Paracrine signalling by pancreatic δ cells determines the glycaemic set point in mice

Paracrine signalling by pancreatic δ cells determines the glycaemic set point in mice

While pancreatic β and α cells are considered the main drivers of blood glucose homeostasis through insulin and glucagon secretion, the contribution of δ cells and somatostatin (SST) secretion to glucose homeostasis remains unresolved. Here we provide a quantitative assessment of the physiological c...

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Veröffentlicht in:Nature metabolism 2024-01, Vol.6 (1), p.61-77
Hauptverfasser: Huang, Jessica L., Pourhosseinzadeh, Mohammad S., Lee, Sharon, Krämer, Niels, Guillen, Jaresley V., Cinque, Naomi H., Aniceto, Paola, Momen, Ariana T., Koike, Shinichiro, Huising, Mark O.
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692/698/2741/416
Animals
Biomedical and Life Sciences
Glucagon
Glucose
Insulin
Islets of Langerhans
Life Sciences
Mice
Somatostatin-Secreting Cells
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container_end_page 77
container_issue 1
container_start_page 61
container_title Nature metabolism
container_volume 6
creator Huang, Jessica L.
Pourhosseinzadeh, Mohammad S.
Lee, Sharon
Krämer, Niels
Guillen, Jaresley V.
Cinque, Naomi H.
Aniceto, Paola
Momen, Ariana T.
Koike, Shinichiro
Huising, Mark O.
description While pancreatic β and α cells are considered the main drivers of blood glucose homeostasis through insulin and glucagon secretion, the contribution of δ cells and somatostatin (SST) secretion to glucose homeostasis remains unresolved. Here we provide a quantitative assessment of the physiological contribution of δ cells to the glycaemic set point in mice. Employing three orthogonal mouse models to remove SST signalling within the pancreas or transplanted islets, we demonstrate that ablating δ cells or SST leads to a sustained decrease in the glycaemic set point. This reduction coincides with a decreased glucose threshold for insulin response from β cells, leading to increased insulin secretion to the same glucose challenge. Our data demonstrate that β cells are sufficient to maintain stable glycaemia and reveal that the physiological role of δ cells is to provide tonic feedback inhibition that reduces the β cell glucose threshold and consequently lowers the glycaemic set point in vivo. Using several orthogonal loss-of-function approaches, Huang et al. provide a detailed assessment of the quantitative contribution of δ cell paracrine signalling to the glycaemic set point in mice.
doi_str_mv 10.1038/s42255-023-00944-2
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subjects 631/443/319/1557
631/80/86
692/698/2741/416
Animals
Biomedical and Life Sciences
Glucagon
Glucose
Insulin
Islets of Langerhans
Life Sciences
Mice
Somatostatin-Secreting Cells
title Paracrine signalling by pancreatic δ cells determines the glycaemic set point in mice
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