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Targeting vasoactive intestinal peptide-mediated signaling enhances response to immune checkpoint therapy in pancreatic ductal adenocarcinoma

Author

Listed:
  • Sruthi Ravindranathan

    (Emory University School of Medicine
    Emory University)

  • Tenzin Passang

    (Emory University School of Medicine
    Emory University)

  • Jian-Ming Li

    (Emory University School of Medicine
    Emory University)

  • Shuhua Wang

    (Emory University School of Medicine
    Emory University)

  • Rohan Dhamsania

    (Emory University School of Medicine
    Emory University)

  • Michael Brandon Ware

    (Emory University School of Medicine
    Emory University)

  • Mohammad Y. Zaidi

    (Emory University School of Medicine
    Emory University)

  • Jingru Zhu

    (Emory University School of Medicine
    Emory University)

  • Maria Cardenas

    (Emory University School of Medicine)

  • Yuan Liu

    (Emory University
    Emory University)

  • Sanjeev Gumber

    (Emory University School of Medicine
    Emory University)

  • Brian Robinson

    (Emory University School of Medicine)

  • Anish Sen-Majumdar

    (Cambium Oncology LLC)

  • Hanwen Zhang

    (Emory University School of Medicine)

  • Shanmuganathan Chandrakasan

    (Emory University)

  • Haydn Kissick

    (Emory University
    Emory University School of Medicine
    Emory University)

  • Alan B. Frey

    (Cambium Oncology LLC)

  • Susan N. Thomas

    (Georgia Institute of Technology
    Georgia Institute of Technology)

  • Bassel F. El-Rayes

    (Emory University School of Medicine
    Emory University)

  • Gregory B. Lesinski

    (Emory University School of Medicine
    Emory University)

  • Edmund K. Waller

    (Emory University School of Medicine
    Emory University)

Abstract

A paucity of effector T cells within tumors renders pancreatic ductal adenocarcinoma (PDAC) resistant to immune checkpoint therapies. While several under-development approaches target immune-suppressive cells in the tumor microenvironment, there is less focus on improving T cell function. Here we show that inhibiting vasoactive intestinal peptide receptor (VIP-R) signaling enhances anti-tumor immunity in murine PDAC models. In silico data mining and immunohistochemistry analysis of primary tumors indicate overexpression of the neuropeptide vasoactive intestinal peptide (VIP) in human PDAC tumors. Elevated VIP levels are also present in PDAC patient plasma and supernatants of cultured PDAC cells. Furthermore, T cells up-regulate VIP receptors after activation, identifying the VIP signaling pathway as a potential target to enhance T cell function. In mouse PDAC models, VIP-R antagonist peptides synergize with anti-PD-1 antibody treatment in improving T cell recruitment into the tumors, activation of tumor-antigen-specific T cells, and inhibition of T cell exhaustion. In contrast to the limited single-agent activity of anti-PD1 antibodies or VIP-R antagonist peptides, combining both therapies eliminate tumors in up to 40% of animals. Furthermore, tumor-free mice resist tumor re-challenge, indicating anti-cancer immunological memory generation. VIP-R signaling thus represents a tumor-protective immune-modulatory pathway that is targetable in PDAC.

Suggested Citation

  • Sruthi Ravindranathan & Tenzin Passang & Jian-Ming Li & Shuhua Wang & Rohan Dhamsania & Michael Brandon Ware & Mohammad Y. Zaidi & Jingru Zhu & Maria Cardenas & Yuan Liu & Sanjeev Gumber & Brian Robin, 2022. "Targeting vasoactive intestinal peptide-mediated signaling enhances response to immune checkpoint therapy in pancreatic ductal adenocarcinoma," Nature Communications, Nature, vol. 13(1), pages 1-18, December.
  • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-34242-4
    DOI: 10.1038/s41467-022-34242-4
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    1. Caroline S. Jansen & Nataliya Prokhnevska & Viraj A. Master & Martin G. Sanda & Jennifer W. Carlisle & Mehmet Asim Bilen & Maria Cardenas & Scott Wilkinson & Ross Lake & Adam G. Sowalsky & Rajesh M. V, 2019. "An intra-tumoral niche maintains and differentiates stem-like CD8 T cells," Nature, Nature, vol. 576(7787), pages 465-470, December.
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