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Inhibition of Y1 receptor signaling improves islet transplant outcome

Author

Listed:
  • Kim Loh

    (St Vincent’s Hospital
    St. Vincent’s Institute of Medical Research)

  • Yan-Chuan Shi

    (St Vincent’s Hospital
    UNSW Australia)

  • Stacey Walters

    (St Vincent’s Hospital)

  • Mohammed Bensellam

    (St Vincent’s Hospital
    Université Catholique De Louvain)

  • Kailun Lee

    (St Vincent’s Hospital)

  • Katsuya Dezaki

    (Jichi Medical University)

  • Masanori Nakata

    (Jichi Medical University)

  • Chi Kin Ip

    (St Vincent’s Hospital)

  • Jeng Yie Chan

    (St Vincent’s Hospital)

  • Esteban N. Gurzov

    (St. Vincent’s Institute of Medical Research)

  • Helen E. Thomas

    (St. Vincent’s Institute of Medical Research)

  • Michaela Waibel

    (St. Vincent’s Institute of Medical Research)

  • James Cantley

    (St Vincent’s Hospital
    University of Oxford)

  • Thomas W. Kay

    (St. Vincent’s Institute of Medical Research)

  • Toshihiko Yada

    (Jichi Medical University)

  • D. Ross Laybutt

    (St Vincent’s Hospital)

  • Shane T. Grey

    (St Vincent’s Hospital)

  • Herbert Herzog

    (St Vincent’s Hospital
    UNSW Australia)

Abstract

Failure to secrete sufficient quantities of insulin is a pathological feature of type-1 and type-2 diabetes, and also reduces the success of islet cell transplantation. Here we demonstrate that Y1 receptor signaling inhibits insulin release in β-cells, and show that this can be pharmacologically exploited to boost insulin secretion. Transplanting islets with Y1 receptor deficiency accelerates the normalization of hyperglycemia in chemically induced diabetic recipient mice, which can also be achieved by short-term pharmacological blockade of Y1 receptors in transplanted mouse and human islets. Furthermore, treatment of non-obese diabetic mice with a Y1 receptor antagonist delays the onset of diabetes. Mechanistically, Y1 receptor signaling inhibits the production of cAMP in islets, which via CREB mediated pathways results in the down-regulation of several key enzymes in glycolysis and ATP production. Thus, manipulating Y1 receptor signaling in β-cells offers a unique therapeutic opportunity for correcting insulin deficiency as it occurs in the pathological state of type-1 diabetes as well as during islet transplantation.

Suggested Citation

  • Kim Loh & Yan-Chuan Shi & Stacey Walters & Mohammed Bensellam & Kailun Lee & Katsuya Dezaki & Masanori Nakata & Chi Kin Ip & Jeng Yie Chan & Esteban N. Gurzov & Helen E. Thomas & Michaela Waibel & Jam, 2017. "Inhibition of Y1 receptor signaling improves islet transplant outcome," Nature Communications, Nature, vol. 8(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00624-2
    DOI: 10.1038/s41467-017-00624-2
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    Cited by:

    1. Jiaoling Chen & Yaxing Bai & Ke Xue & Zhiguo Li & Zhenlai Zhu & Qingyang Li & Chen Yu & Bing Li & Shengxian Shen & Pei Qiao & Caixia Li & Yixin Luo & Hongjiang Qiao & Erle Dang & Wen Yin & Johann E. G, 2023. "CREB1-driven CXCR4hi neutrophils promote skin inflammation in mouse models and human patients," Nature Communications, Nature, vol. 14(1), pages 1-21, December.

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