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Conserved mechanisms of glucose sensing and regulation by Drosophila corpora cardiaca cells

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  • Seung K. Kim

    (Stanford University School of Medicine)

  • Eric J. Rulifson

    (University of Pennsylvania School of Medicine)

Abstract

Antagonistic activities of glucagon and insulin control metabolism in mammals, and disruption of this balance underlies diabetes pathogenesis. Insulin-producing cells (IPCs) in the brain of insects such as Drosophila also regulate serum glucose1,2, but it remains unclear whether insulin is the sole hormonal regulator of glucose homeostasis and whether mechanisms of glucose-sensing and response in IPCs resemble those in pancreatic islets. Here we show, by targeted cell ablation, that Drosophila corpora cardiaca (CC) cells3,4,5 of the ring gland are also essential for larval glucose homeostasis. Unlike IPCs, CC cells express Drosophila cognates of sulphonylurea receptor (Sur) and potassium channel (Ir), proteins that comprise ATP-sensitive potassium channels regulating hormone secretion by islets and other mammalian glucose-sensing cells6,7,8. They also produce adipokinetic hormone, a polypeptide with glucagon-like functions. Glucose regulation by CC cells is impaired by exposure to sulphonylureas, drugs that target the Sur subunit. Furthermore, ubiquitous expression of an akh transgene reverses the effect of CC ablation on serum glucose. Thus, Drosophila CC cells are crucial regulators of glucose homeostasis and they use glucose-sensing and response mechanisms similar to islet cells.

Suggested Citation

  • Seung K. Kim & Eric J. Rulifson, 2004. "Conserved mechanisms of glucose sensing and regulation by Drosophila corpora cardiaca cells," Nature, Nature, vol. 431(7006), pages 316-320, September.
  • Handle: RePEc:nat:nature:v:431:y:2004:i:7006:d:10.1038_nature02897
    DOI: 10.1038/nature02897
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    1. Olga Kubrak & Takashi Koyama & Nadja Ahrentløv & Line Jensen & Alina Malita & Muhammad T. Naseem & Mette Lassen & Stanislav Nagy & Michael J. Texada & Kenneth V. Halberg & Kim Rewitz, 2022. "The gut hormone Allatostatin C/Somatostatin regulates food intake and metabolic homeostasis under nutrient stress," Nature Communications, Nature, vol. 13(1), pages 1-17, December.

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