Scientific Reports (Jul 2018)

Multiplex immunohistochemistry accurately defines the immune context of metastatic melanoma

  • H. Halse,
  • A. J. Colebatch,
  • P. Petrone,
  • M. A. Henderson,
  • J. K. Mills,
  • H. Snow,
  • J. A. Westwood,
  • S. Sandhu,
  • J. M. Raleigh,
  • A. Behren,
  • J. Cebon,
  • P. K. Darcy,
  • M. H. Kershaw,
  • G. A. McArthur,
  • D. E. Gyorki,
  • P. J. Neeson

DOI
https://doi.org/10.1038/s41598-018-28944-3
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 14

Abstract

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Abstract A prospective study explored the heterogeneous nature of metastatic melanoma using Multiplex immunohistochemistry (IHC) and flow cytometry (FACS). Multiplex IHC data quantitated immune subset number present intra-tumoral (IT) vs the tumor stroma, plus distance of immune subsets from the tumor margin (TM). In addition, mIHC showed a close association between the presence of IT CD8+ T cells and PDL1 expression in melanoma, which was more prevalent on macrophages than on melanoma cells. In contrast, FACS provided more detailed information regarding the T cell subset differentiation, their activation status and expression of immune checkpoint molecules. Interestingly, mIHC detected significantly higher Treg numbers than FACS and showed preferential CD4+ T cell distribution in the tumor stroma. Based on the mIHC and FACS data, we provide a model which defines metastatic melanoma immune context into four categories using the presence or absence of PDL1+ melanoma cells and/or macrophages, and their location within the tumor or on the periphery, combined with the presence or absence of IT CD8+ T cells. This model interprets melanoma immune context as a spectrum of tumor escape from immune control, and provides a snapshot upon which interpretation of checkpoint blockade inhibitor (CBI) therapy responses can be built.