Pancreatic α-cell hyperplasia and hyperglucagonemia due to a mutation of the glucagon

Research output: Contribution to journalJournal articleResearchpeer-review

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Pancreatic α-cell hyperplasia and hyperglucagonemia due to a mutation of the glucagon. / Larger, Etienne; Albrechtsen, Nicolai Jacob Wewer; Hansen, L.H.; Gelling, R.W.; Capeau, Jaqueline; Deacon, Carolyn F.; Madsen, O.D.; Yakushiji, F; Meyts, P. De; Holst, Jens Juul; Nishimura, Erica.

In: Endocrinology, Diabetes & Metabolism Case Reports, Vol. 2016, EDM160081, 2016.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Larger, E, Albrechtsen, NJW, Hansen, LH, Gelling, RW, Capeau, J, Deacon, CF, Madsen, OD, Yakushiji, F, Meyts, PD, Holst, JJ & Nishimura, E 2016, 'Pancreatic α-cell hyperplasia and hyperglucagonemia due to a mutation of the glucagon', Endocrinology, Diabetes & Metabolism Case Reports, vol. 2016, EDM160081. https://doi.org/10.1530/EDM-16-0081

APA

Larger, E., Albrechtsen, N. J. W., Hansen, L. H., Gelling, R. W., Capeau, J., Deacon, C. F., Madsen, O. D., Yakushiji, F., Meyts, P. D., Holst, J. J., & Nishimura, E. (2016). Pancreatic α-cell hyperplasia and hyperglucagonemia due to a mutation of the glucagon. Endocrinology, Diabetes & Metabolism Case Reports, 2016, [EDM160081]. https://doi.org/10.1530/EDM-16-0081

Vancouver

Larger E, Albrechtsen NJW, Hansen LH, Gelling RW, Capeau J, Deacon CF et al. Pancreatic α-cell hyperplasia and hyperglucagonemia due to a mutation of the glucagon. Endocrinology, Diabetes & Metabolism Case Reports. 2016;2016. EDM160081. https://doi.org/10.1530/EDM-16-0081

Author

Larger, Etienne ; Albrechtsen, Nicolai Jacob Wewer ; Hansen, L.H. ; Gelling, R.W. ; Capeau, Jaqueline ; Deacon, Carolyn F. ; Madsen, O.D. ; Yakushiji, F ; Meyts, P. De ; Holst, Jens Juul ; Nishimura, Erica. / Pancreatic α-cell hyperplasia and hyperglucagonemia due to a mutation of the glucagon. In: Endocrinology, Diabetes & Metabolism Case Reports. 2016 ; Vol. 2016.

Bibtex

@article{e21f25e676334d8ab2f4fae5c4a58391,
title = "Pancreatic α-cell hyperplasia and hyperglucagonemia due to a mutation of the glucagon",
abstract = "Glucagon stimulates hepatic glucose production by activating specific glucagon receptors in the liver, which in turn increase hepatic glycogenolysis as well as gluconeogenesis and ureagenesis from amino acids. Conversely, glucagon secretion is regulated by concentrations of glucose and amino acids. Disruption of glucagon signaling in rodents results in grossly elevated circulating glucagon levels but no hypoglycemia. Here, we describe a patient carrying a homozygous G to A substitution in the invariant AG dinucleotide found in a 3′ mRNA splice junction of the glucagon receptor gene. Loss of the splice site acceptor consensus sequence results in the deletion of 70 nucleotides encoded by exon 9, which introduces a frame shift and an early termination signal in the receptor mRNA sequence. The mutated receptor neither bound 125I-labeled glucagon nor induced cAMP production upon stimulation with up to 1 µM glucagon. Despite the mutation, the only obvious pathophysiological trait was hyperglucagonemia, hyperaminoacidemia and massive hyperplasia of the pancreatic α-cells assessed by histology. Our case supports the notion of a hepato–pancreatic feedback system, which upon disruption leads to hyperglucagonemia and α-cell hyperplasia, as well as elevated plasma amino acid levels. Together with the glucagon-induced hypoaminoacidemia in glucagonoma patients, our case supports recent suggestions that amino acids may provide the feedback link between the liver and the pancreatic α-cells.",
author = "Etienne Larger and Albrechtsen, {Nicolai Jacob Wewer} and L.H. Hansen and R.W. Gelling and Jaqueline Capeau and Deacon, {Carolyn F.} and O.D. Madsen and F Yakushiji and Meyts, {P. De} and Holst, {Jens Juul} and Erica Nishimura",
year = "2016",
doi = "10.1530/EDM-16-0081",
language = "English",
volume = "2016",
journal = "Endocrinology, Diabetes and Metabolism Case Reports",
issn = "2052-0573",
publisher = "BioScientifica Ltd.",

}

RIS

TY - JOUR

T1 - Pancreatic α-cell hyperplasia and hyperglucagonemia due to a mutation of the glucagon

AU - Larger, Etienne

AU - Albrechtsen, Nicolai Jacob Wewer

AU - Hansen, L.H.

AU - Gelling, R.W.

AU - Capeau, Jaqueline

AU - Deacon, Carolyn F.

AU - Madsen, O.D.

AU - Yakushiji, F

AU - Meyts, P. De

AU - Holst, Jens Juul

AU - Nishimura, Erica

PY - 2016

Y1 - 2016

N2 - Glucagon stimulates hepatic glucose production by activating specific glucagon receptors in the liver, which in turn increase hepatic glycogenolysis as well as gluconeogenesis and ureagenesis from amino acids. Conversely, glucagon secretion is regulated by concentrations of glucose and amino acids. Disruption of glucagon signaling in rodents results in grossly elevated circulating glucagon levels but no hypoglycemia. Here, we describe a patient carrying a homozygous G to A substitution in the invariant AG dinucleotide found in a 3′ mRNA splice junction of the glucagon receptor gene. Loss of the splice site acceptor consensus sequence results in the deletion of 70 nucleotides encoded by exon 9, which introduces a frame shift and an early termination signal in the receptor mRNA sequence. The mutated receptor neither bound 125I-labeled glucagon nor induced cAMP production upon stimulation with up to 1 µM glucagon. Despite the mutation, the only obvious pathophysiological trait was hyperglucagonemia, hyperaminoacidemia and massive hyperplasia of the pancreatic α-cells assessed by histology. Our case supports the notion of a hepato–pancreatic feedback system, which upon disruption leads to hyperglucagonemia and α-cell hyperplasia, as well as elevated plasma amino acid levels. Together with the glucagon-induced hypoaminoacidemia in glucagonoma patients, our case supports recent suggestions that amino acids may provide the feedback link between the liver and the pancreatic α-cells.

AB - Glucagon stimulates hepatic glucose production by activating specific glucagon receptors in the liver, which in turn increase hepatic glycogenolysis as well as gluconeogenesis and ureagenesis from amino acids. Conversely, glucagon secretion is regulated by concentrations of glucose and amino acids. Disruption of glucagon signaling in rodents results in grossly elevated circulating glucagon levels but no hypoglycemia. Here, we describe a patient carrying a homozygous G to A substitution in the invariant AG dinucleotide found in a 3′ mRNA splice junction of the glucagon receptor gene. Loss of the splice site acceptor consensus sequence results in the deletion of 70 nucleotides encoded by exon 9, which introduces a frame shift and an early termination signal in the receptor mRNA sequence. The mutated receptor neither bound 125I-labeled glucagon nor induced cAMP production upon stimulation with up to 1 µM glucagon. Despite the mutation, the only obvious pathophysiological trait was hyperglucagonemia, hyperaminoacidemia and massive hyperplasia of the pancreatic α-cells assessed by histology. Our case supports the notion of a hepato–pancreatic feedback system, which upon disruption leads to hyperglucagonemia and α-cell hyperplasia, as well as elevated plasma amino acid levels. Together with the glucagon-induced hypoaminoacidemia in glucagonoma patients, our case supports recent suggestions that amino acids may provide the feedback link between the liver and the pancreatic α-cells.

U2 - 10.1530/EDM-16-0081

DO - 10.1530/EDM-16-0081

M3 - Journal article

C2 - 27933176

VL - 2016

JO - Endocrinology, Diabetes and Metabolism Case Reports

JF - Endocrinology, Diabetes and Metabolism Case Reports

SN - 2052-0573

M1 - EDM160081

ER -

ID: 169969449