Antecedent hypoglycaemia impairs glucagon secretion by enhancing somatostatin-mediated negative feedback control

Rui Gao; Samuel Acreman; Haiqiang Dou; Jinfang Ma; Caroline Miranda; Ruiling Zhao; Matthew T Dickerson; Andrei Tarasov; Qi Zou; Marta Gironella-Torrent; Johan Tolö; Anne Clark; Rui Gao; Yang De Marinis; David A Jacobson; Joan Camunas-Soler; Tao Yang; Patrik Rorsman; Quan Zhang

doi:10.1038/s42255-025-01422-7

Antecedent hypoglycaemia impairs glucagon secretion by enhancing somatostatin-mediated negative feedback control

Rui Gao
, Samuel Acreman
, Haiqiang Dou
, Jinfang Ma
, Caroline Miranda
, Ruiling Zhao
, Matthew T Dickerson
, Andrei Tarasov
, Qi Zou
, Marta Gironella-Torrent
, Johan Tolö
, Anne Clark
, Rui Gao
, Yang De Marinis
, David A Jacobson
, Joan Camunas-Soler
, Tao Yang
, Patrik Rorsman
, Quan Zhang

Research output: Contribution to journal › Article › peer-review

Abstract

Somatostatin, produced by pancreatic islet δ cells, is a key intra-islet paracrine factor that regulates the secretion of the glucoregulatory hormones insulin and glucagon from β cells and α cells, respectively. Here, we show that glutamate and glucagon released by α cells cooperatively activate neighbouring δ cells through AMPA and glucagon receptors, thereby enabling spatiotemporal feedback control of glucagon secretion. Crucially, prior hypoglycaemia enhances this mechanism by sensitizing δ cells to α cell-derived factors and inducing long-lasting structural and functional changes that facilitate δ cell and α cell paracrine interaction. This culminates in somatostatin hypersecretion that impairs counter-regulatory glucagon release. These hypoglycaemia-driven effects were emulated by chemogenetic activation of α cells or high concentrations of exogenous glucagon but prevented by inhibitors of glucagon receptors or the transcription factor CREB. This plasticity represents a key component of the islet’s ‘metabolic memory’, which, through impaired counter-regulatory glucagon secretion, increases the occurrence of recurrent hypoglycaemia that complicates the management of insulin-dependent diabetes.

Original language	English
Pages (from-to)	159-176
Number of pages	34
Journal	Nature Metabolism
Volume	8
Issue number	1
Early online date	13 Jan 2026
DOIs	https://doi.org/10.1038/s42255-025-01422-7
Publication status	Published (in print/issue) - 30 Jan 2026

Bibliographical note

Publisher Copyright:
© The Author(s), under exclusive licence to Springer Nature Limited 2026.

Data Access Statement

All materials used are available from the authors or are commercially available. The data that support the findings of this study are available from the corresponding author upon reasonable request, including original images and videos. Representative videos are included in Supplementary Information. Source data are provided with this paper.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being
SDG 10 Reduced Inequalities

Keywords

Animals
Feedback, Physiological
Glucagon-Secreting Cells/metabolism
Glucagon/metabolism
Glutamic Acid/metabolism
Hypoglycemia/metabolism
Insulin/metabolism
Mice
Receptors, Glucagon/metabolism
Somatostatin-Secreting Cells/metabolism
Somatostatin/metabolism

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10.1038/s42255-025-01422-7

Cite this

Gao, R., Acreman, S., Dou, H., Ma, J., Miranda, C., Zhao, R., Dickerson, M. T., Tarasov, A., Zou, Q., Gironella-Torrent, M., Tolö, J., Clark, A., Gao, R., De Marinis, Y., Jacobson, D. A., Camunas-Soler, J., Yang, T., Rorsman, P., & Zhang, Q. (2026). Antecedent hypoglycaemia impairs glucagon secretion by enhancing somatostatin-mediated negative feedback control. Nature Metabolism, 8(1), 159-176. https://doi.org/10.1038/s42255-025-01422-7

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abstract = "Somatostatin, produced by pancreatic islet δ cells, is a key intra-islet paracrine factor that regulates the secretion of the glucoregulatory hormones insulin and glucagon from β cells and α cells, respectively. Here, we show that glutamate and glucagon released by α cells cooperatively activate neighbouring δ cells through AMPA and glucagon receptors, thereby enabling spatiotemporal feedback control of glucagon secretion. Crucially, prior hypoglycaemia enhances this mechanism by sensitizing δ cells to α cell-derived factors and inducing long-lasting structural and functional changes that facilitate δ cell and α cell paracrine interaction. This culminates in somatostatin hypersecretion that impairs counter-regulatory glucagon release. These hypoglycaemia-driven effects were emulated by chemogenetic activation of α cells or high concentrations of exogenous glucagon but prevented by inhibitors of glucagon receptors or the transcription factor CREB. This plasticity represents a key component of the islet{\textquoteright}s {\textquoteleft}metabolic memory{\textquoteright}, which, through impaired counter-regulatory glucagon secretion, increases the occurrence of recurrent hypoglycaemia that complicates the management of insulin-dependent diabetes.",

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note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive licence to Springer Nature Limited 2026.",

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doi = "10.1038/s42255-025-01422-7",

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Gao, R, Acreman, S, Dou, H, Ma, J, Miranda, C, Zhao, R, Dickerson, MT, Tarasov, A, Zou, Q, Gironella-Torrent, M, Tolö, J, Clark, A, Gao, R, De Marinis, Y, Jacobson, DA, Camunas-Soler, J, Yang, T, Rorsman, P & Zhang, Q 2026, 'Antecedent hypoglycaemia impairs glucagon secretion by enhancing somatostatin-mediated negative feedback control', Nature Metabolism, vol. 8, no. 1, pp. 159-176. https://doi.org/10.1038/s42255-025-01422-7

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T1 - Antecedent hypoglycaemia impairs glucagon secretion by enhancing somatostatin-mediated negative feedback control

AU - Gao, Rui

AU - Acreman, Samuel

AU - Dou, Haiqiang

AU - Ma, Jinfang

AU - Miranda, Caroline

AU - Zhao, Ruiling

AU - Dickerson, Matthew T

AU - Tarasov, Andrei

AU - Zou, Qi

AU - Gironella-Torrent, Marta

AU - Tolö, Johan

AU - Clark, Anne

AU - Gao, Rui

AU - De Marinis, Yang

AU - Jacobson, David A

AU - Camunas-Soler, Joan

AU - Yang, Tao

AU - Rorsman, Patrik

AU - Zhang, Quan

N1 - Publisher Copyright: © The Author(s), under exclusive licence to Springer Nature Limited 2026.

PY - 2026/1/30

Y1 - 2026/1/30

N2 - Somatostatin, produced by pancreatic islet δ cells, is a key intra-islet paracrine factor that regulates the secretion of the glucoregulatory hormones insulin and glucagon from β cells and α cells, respectively. Here, we show that glutamate and glucagon released by α cells cooperatively activate neighbouring δ cells through AMPA and glucagon receptors, thereby enabling spatiotemporal feedback control of glucagon secretion. Crucially, prior hypoglycaemia enhances this mechanism by sensitizing δ cells to α cell-derived factors and inducing long-lasting structural and functional changes that facilitate δ cell and α cell paracrine interaction. This culminates in somatostatin hypersecretion that impairs counter-regulatory glucagon release. These hypoglycaemia-driven effects were emulated by chemogenetic activation of α cells or high concentrations of exogenous glucagon but prevented by inhibitors of glucagon receptors or the transcription factor CREB. This plasticity represents a key component of the islet’s ‘metabolic memory’, which, through impaired counter-regulatory glucagon secretion, increases the occurrence of recurrent hypoglycaemia that complicates the management of insulin-dependent diabetes.

AB - Somatostatin, produced by pancreatic islet δ cells, is a key intra-islet paracrine factor that regulates the secretion of the glucoregulatory hormones insulin and glucagon from β cells and α cells, respectively. Here, we show that glutamate and glucagon released by α cells cooperatively activate neighbouring δ cells through AMPA and glucagon receptors, thereby enabling spatiotemporal feedback control of glucagon secretion. Crucially, prior hypoglycaemia enhances this mechanism by sensitizing δ cells to α cell-derived factors and inducing long-lasting structural and functional changes that facilitate δ cell and α cell paracrine interaction. This culminates in somatostatin hypersecretion that impairs counter-regulatory glucagon release. These hypoglycaemia-driven effects were emulated by chemogenetic activation of α cells or high concentrations of exogenous glucagon but prevented by inhibitors of glucagon receptors or the transcription factor CREB. This plasticity represents a key component of the islet’s ‘metabolic memory’, which, through impaired counter-regulatory glucagon secretion, increases the occurrence of recurrent hypoglycaemia that complicates the management of insulin-dependent diabetes.

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KW - Feedback, Physiological

KW - Glucagon-Secreting Cells/metabolism

KW - Glucagon/metabolism

KW - Glutamic Acid/metabolism

KW - Hypoglycemia/metabolism

KW - Insulin/metabolism

KW - Mice

KW - Receptors, Glucagon/metabolism

KW - Somatostatin-Secreting Cells/metabolism

KW - Somatostatin/metabolism

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DO - 10.1038/s42255-025-01422-7

M3 - Article

C2 - 41530286

SN - 2522-5812

VL - 8

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EP - 176

JO - Nature Metabolism

JF - Nature Metabolism

IS - 1

ER -

Antecedent hypoglycaemia impairs glucagon secretion by enhancing somatostatin-mediated negative feedback control

Abstract

Bibliographical note

Data Access Statement

UN SDGs

Keywords

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