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Oscillations of cyclic AMP in hormone-stimulated insulin-secreting β-cells

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  • Oleg Dyachok

    (Uppsala University, BMC
    Kiev T. Shevchenko National University)

  • Yegor Isakov

    (Uppsala University, BMC)

  • Jenny Sågetorp

    (Uppsala University, BMC)

  • Anders Tengholm

    (Uppsala University, BMC)

Abstract

Cyclic AMP is a ubiquitous second messenger that transduces signals from a variety of cell surface receptors to regulate diverse cellular functions, including secretion, metabolism and gene transcription. In pancreatic β-cells, cAMP potentiates Ca2+-dependent exocytosis1,2,3 and mediates the stimulation of insulin release exerted by the hormones glucagon and glucagon-like peptide-1 (GLP-1) (refs 4, 5–6). Whereas Ca2+ signals have been extensively characterized and shown to involve oscillations important for the temporal control of insulin secretion4,7,8, the kinetics of receptor-triggered cAMP signals is unknown. Here we introduce a new ratiometric evanescent-wave-microscopy approach to measure cAMP concentration beneath the plasma membrane, and show that insulin-secreting β-cells respond to glucagon and GLP-1 with marked cAMP oscillations. Simultaneous measurements of intracellular Ca2+ concentration revealed that the two messengers are interlinked and reinforce each other. Moreover, cAMP oscillations are capable of inducing rapid on–off Ca2+ responses, but only sustained elevation of cAMP concentration induces nuclear translocation of the catalytic subunit of the cAMP-dependent protein kinase. Our results establish a new signalling mode for cAMP and indicate that temporal encoding of cAMP signals might constitute a basis for differential regulation of downstream cellular targets.

Suggested Citation

  • Oleg Dyachok & Yegor Isakov & Jenny Sågetorp & Anders Tengholm, 2006. "Oscillations of cyclic AMP in hormone-stimulated insulin-secreting β-cells," Nature, Nature, vol. 439(7074), pages 349-352, January.
  • Handle: RePEc:nat:nature:v:439:y:2006:i:7074:d:10.1038_nature04410
    DOI: 10.1038/nature04410
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    1. Sarah Baudet & Yvrick Zagar & Fiona Roche & Claudia Gomez-Bravo & Sandrine Couvet & Johann Bécret & Morgane Belle & Juliette Vougny & Sinthuya Uthayasuthan & Oriol Ros & Xavier Nicol, 2023. "Subcellular second messenger networks drive distinct repellent-induced axon behaviors," Nature Communications, Nature, vol. 14(1), pages 1-15, December.

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