npj Precision Oncology (Mar 2021)

Immune microenvironment characterisation and dynamics during anti-HER2-based neoadjuvant treatment in HER2-positive breast cancer

  • G. Griguolo,
  • G. Serna,
  • T. Pascual,
  • R. Fasani,
  • X. Guardia,
  • N. Chic,
  • L. Paré,
  • S. Pernas,
  • M. Muñoz,
  • M. Oliveira,
  • M. Vidal,
  • A. Llombart-Cussac,
  • J. Cortés,
  • P. Galván,
  • B. Bermejo,
  • N. Martínez,
  • R. López,
  • S. Morales,
  • I. Garau,
  • L. Manso,
  • J. Alarcón,
  • E. Martínez,
  • P. Villagrasa,
  • A. Prat,
  • P. Nuciforo

DOI
https://doi.org/10.1038/s41698-021-00163-6
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 12

Abstract

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Abstract Despite their recognised role in HER2-positive (HER2+) breast cancer (BC), the composition, localisation and functional orientation of immune cells within tumour microenvironment, as well as its dynamics during anti-HER2 treatment, is largely unknown. We here investigate changes in tumour-immune contexture, as assessed by stromal tumour-infiltrating lymphocytes (sTILs) and by multiplexed spatial cellular phenotyping, during treatment with lapatinib-trastuzumab in HER2+ BC patients (PAMELA trial). Moreover, we evaluate the relationship of tumour-immune contexture with hormone receptor status, intrinsic subtype and immune-related gene expression. sTIL levels increase after 2 weeks of HER2 blockade in HR-negative disease and HER2-enriched subtype. This is linked to a concomitant increase in cell density of all four immune subpopulations (CD3+, CD4+, CD8+, Foxp3+). Moreover, immune contexture analysis showed that immune cells spatially interacting with tumour cells have the strongest association with response to anti-HER2 treatment. Subsequently, sTILs consistently decrease at the surgery in patients achieving pathologic complete response, whereas most residual tumours at surgery remain inflamed, possibly reflecting a progressive loss of function of T cells. Understanding the features of the resulting tumour immunosuppressive microenvironment has crucial implications for the design of new strategies to de-escalate or escalate systemic therapy in early-stage HER2+ BC.