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Immune landscape in invasive ductal and lobular breast cancer reveals a divergent macrophage-driven microenvironment.

Sayali OnkarJian CuiJian ZouCarly CardelloAnthony R CilloMostofa Rafid UddinApril SaganMarion JoyHatice U OsmanbeyogluKatherine L Pogue-GeilePriscilla F McAuliffePeter C LucasGeorge C TsengAdrian V LeeTullia C BrunoSteffi OesterreichDario A A Vignali
Published in: Nature cancer (2023)
T cell-centric immunotherapies have shown modest clinical benefit thus far for estrogen receptor-positive (ER + ) breast cancer. Despite accounting for 70% of all breast cancers, relatively little is known about the immunobiology of ER + breast cancer in women with invasive ductal carcinoma (IDC) and invasive lobular carcinoma (ILC). To investigate this, we performed phenotypic, transcriptional and functional analyses for a cohort of treatment-naive IDC (n = 94) and ILC (n = 87) tumors. We show that macrophages, and not T cells, are the predominant immune cells infiltrating the tumor bed and the most transcriptionally diverse cell subset between IDC and ILC. Analysis of cellular neighborhoods revealed an interplay between macrophages and T cells associated with longer disease-free survival in IDC but not ILC. Our datasets provide a rich resource for further interrogation into immune cell dynamics in ER + IDC and ILC and highlight macrophages as a potential target for ER + breast cancer.
Keyphrases
  • estrogen receptor
  • single cell
  • nk cells
  • free survival
  • breast cancer cells
  • stem cells
  • gene expression
  • hiv infected
  • adipose tissue
  • rna seq
  • risk assessment
  • heat shock
  • human health
  • antiretroviral therapy