Nature Communications (Apr 2020)

Transcriptional downregulation of MHC class I and melanoma de- differentiation in resistance to PD-1 inhibition

  • Jenny H. Lee,
  • Elena Shklovskaya,
  • Su Yin Lim,
  • Matteo S. Carlino,
  • Alexander M. Menzies,
  • Ashleigh Stewart,
  • Bernadette Pedersen,
  • Malama Irvine,
  • Sara Alavi,
  • Jean Y. H. Yang,
  • Dario Strbenac,
  • Robyn P. M. Saw,
  • John F. Thompson,
  • James S. Wilmott,
  • Richard A. Scolyer,
  • Georgina V. Long,
  • Richard F. Kefford,
  • Helen Rizos

DOI
https://doi.org/10.1038/s41467-020-15726-7
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 12

Abstract

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Abstract Transcriptomic signatures designed to predict melanoma patient responses to PD-1 blockade have been reported but rarely validated. We now show that intra-patient heterogeneity of tumor responses to PD-1 inhibition limit the predictive performance of these signatures. We reasoned that resistance mechanisms will reflect the tumor microenvironment, and thus we examined PD-1 inhibitor resistance relative to T-cell activity in 94 melanoma tumors collected at baseline and at time of PD-1 inhibitor progression. Tumors were analyzed using RNA sequencing and flow cytometry, and validated functionally. These analyses confirm that major histocompatibility complex (MHC) class I downregulation is a hallmark of resistance to PD-1 inhibitors and is associated with the MITFlow/AXLhigh de-differentiated phenotype and cancer-associated fibroblast signatures. We demonstrate that TGFß drives the treatment resistant phenotype (MITFlow/AXLhigh) and contributes to MHC class I downregulation in melanoma. Combinations of anti-PD-1 with drugs that target the TGFß signaling pathway and/or which reverse melanoma de-differentiation may be effective future therapeutic strategies.