Publication date: 7 February 2017
Source:Cell Metabolism, Volume 25, Issue 2
Author(s): Wei Song, Daojun Cheng, Shangyu Hong, Benoit Sappe, Yanhui Hu, Neil Wei, Changqi Zhu, Michael B. O'Connor, Pavlos Pissios, Norbert Perrimon
While high-caloric diet impairs insulin response to cause hyperglycemia, whether and how counter-regulatory hormones are modulated by high-caloric diet is largely unknown. We find that enhanced response of Drosophila adipokinetic hormone (AKH, the glucagon homolog) in the fat body is essential for hyperglycemia associated with a chronic high-sugar diet. We show that the activin type I receptor Baboon (Babo) autonomously increases AKH signaling without affecting insulin signaling in the fat body via, at least, increase of Akh receptor (AkhR) expression. Further, we demonstrate that Activin-β (Actβ), an activin ligand predominantly produced in the enteroendocrine cells (EEs) of the midgut, is upregulated by chronic high-sugar diet and signals through Babo to promote AKH action in the fat body, leading to hyperglycemia. Importantly, activin signaling in mouse primary hepatocytes also increases glucagon response and glucagon-induced glucose production, indicating a conserved role for activin in enhancing AKH/glucagon signaling and glycemic control.
Graphical abstract
Teaser
Song et al. reveal an insulin-independent mechanism driving hyperglycemia on a high-sugar diet and identify Activin-β as a gut hormone boosting AKH/glucagon signaling in the fly fat body, ultimately perturbing carbohydrate homeostasis. Activin signaling in mouse hepatocytes also increases glucagon-stimulated glucose production, indicating a conserved role in enhancing glucagon response.http://ift.tt/2kNSzOQ
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