N. Ahrentloev scite author profile

The intestine is a central regulator of metabolic homeostasis. Dietary inputs are absorbed through the gut, which senses their nutritional value and relays hormonal information to other organs to coordinate systemic energy balance. However, the specific gut hormones that communicate energy availability to target organs to induce appropriate metabolic and behavioral responses are poorly defined. Here we show that the enteroendocrine cells (EECs) of the Drosophila gut sense nutrient stress via the intracellular TOR pathway, and in response secrete the peptide hormone allatostatin C (AstC), a Drosophila Somatostatin homolog. Gut-derived AstC induces secretion of glucagon-like adipokinetic hormone (AKH) via its receptor AstC-R2, a homolog of mammalian somatostatin receptors, to coordinate food intake and energy mobilization. Loss of gut AstC or its receptor in the AKH-producing cells impairs lipid and sugar mobilization during fasting, leading to hypoglycemia. Our findings illustrate a nutrient-responsive endocrine mechanism that maintains energy homeostasis under nutrient-stress conditions, a function that is essential to health and whose failure can lead to metabolic disorders.

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The gut hormone Allatostatin C regulates food intake and metabolic homeostasis under nutrient stress

Kubrak

Jensen

Ahrentloev

et al. 2020

Preprint

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The intestine is a central regulator of metabolic homeostasis. Dietary inputs are absorbed through the gut, which senses their nutritional value and relays hormonal information to other organs to coordinate systemic energy balance. However, the specific gut hormones that communicate energy availability to target organs to induce appropriate metabolic and behavioral responses are poorly defined. Here we show that the enteroendocrine cells (EECs) of the Drosophila gut sense nutrient stress via the intracellular TOR pathway, and in response secrete the peptide hormone allatostatin C (AstC). Gut-derived AstC induces secretion of glucagon-like adipokinetic hormone (AKH) via its receptor AstC-R2, a homolog of mammalian somatostatin receptors, to coordinate food intake and energy mobilization. Loss of gut AstC or its receptor in the AKH-producing cells impairs lipid and sugar mobilization during fasting, leading to hypoglycemia. Our findings illustrate a nutrient-responsive endocrine mechanism that maintains energy homeostasis under nutrient-stress conditions, a function that is essential to health and whose failure can lead to metabolic disorders.

show abstract

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N. Ahrentloev

The gut hormone Allatostatin C/Somatostatin regulates food intake and metabolic homeostasis under nutrient stress

The gut hormone Allatostatin C regulates food intake and metabolic homeostasis under nutrient stress

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