The effect of glucose dynamics on plasma copeptin levels upon glucagon, arginine, and macimorelin stimulation in healthy adults : Data from: Glucacop, Macicop, and CARGO study

Cihan Atila; Sophie Monnerat; Sandrine Andrea Urwyler; Julie Refardt; Bettina Winzeler; Mirjam Christ-Crain

doi:10.1007/s11102-022-01240-0

The effect of glucose dynamics on plasma copeptin levels upon glucagon, arginine, and macimorelin stimulation in healthy adults : Data from: Glucacop, Macicop, and CARGO study

Pituitary. 2022 Aug;25(4):636-644. doi: 10.1007/s11102-022-01240-0. Epub 2022 Jun 20.

Authors

Cihan Atila^{1

2}, Sophie Monnerat^{1

2}, Sandrine Andrea Urwyler^{1

2}, Julie Refardt^{1

2}, Bettina Winzeler^{1

2}, Mirjam Christ-Crain^{3

4}

Affiliations

¹ Departments of Endocrinology, Diabetology and Metabolism, University Hospital Basel, Petersgraben 4, 4031, Basel, Switzerland.
² Department of Clinical Research, University of Basel, Basel, Switzerland.
³ Departments of Endocrinology, Diabetology and Metabolism, University Hospital Basel, Petersgraben 4, 4031, Basel, Switzerland. mirjam.christ-crain@usb.ch.
⁴ Department of Clinical Research, University of Basel, Basel, Switzerland. mirjam.christ-crain@usb.ch.

Abstract

Purpose: Non-osmotic stimulation tests using glucagon, arginine, or macimorelin were recently evaluated for their ability to assess posterior pituitary function. Glucagon and arginine, but not macimorelin, stimulated copeptin secretion (a surrogate marker of vasopressin) and, therefore, provide novel tests to assess the posterior pituitary. The exact underlying mechanism behind their stimulatory effect remains elusive.

Methods: This analysis combined data from three diagnostic studies conducted at the University Hospital Basel, Switzerland. In total, 80 healthy adults underwent the glucagon (n = 22), arginine (n = 30), or macimorelin (n = 28) stimulation tests. The primary objective was to investigate glucose course upon glucagon, arginine, and macimorelin stimulation tests and its effect on plasma copeptin release.

Results: Upon glucagon stimulation, the median [IQR] glucose level at baseline was 5.0 [4.6, 5.2] mmol/l, peaked at 8.1 [7.2, 9.4] mmol/l after 30 min and decreased to a minimum of 3.8 [3.5, 4.5] mmol/l after 120 min. The median copeptin increase upon glucagon stimulation was 7.7 [2.6, 28.0] pmol/l. Upon arginine, the glucose level at baseline was 4.9 [4.8, 5.5] mmol/l, peaked at 6.0 [5.2, 6.4] mmol/l after 30 min and decreased to a minimum of 4.3 [3.8, 4.8] mmol/l after 60 min. The median copeptin increase upon arginine stimulation was 4.5 [2.9, 7.5] pmol/l. Upon macimorelin, glucose levels showed no notable dynamics over the 120 min, and no major change in copeptin was observed. In the pooled dataset, a decrease in glucose levels was significantly correlated with copeptin increase (ρ = 0.53, p < 0.01).

Conclusion: A similar course in plasma glucose was observed in the copeptin-stimulating test, i.e., after glucagon and arginine, while macimorelin had no effect on glucose and copeptin levels. We hypothesize that a drop in glucose levels observed upon glucagon and arginine might stimulate copeptin.

Keywords: Arginine; Copeptin; Glucagon; Macimorelin; Pituitary stimulation test.

MeSH terms

Adult
Arginine
Glucagon*
Glucose*
Glycopeptides / pharmacology
Humans
Insulin

Substances

Glycopeptides
Insulin
copeptins
Glucagon
Arginine
Glucose

Abstract

MeSH terms

Substances

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