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Multiplexed imaging analysis of the tumor-immune microenvironment reveals predictors of outcome in triple-negative breast cancer

Aalok Patwa, Rikiya Yamashita, Jin Long, Tyler Risom, Michael Angelo, Leeat Keren, Daniel L. Rubin

2021Communications Biology49 citationsDOIOpen Access PDF

Abstract

Triple-negative breast cancer, the poorest-prognosis breast cancer subtype, lacks clinically approved biomarkers for patient risk stratification and treatment management. Prior literature has shown that interrogation of the tumor-immune microenvironment may be a promising approach to fill these gaps. Recently developed high-dimensional tissue imaging technology, such as multiplexed ion beam imaging, provide spatial context to protein expression in the microenvironment, allowing in-depth characterization of cellular processes. We demonstrate that profiling the functional proteins involved in cell-to-cell interactions in the microenvironment can predict recurrence and overall survival. We highlight the immunological relevance of the immunoregulatory proteins PD-1, PD-L1, IDO, and Lag3 by tying interactions involving them to recurrence and survival. Multivariate analysis reveals that our methods provide additional prognostic information compared to clinical variables. In this work, we present a computational pipeline for the examination of the tumor-immune microenvironment using multiplexed ion beam imaging that produces interpretable results, and is generalizable to other cancer types.

Topics & Concepts

Tumor microenvironmentBreast cancerImmune systemContext (archaeology)Triple-negative breast cancerMedicineCancer researchOncologyCancerComputational biologyBiologyInternal medicineImmunologyPaleontologyCancer Immunotherapy and BiomarkersSingle-cell and spatial transcriptomicsCancer Cells and Metastasis