Regulation of LEAP2 by insulin and glucagon in mice and humans

Valdemar Brimnes Ingemann Johansen; Anna Katrina Jógvansdóttir Gradel; Stephanie Kjærulff Holm; Joyceline Cuenco; Christoffer Merrild; Natalia Petersen; Damien Demozay; Bharath Kumar Mani; Malte Palm Suppli; Magnus F G Grøndahl; Asger Bach Lund; Filip Krag Knop; Cesar A Prada-Medina; Wouter Frederik Johan Hogendorf; Jens Lykkesfeldt; Myrte Merkestein; Kei Sakamoto; Birgitte Holst; Christoffer Clemmensen

doi:10.1016/j.xcrm.2025.101996

Regulation of LEAP2 by insulin and glucagon in mice and humans

Valdemar Brimnes Ingemann Johansen, Anna Katrina Jógvansdóttir Gradel, Stephanie Kjærulff Holm, Joyceline Cuenco, Christoffer Merrild, Natalia Petersen, Damien Demozay, Bharath Kumar Mani, Malte Palm Suppli, Magnus F G Grøndahl, Asger Bach Lund, Filip Krag Knop, Cesar A Prada-Medina, Wouter Frederik Johan Hogendorf, Jens Lykkesfeldt, Myrte Merkestein, Kei Sakamoto, Birgitte Holst, Christoffer Clemmensen

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

Liver-expressed antimicrobial peptide 2 (LEAP2) is an endogenous antagonist and inverse agonist of the ghrelin receptor, countering ghrelin's effects on cell signaling and feeding. However, despite an emerging interest in LEAP2's physiology and pharmacology, its endocrine regulation remains unclear. Here, we report that plasma LEAP2 levels decrease significantly upon glucagon infusions during somatostatin clamps in humans. This effect is preserved in patients with obesity and type 2 diabetes while diminished following a hypercaloric diet and a sedentary lifestyle for 2 weeks. Additionally, insulin receptor antagonism offsets the upregulation of LEAP2 during the postprandial state in mice. Finally, insulin and glucagon receptor-expressing hepatocytes are the primary source of hepatic LEAP2 expression, coinciding with a putative enhancer-like signature bound by insulin- and glucagon-regulated transcription factors at the LEAP2 locus. Collectively, our findings implicate insulin and glucagon in regulating LEAP2 and warrant further investigations into the exact mechanisms orchestrating this endocrine axis.

Original language	English
Article number	101996
Journal	Cell Reports Medicine
Number of pages	21
ISSN	2666-3791
DOIs	https://doi.org/10.1016/j.xcrm.2025.101996
Publication status	Published - 2025

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10.1016/j.xcrm.2025.101996

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Johansen, V. B. I., Gradel, A. K. J., Holm, S. K., Cuenco, J., Merrild, C., Petersen, N., Demozay, D., Mani, B. K., Suppli, M. P., Grøndahl, M. F. G., Lund, A. B., Knop, F. K., Prada-Medina, C. A., Hogendorf, W. F. J., Lykkesfeldt, J., Merkestein, M., Sakamoto, K., Holst, B., & Clemmensen, C. (2025). Regulation of LEAP2 by insulin and glucagon in mice and humans. Cell Reports Medicine, Article 101996. https://doi.org/10.1016/j.xcrm.2025.101996

Johansen, VBI, Gradel, AKJ, Holm, SK , Cuenco, J , Merrild, C, Petersen, N, Demozay, D, Mani, BK, Suppli, MP, Grøndahl, MFG, Lund, AB , Knop, FK, Prada-Medina, CA, Hogendorf, WFJ, Lykkesfeldt, J, Merkestein, M, Sakamoto, K , Holst, B & Clemmensen, C 2025, 'Regulation of LEAP2 by insulin and glucagon in mice and humans', Cell Reports Medicine. https://doi.org/10.1016/j.xcrm.2025.101996

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title = "Regulation of LEAP2 by insulin and glucagon in mice and humans",

abstract = "Liver-expressed antimicrobial peptide 2 (LEAP2) is an endogenous antagonist and inverse agonist of the ghrelin receptor, countering ghrelin's effects on cell signaling and feeding. However, despite an emerging interest in LEAP2's physiology and pharmacology, its endocrine regulation remains unclear. Here, we report that plasma LEAP2 levels decrease significantly upon glucagon infusions during somatostatin clamps in humans. This effect is preserved in patients with obesity and type 2 diabetes while diminished following a hypercaloric diet and a sedentary lifestyle for 2 weeks. Additionally, insulin receptor antagonism offsets the upregulation of LEAP2 during the postprandial state in mice. Finally, insulin and glucagon receptor-expressing hepatocytes are the primary source of hepatic LEAP2 expression, coinciding with a putative enhancer-like signature bound by insulin- and glucagon-regulated transcription factors at the LEAP2 locus. Collectively, our findings implicate insulin and glucagon in regulating LEAP2 and warrant further investigations into the exact mechanisms orchestrating this endocrine axis.",

author = "Johansen, {Valdemar Brimnes Ingemann} and Gradel, {Anna Katrina J{\'o}gvansd{\'o}ttir} and Holm, {Stephanie Kj{\ae}rulff} and Joyceline Cuenco and Christoffer Merrild and Natalia Petersen and Damien Demozay and Mani, {Bharath Kumar} and Suppli, {Malte Palm} and Gr{\o}ndahl, {Magnus F G} and Lund, {Asger Bach} and Knop, {Filip Krag} and Prada-Medina, {Cesar A} and Hogendorf, {Wouter Frederik Johan} and Jens Lykkesfeldt and Myrte Merkestein and Kei Sakamoto and Birgitte Holst and Christoffer Clemmensen",

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doi = "10.1016/j.xcrm.2025.101996",

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T1 - Regulation of LEAP2 by insulin and glucagon in mice and humans

AU - Johansen, Valdemar Brimnes Ingemann

AU - Gradel, Anna Katrina Jógvansdóttir

AU - Holm, Stephanie Kjærulff

AU - Cuenco, Joyceline

AU - Merrild, Christoffer

AU - Petersen, Natalia

AU - Demozay, Damien

AU - Mani, Bharath Kumar

AU - Suppli, Malte Palm

AU - Grøndahl, Magnus F G

AU - Lund, Asger Bach

AU - Knop, Filip Krag

AU - Prada-Medina, Cesar A

AU - Hogendorf, Wouter Frederik Johan

AU - Lykkesfeldt, Jens

AU - Merkestein, Myrte

AU - Sakamoto, Kei

AU - Holst, Birgitte

AU - Clemmensen, Christoffer

PY - 2025

Y1 - 2025

N2 - Liver-expressed antimicrobial peptide 2 (LEAP2) is an endogenous antagonist and inverse agonist of the ghrelin receptor, countering ghrelin's effects on cell signaling and feeding. However, despite an emerging interest in LEAP2's physiology and pharmacology, its endocrine regulation remains unclear. Here, we report that plasma LEAP2 levels decrease significantly upon glucagon infusions during somatostatin clamps in humans. This effect is preserved in patients with obesity and type 2 diabetes while diminished following a hypercaloric diet and a sedentary lifestyle for 2 weeks. Additionally, insulin receptor antagonism offsets the upregulation of LEAP2 during the postprandial state in mice. Finally, insulin and glucagon receptor-expressing hepatocytes are the primary source of hepatic LEAP2 expression, coinciding with a putative enhancer-like signature bound by insulin- and glucagon-regulated transcription factors at the LEAP2 locus. Collectively, our findings implicate insulin and glucagon in regulating LEAP2 and warrant further investigations into the exact mechanisms orchestrating this endocrine axis.

AB - Liver-expressed antimicrobial peptide 2 (LEAP2) is an endogenous antagonist and inverse agonist of the ghrelin receptor, countering ghrelin's effects on cell signaling and feeding. However, despite an emerging interest in LEAP2's physiology and pharmacology, its endocrine regulation remains unclear. Here, we report that plasma LEAP2 levels decrease significantly upon glucagon infusions during somatostatin clamps in humans. This effect is preserved in patients with obesity and type 2 diabetes while diminished following a hypercaloric diet and a sedentary lifestyle for 2 weeks. Additionally, insulin receptor antagonism offsets the upregulation of LEAP2 during the postprandial state in mice. Finally, insulin and glucagon receptor-expressing hepatocytes are the primary source of hepatic LEAP2 expression, coinciding with a putative enhancer-like signature bound by insulin- and glucagon-regulated transcription factors at the LEAP2 locus. Collectively, our findings implicate insulin and glucagon in regulating LEAP2 and warrant further investigations into the exact mechanisms orchestrating this endocrine axis.

U2 - 10.1016/j.xcrm.2025.101996

DO - 10.1016/j.xcrm.2025.101996

M3 - Journal article

C2 - 40056903

SN - 2666-3791

JO - Cell Reports Medicine

JF - Cell Reports Medicine

M1 - 101996

ER -