Spatially-resolved tumour infiltrating immune cells and prognosis in breast cancer

  1. Aaron J. Bernstein
  2. Renske Keeman
  3. Amber Hurson
  4. Fiona M. Blows
  5. Manjeet K. Bolla
  6. Jodi L. Miller
  7. Roger Milne
  8. Hugo Horlings
  9. Alexandra J. van den Broek
  10. Clara Bodelon
  11. James Hodge
  12. Alpa Patel
  13. Lauren R. Teras
  14. Federico Canzian
  15. Rudolf Kaaks
  16. Hermann Brenner
  17. Ben Schoettker
  18. Sabine Behrens
  19. Jenny Chang-Claude
  20. Tabea Maurer
  21. Nadia Obi
  22. Fergus Couch
  23. H. Raza Ali
  24. Carlos Caldas
  25. Irene Andrulis
  26. Gord Glendon
  27. Anna Marie Mulligan
  28. Wilma Mesker
  29. Agnes Jager
  30. Annette Heemskerk-Gerritsen
  31. Peter Devilee
  32. Scott M. Lawrence
  33. Jolanta Lissowska
  34. Karun Mutreja
  35. Thomas Ahearn
  36. Stephen Chanock
  37. Maire A. Duggan
  38. Diana Eccles
  39. J. Louise Jones
  40. Will Tapper
  41. Antoinette Hollestelle
  42. Maartje Hooning
  43. John Martens
  44. Carolien H.M. van Deurzen
  45. Angela Cox
  46. Simon S. Cross
  47. Mikael Hartman
  48. Jingmei Li
  49. Thomas C. Putti
  50. Ute Hamann
  51. Ania Jakubowska
  52. Nicki Camp
  53. Melissa H. Cessna
  54. Amy Berrington de Gonzalez
  55. Katarzyna Bialkowska
  56. Jacek Gronwald
  57. Jan Lubi_ski
  58. Siddhartha Yadav
  59. Pietro Lio
  60. Doug F. Easton
  61. Mustapha Abubakar
  62. Montse Garcia-Closas
  63. Paul D.P. Pharoah
  64. Marjanka K. Schmidt
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Abstract

Background The immune response in breast tumors has an important role in prognosis, but the role of spatial localization of immune cells and of interaction between subtypes is not well characterized. We evaluated the association between spatially resolved tissue infiltrating immune cells (TIICs) and breast cancer specific survival (BCSS) in a large multicenter study. Patients and methods Tissue microarrays with tumor cores from 17,265 breast cancer patients of European descent were stained for CD8, FOXP3, CD20, and CD163. We developed a machine learning based tissue segmentation and immune cell detection algorithm using Halo to score each image for the percentage of marker positive cells by compartment (overall, stroma, or tumor). We assessed the association between log transformed TIIC scores and BCSS using Cox regression. Results Total CD8+ and CD20+ TIICs (stromal and intra-tumoral) were associated with better BCSS in women with ER-negative (HR per standard deviation = 0.91 [95% CI 0.85 - 0.98] and 0.89 [0.84 - 0.94] respectively) and ER-positive disease (HR = 0.92 [95% CI 0.87 - 0.98] and 0.93 [0.86 - 0.99] respectively) in multi-marker models. In contrast, CD163+ macrophages were associated with better BCSS in ER-negative disease (0.94 [0.87 - 1.00]) and a poorer BCSS in ER-positive disease 1.04 [0.99 - 1.10]. There was no association between FOXP3 and BCSS. The observed associations tended to be stronger for intra-tumoral than stromal compartments for all markers. However, the TIIC markers account for only 7.6 percent of the variation in BCSS explained by the multi-marker fully-adjusted model for ER-negative cases and 3.0 percent for ER-positive cases. Conclusions The presence of intra-tumoral and stromal TIICs is associated with better BCSS in both ER-negative and ER-positive breast cancer. This may have implications for the use of immunotherapy. However, the addition of TIICs to existing prognostic models would only result in a small improvement in model performance.

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  1. Version published to 10.1101/2024.07.22.24310819v1 on medRxiv