Nature Communications (Sep 2023)

PARP14 inhibition restores PD-1 immune checkpoint inhibitor response following IFNγ-driven acquired resistance in preclinical cancer models

  • Chun Wai Wong,
  • Christos Evangelou,
  • Kieran N. Sefton,
  • Rotem Leshem,
  • Wei Zhang,
  • Vishaka Gopalan,
  • Sorayut Chattrakarn,
  • Macarena Lucia Fernandez Carro,
  • Erez Uzuner,
  • Holly Mole,
  • Daniel J. Wilcock,
  • Michael P. Smith,
  • Kleita Sergiou,
  • Brian A. Telfer,
  • Dervla T. Isaac,
  • Chang Liu,
  • Nicholas R. Perl,
  • Kerrie Marie,
  • Paul Lorigan,
  • Kaye J. Williams,
  • Patricia E. Rao,
  • Raghavendar T. Nagaraju,
  • Mario Niepel,
  • Adam F. L. Hurlstone

DOI
https://doi.org/10.1038/s41467-023-41737-1
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 21

Abstract

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Abstract Resistance mechanisms to immune checkpoint blockade therapy (ICBT) limit its response duration and magnitude. Paradoxically, Interferon γ (IFNγ), a key cytokine for cellular immunity, can promote ICBT resistance. Using syngeneic mouse tumour models, we confirm that chronic IFNγ exposure confers resistance to immunotherapy targeting PD-1 (α-PD-1) in immunocompetent female mice. We observe upregulation of poly-ADP ribosyl polymerase 14 (PARP14) in chronic IFNγ-treated cancer cell models, in patient melanoma with elevated IFNG expression, and in melanoma cell cultures from ICBT-progressing lesions characterised by elevated IFNγ signalling. Effector T cell infiltration is enhanced in tumours derived from cells pre-treated with IFNγ in immunocompetent female mice when PARP14 is pharmacologically inhibited or knocked down, while the presence of regulatory T cells is decreased, leading to restoration of α-PD-1 sensitivity. Finally, we determine that tumours which spontaneously relapse in immunocompetent female mice following α-PD-1 therapy upregulate IFNγ signalling and can also be re-sensitised upon receiving PARP14 inhibitor treatment, establishing PARP14 as an actionable target to reverse IFNγ-driven ICBT resistance.