Islet β-cell secretion determines glucagon release from neighbouring α-cells

H Ishihara, P Maechler, A Gjinovci, PL Herrera… - Nature cell …, 2003 - nature.com
H Ishihara, P Maechler, A Gjinovci, PL Herrera, CB Wollheim
Nature cell biology, 2003nature.com
Homeostasis of blood glucose is maintained by hormone secretion from the pancreatic islets
of Langerhans. Glucose stimulates insulin secretion from β-cells but suppresses the release
of glucagon, a hormone that raises blood glucose, from α-cells. The mechanism by which
nutrients stimulate insulin secretion has been studied extensively: ATP has been identified
as the main messenger and the ATP-sensitive potassium channel as an essential
transducer in this process. By contrast, much less is known about the mechanisms by which …
Abstract
Homeostasis of blood glucose is maintained by hormone secretion from the pancreatic islets of Langerhans. Glucose stimulates insulin secretion from β-cells but suppresses the release of glucagon, a hormone that raises blood glucose, from α-cells. The mechanism by which nutrients stimulate insulin secretion has been studied extensively: ATP has been identified as the main messenger and the ATP-sensitive potassium channel as an essential transducer in this process. By contrast, much less is known about the mechanisms by which nutrients modulate glucagon secretion. Here we use conventional pancreas perfusion and a transcriptional targeting strategy to analyse cell-type-specific signal transduction and the relationship between islet α- and β-cells. We find that pyruvate, a glycolytic intermediate and principal substrate of mitochondria, stimulates glucagon secretion. Our analyses indicate that, although α-cells, like β-cells, possess the inherent capacity to respond to nutrients, secretion from α-cells is normally suppressed by the simultaneous activation of β-cells. Zinc released from β-cells may be implicated in this suppression. Our results define the fundamental mechanisms of differential responses to identical stimuli between cells in a microorgan.
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