N- and C-terminally truncated forms of glucose-dependent insulinotropic polypeptide are high-affinity competitive antagonists of the human GIP receptor

L S Hansen; A H Sparre-Ulrich; M. Christensen; F K Knop; B Hartmann; J J Holst; M M Rosenkilde

doi:10.1111/bph.13384

N- and C-terminally truncated forms of glucose-dependent insulinotropic polypeptide are high-affinity competitive antagonists of the human GIP receptor

L S Hansen, A H Sparre-Ulrich, M. Christensen, F K Knop, B Hartmann, J J Holst, M M Rosenkilde

41 Citations (Scopus)

Abstract

Background and Purpose Glucose-dependent insulinotropic polypeptide (GIP) affects lipid, bone and glucose homeostasis. High-affinity ligands for the GIP receptor are needed to elucidate the physiological functions and pharmacological potential of GIP in vivo. GIP(1-30)NH₂ is a naturally occurring truncation of GIP(1-42). Here, we have characterized eight N-terminal truncations of human GIP(1-30)NH₂. Experimental Approach COS-7 cells were transiently transfected with human GIP receptors and assessed for cAMP accumulation upon ligand stimulation or competition binding with ¹²⁵I-labelled GIP(1-42), GIP(1-30)NH₂, GIP(2-30)NH₂ or GIP(3-30)NH₂. Key Results GIP(1-30)NH₂ displaced ¹²⁵I-GIP(1-42) as effectively as GIP(1-42) (K_i 0.75 nM), whereas the eight truncations displayed lower affinities (K_i 2.3-347 nM) with highest affinities for GIP(3-30)NH₂ and GIP(5-30)NH₂ (5-30)NH₂. Only GIP(1-30)NH₂ (E_max 100% of GIP(1-42)) and GIP(2-30)NH₂ (E_max 20%) were agonists. GIP(2- to 9-30)NH₂ displayed antagonism (IC₅₀ 12-450 nM) and Schild plot analyses identified GIP(3-30)NH₂ and GIP(5-30)NH₂ as competitive antagonists (K_i 15 nM). GIP(3-30) NH₂ was a 26-fold more potent antagonist than GIP(3-42). Binding studies with agonist (¹²⁵I-GIP(1-30)NH₂), partial agonist (¹²⁵I-GIP(2-30)NH₂) and competitive antagonist (¹²⁵I-GIP(3-30)NH₂) revealed distinct receptor conformations for these three ligand classes. Conclusions and Implications The N-terminus is crucial for GIP agonist activity. Removal of the C-terminus of the endogenous GIP(3-42) creates another naturally occurring, more potent, antagonist GIP(3-30)NH₂, which like GIP(5-30)NH₂, was a high-affinity competitive antagonist. These peptides may be suitable tools for basic GIP research and future pharmacological interventions.

Original language	English
Journal	British Journal of Pharmacology
Volume	173
Issue number	5
Pages (from-to)	826-838
Number of pages	13
ISSN	0007-1188
DOIs	https://doi.org/10.1111/bph.13384
Publication status	Published - 1 Mar 2016

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N- and C-terminally truncated forms of glucose-dependent insulinotropic polypeptide are high-affinity competitive antagonists of the human GIP receptor. / Hansen, L S; Sparre-Ulrich, A H; Christensen, M. et al.

In: British Journal of Pharmacology, Vol. 173, No. 5, 01.03.2016, p. 826-838.

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

@article{5043b16ed0954774b9bdb42066678e24,

title = "N- and C-terminally truncated forms of glucose-dependent insulinotropic polypeptide are high-affinity competitive antagonists of the human GIP receptor",

abstract = "Background and Purpose Glucose-dependent insulinotropic polypeptide (GIP) affects lipid, bone and glucose homeostasis. High-affinity ligands for the GIP receptor are needed to elucidate the physiological functions and pharmacological potential of GIP in vivo. GIP(1-30)NH2 is a naturally occurring truncation of GIP(1-42). Here, we have characterized eight N-terminal truncations of human GIP(1-30)NH2. Experimental Approach COS-7 cells were transiently transfected with human GIP receptors and assessed for cAMP accumulation upon ligand stimulation or competition binding with 125I-labelled GIP(1-42), GIP(1-30)NH2, GIP(2-30)NH2 or GIP(3-30)NH2. Key Results GIP(1-30)NH2 displaced 125I-GIP(1-42) as effectively as GIP(1-42) (Ki 0.75 nM), whereas the eight truncations displayed lower affinities (Ki 2.3-347 nM) with highest affinities for GIP(3-30)NH2 and GIP(5-30)NH2 (5-30)NH2. Only GIP(1-30)NH2 (Emax 100% of GIP(1-42)) and GIP(2-30)NH2 (Emax 20%) were agonists. GIP(2- to 9-30)NH2 displayed antagonism (IC50 12-450 nM) and Schild plot analyses identified GIP(3-30)NH2 and GIP(5-30)NH2 as competitive antagonists (Ki 15 nM). GIP(3-30) NH2 was a 26-fold more potent antagonist than GIP(3-42). Binding studies with agonist (125I-GIP(1-30)NH2), partial agonist (125I-GIP(2-30)NH2) and competitive antagonist (125I-GIP(3-30)NH2) revealed distinct receptor conformations for these three ligand classes. Conclusions and Implications The N-terminus is crucial for GIP agonist activity. Removal of the C-terminus of the endogenous GIP(3-42) creates another naturally occurring, more potent, antagonist GIP(3-30)NH2, which like GIP(5-30)NH2, was a high-affinity competitive antagonist. These peptides may be suitable tools for basic GIP research and future pharmacological interventions.",

author = "Hansen, {L S} and Sparre-Ulrich, {A H} and M. Christensen and Knop, {F K} and B Hartmann and Holst, {J J} and Rosenkilde, {M M}",

year = "2016",

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doi = "10.1111/bph.13384",

language = "English",

volume = "173",

pages = "826--838",

journal = "British Journal of Pharmacology",

issn = "0007-1188",

publisher = "Wiley",

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T1 - N- and C-terminally truncated forms of glucose-dependent insulinotropic polypeptide are high-affinity competitive antagonists of the human GIP receptor

AU - Hansen, L S

AU - Sparre-Ulrich, A H

AU - Christensen, M.

AU - Knop, F K

AU - Hartmann, B

AU - Holst, J J

AU - Rosenkilde, M M

PY - 2016/3/1

Y1 - 2016/3/1

N2 - Background and Purpose Glucose-dependent insulinotropic polypeptide (GIP) affects lipid, bone and glucose homeostasis. High-affinity ligands for the GIP receptor are needed to elucidate the physiological functions and pharmacological potential of GIP in vivo. GIP(1-30)NH2 is a naturally occurring truncation of GIP(1-42). Here, we have characterized eight N-terminal truncations of human GIP(1-30)NH2. Experimental Approach COS-7 cells were transiently transfected with human GIP receptors and assessed for cAMP accumulation upon ligand stimulation or competition binding with 125I-labelled GIP(1-42), GIP(1-30)NH2, GIP(2-30)NH2 or GIP(3-30)NH2. Key Results GIP(1-30)NH2 displaced 125I-GIP(1-42) as effectively as GIP(1-42) (Ki 0.75 nM), whereas the eight truncations displayed lower affinities (Ki 2.3-347 nM) with highest affinities for GIP(3-30)NH2 and GIP(5-30)NH2 (5-30)NH2. Only GIP(1-30)NH2 (Emax 100% of GIP(1-42)) and GIP(2-30)NH2 (Emax 20%) were agonists. GIP(2- to 9-30)NH2 displayed antagonism (IC50 12-450 nM) and Schild plot analyses identified GIP(3-30)NH2 and GIP(5-30)NH2 as competitive antagonists (Ki 15 nM). GIP(3-30) NH2 was a 26-fold more potent antagonist than GIP(3-42). Binding studies with agonist (125I-GIP(1-30)NH2), partial agonist (125I-GIP(2-30)NH2) and competitive antagonist (125I-GIP(3-30)NH2) revealed distinct receptor conformations for these three ligand classes. Conclusions and Implications The N-terminus is crucial for GIP agonist activity. Removal of the C-terminus of the endogenous GIP(3-42) creates another naturally occurring, more potent, antagonist GIP(3-30)NH2, which like GIP(5-30)NH2, was a high-affinity competitive antagonist. These peptides may be suitable tools for basic GIP research and future pharmacological interventions.

AB - Background and Purpose Glucose-dependent insulinotropic polypeptide (GIP) affects lipid, bone and glucose homeostasis. High-affinity ligands for the GIP receptor are needed to elucidate the physiological functions and pharmacological potential of GIP in vivo. GIP(1-30)NH2 is a naturally occurring truncation of GIP(1-42). Here, we have characterized eight N-terminal truncations of human GIP(1-30)NH2. Experimental Approach COS-7 cells were transiently transfected with human GIP receptors and assessed for cAMP accumulation upon ligand stimulation or competition binding with 125I-labelled GIP(1-42), GIP(1-30)NH2, GIP(2-30)NH2 or GIP(3-30)NH2. Key Results GIP(1-30)NH2 displaced 125I-GIP(1-42) as effectively as GIP(1-42) (Ki 0.75 nM), whereas the eight truncations displayed lower affinities (Ki 2.3-347 nM) with highest affinities for GIP(3-30)NH2 and GIP(5-30)NH2 (5-30)NH2. Only GIP(1-30)NH2 (Emax 100% of GIP(1-42)) and GIP(2-30)NH2 (Emax 20%) were agonists. GIP(2- to 9-30)NH2 displayed antagonism (IC50 12-450 nM) and Schild plot analyses identified GIP(3-30)NH2 and GIP(5-30)NH2 as competitive antagonists (Ki 15 nM). GIP(3-30) NH2 was a 26-fold more potent antagonist than GIP(3-42). Binding studies with agonist (125I-GIP(1-30)NH2), partial agonist (125I-GIP(2-30)NH2) and competitive antagonist (125I-GIP(3-30)NH2) revealed distinct receptor conformations for these three ligand classes. Conclusions and Implications The N-terminus is crucial for GIP agonist activity. Removal of the C-terminus of the endogenous GIP(3-42) creates another naturally occurring, more potent, antagonist GIP(3-30)NH2, which like GIP(5-30)NH2, was a high-affinity competitive antagonist. These peptides may be suitable tools for basic GIP research and future pharmacological interventions.

U2 - 10.1111/bph.13384

DO - 10.1111/bph.13384

M3 - Journal article

C2 - 26572091

SN - 0007-1188

VL - 173

SP - 826

EP - 838

JO - British Journal of Pharmacology

JF - British Journal of Pharmacology

IS - 5

ER -

N- and C-terminally truncated forms of glucose-dependent insulinotropic polypeptide are high-affinity competitive antagonists of the human GIP receptor

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