cancer patients in the clinical laboratory. We correlated the results with patient survival.

Results

In the pan-cancer cohort, patients with intratumoral CD8 + or PD-1 + cells in the top or middle tertiles had significantly lower risks of death than those in the bottom (CD8 + : (high vs. low) HR 0.62 [95% CI 0.48 – 0.81], (middle vs. low) HR 0.82 [95% CI 0.67 - 0.99], Wald p=0.002]; PD-1 + : (high vs. low) HR 0.65 [95% CI 0.51 - 0.83], (middle vs. low) HR 0.74 [95% CI: 0.60 - 0.90], p=0.0009) after controlling for risk factors, including cancer type. In subset analyses, patients with high intratumoral CD8 + , PD-1 + , and/or CD8 + PD-1 + cells had lower risks of death from non-small cell lung, colorectal, breast, esophagogastric, head and neck, pancreatic, and ovarian cancers after controlling for clinical risk factors, including stage, and despite distinct therapies (all p < 0.05).

Conclusions

Enumerating intratumoral CD8 + and PD-1 + cells with a clinically validated digital pathology platform predicts patient survival across cancer types independent of clinical stage and despite disparate therapies.

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  1. Version published to 10.1101/2024.12.15.24318012v1 on medRxiv