Hyperglucagonemia and glucagon hypersecretion in early type 2 diabetes result from multifaceted dysregulation of pancreatic mouse α-cells

Hyperglucagonemia and glucagon hypersecretion in early type 2 diabetes result from multifaceted dysregulation of pancreatic mouse α-cells

Hyperglucagonemia has been implicated in the pathogenesis of type 2 diabetes (T2D). In contrast to β-cells, studies on the function of the pancreatic α-cell in T2D are scarce. Consequently, the processes underlying hyperglucagonemia and α-cell dysfunction are largely unknown, limiting the appropriat...

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Veröffentlicht in:Pflügers Archiv 2025-02, Vol.477 (2), p.207-221
Hauptverfasser: Ruiz-Pino, Antonia, Goncalves-Ramírez, Arianna, Jiménez-Palomares, Margarita, Merino, Beatriz, Castellano-Muñoz, Manuel, Vettorazzi, Jean F., Rafacho, Alex, Marroquí, Laura, Nadal, Ángel, Alonso-Magdalena, Paloma, Perdomo, Germán, Cózar-Castellano, Irene, Quesada, Ivan
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Animals
Beta cells
Biomedical and Life Sciences
Biomedicine
Calcium signalling
Cell Biology
Cell proliferation
Cell size
Diabetes
Diabetes mellitus (non-insulin dependent)
Diabetes Mellitus, Type 2 - metabolism
Exocytosis
Glucagon
Glucagon - metabolism
Glucagon-Secreting Cells - metabolism
Glucose tolerance
Human Physiology
Hyperinsulinemia
Insulin
Insulin - metabolism
Insulin resistance
Insulin Resistance - physiology
Insulin-Secreting Cells - metabolism
Male
Mice
Mice, Inbred C57BL
Molecular Medicine
Neurosciences
Pancreas
Receptors
Secretion
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container_issue 2
container_start_page 207
container_title Pflügers Archiv
container_volume 477
creator Ruiz-Pino, Antonia
Goncalves-Ramírez, Arianna
Jiménez-Palomares, Margarita
Merino, Beatriz
Castellano-Muñoz, Manuel
Vettorazzi, Jean F.
Rafacho, Alex
Marroquí, Laura
Nadal, Ángel
Alonso-Magdalena, Paloma
Perdomo, Germán
Cózar-Castellano, Irene
Quesada, Ivan
description Hyperglucagonemia has been implicated in the pathogenesis of type 2 diabetes (T2D). In contrast to β-cells, studies on the function of the pancreatic α-cell in T2D are scarce. Consequently, the processes underlying hyperglucagonemia and α-cell dysfunction are largely unknown, limiting the appropriate design of specific pharmacological and therapeutic strategies. In the current study, we aimed to analyze the alterations of the pancreatic α-cell and its glucagon responses in diabetic db/db mice at early stages of the disease. In this context of glucose intolerance, hyperinsulinemia, and β-cell dysfunction, hyperglucagonemia was only present at fed conditions and was associated with insulin resistance. Yet, we found that the glucagon-to-insulin ratio in db/db mice did not change with fed or fasted states, further supporting that the metabolic regulation of glucagon release was impaired. Pancreatic β-cell dysfunction in db/db mice was manifested by increased basal secretion from isolated islets along with reduced insulin content. In contrast, α-cells from diabetic animals presented upregulated secretion and islet content of glucagon compared with controls. Electrophysiological analysis of dispersed α-cells revealed that altered secretion was not the result of impaired exocytosis. Instead, we found defective regulation of Ca 2+ signaling by glucose. Besides these functional alterations, we also observed augmented α-cell mass in diabetic mice, which was accompanied by disrupted islet cytoarchitecture as well as increased α-cell size and number, without pieces of evidence of upregulated proliferation. Overall, these findings indicate that hyperglucagonemia in early T2D results from multifaceted α-cell deregulation in mice.
doi_str_mv 10.1007/s00424-024-03045-5
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In contrast to β-cells, studies on the function of the pancreatic α-cell in T2D are scarce. Consequently, the processes underlying hyperglucagonemia and α-cell dysfunction are largely unknown, limiting the appropriate design of specific pharmacological and therapeutic strategies. In the current study, we aimed to analyze the alterations of the pancreatic α-cell and its glucagon responses in diabetic db/db mice at early stages of the disease. In this context of glucose intolerance, hyperinsulinemia, and β-cell dysfunction, hyperglucagonemia was only present at fed conditions and was associated with insulin resistance. Yet, we found that the glucagon-to-insulin ratio in db/db mice did not change with fed or fasted states, further supporting that the metabolic regulation of glucagon release was impaired. Pancreatic β-cell dysfunction in db/db mice was manifested by increased basal secretion from isolated islets along with reduced insulin content. In contrast, α-cells from diabetic animals presented upregulated secretion and islet content of glucagon compared with controls. Electrophysiological analysis of dispersed α-cells revealed that altered secretion was not the result of impaired exocytosis. Instead, we found defective regulation of Ca 2+ signaling by glucose. Besides these functional alterations, we also observed augmented α-cell mass in diabetic mice, which was accompanied by disrupted islet cytoarchitecture as well as increased α-cell size and number, without pieces of evidence of upregulated proliferation. 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In contrast to β-cells, studies on the function of the pancreatic α-cell in T2D are scarce. Consequently, the processes underlying hyperglucagonemia and α-cell dysfunction are largely unknown, limiting the appropriate design of specific pharmacological and therapeutic strategies. In the current study, we aimed to analyze the alterations of the pancreatic α-cell and its glucagon responses in diabetic db/db mice at early stages of the disease. In this context of glucose intolerance, hyperinsulinemia, and β-cell dysfunction, hyperglucagonemia was only present at fed conditions and was associated with insulin resistance. Yet, we found that the glucagon-to-insulin ratio in db/db mice did not change with fed or fasted states, further supporting that the metabolic regulation of glucagon release was impaired. Pancreatic β-cell dysfunction in db/db mice was manifested by increased basal secretion from isolated islets along with reduced insulin content. In contrast, α-cells from diabetic animals presented upregulated secretion and islet content of glucagon compared with controls. Electrophysiological analysis of dispersed α-cells revealed that altered secretion was not the result of impaired exocytosis. Instead, we found defective regulation of Ca 2+ signaling by glucose. Besides these functional alterations, we also observed augmented α-cell mass in diabetic mice, which was accompanied by disrupted islet cytoarchitecture as well as increased α-cell size and number, without pieces of evidence of upregulated proliferation. Overall, these findings indicate that hyperglucagonemia in early T2D results from multifaceted α-cell deregulation in mice.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><pmid>39601887</pmid><doi>10.1007/s00424-024-03045-5</doi><tpages>15</tpages></addata></record>
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subjects Animals
Beta cells
Biomedical and Life Sciences
Biomedicine
Calcium signalling
Cell Biology
Cell proliferation
Cell size
Diabetes
Diabetes mellitus (non-insulin dependent)
Diabetes Mellitus, Type 2 - metabolism
Exocytosis
Glucagon
Glucagon - metabolism
Glucagon-Secreting Cells - metabolism
Glucose tolerance
Human Physiology
Hyperinsulinemia
Insulin
Insulin - metabolism
Insulin resistance
Insulin Resistance - physiology
Insulin-Secreting Cells - metabolism
Male
Mice
Mice, Inbred C57BL
Molecular Medicine
Neurosciences
Pancreas
Receptors
Secretion
title Hyperglucagonemia and glucagon hypersecretion in early type 2 diabetes result from multifaceted dysregulation of pancreatic mouse α-cells
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