Your search keyword '"Kasper, K."' showing total 17 results

1. Peptide Half-Life Extension: Divalent, Small-Molecule Albumin Interactions Direct the Systemic Properties of Glucagon-Like Peptide 1 (GLP-1) Analogues

Author

Knud J. Jensen, Søren Blok van Witteloostuijn, Søren L. Pedersen, Mikkel B. Thygesen, Manuel C. Martos-Maldonado, Jacob Jelsing, Niels Vrang, Kasper K. Sørensen, Pernille Wismann, and Esben M. Bech

Subjects

Blood Glucose, 0301 basic medicine, endocrine system, Indomethacin, Diflunisal, Peptide, 01 natural sciences, Glucagon-Like Peptide-1 Receptor, Divalent, Eating, 03 medical and health sciences, Glucagon-Like Peptide 1, Albumins, Drug Discovery, medicine, Animals, Hypoglycemic Agents, Glucose homeostasis, Receptor, chemistry.chemical_classification, 010405 organic chemistry, digestive, oral, and skin physiology, Albumin, Human serum albumin, Small molecule, 0104 chemical sciences, Mice, Inbred C57BL, 030104 developmental biology, Biochemistry, chemistry, Drug Design, Molecular Medicine, hormones, hormone substitutes, and hormone antagonists, Half-Life, medicine.drug

Abstract

Noncovalent binding of biopharmaceuticals to human serum albumin protects against enzymatic degradation and renal clearance. Herein, we investigated the effect of mono- or divalent small-molecule albumin binders for half-life extension of peptides. For proof-of-principle, the clinically relevant glucagon-like peptide 1 (GLP-1) was functionalized with diflunisal, indomethacin, or both. In vitro, all GLP-1 analogues had subnanomolar GLP-1 receptor potency. Surface plasmon resonance revealed that both small molecules were able to confer albumin affinity to GLP-1 and indicated that affinity is increased for divalent analogues. In lean mice, the divalent GLP-1 analogues were superior to monovalent analogues with respect to control of glucose homeostasis and suppression of food intake. Importantly, divalent GLP-1 analogues showed efficacy comparable to liraglutide, an antidiabetic GLP-1 analogue that carries a long-chain fatty acid. Finally, pharmacokinetic investigations of a divalent GLP-1 analogue demonstrated a promising gain in circulatory half-life and absorption time compared to its monovalent equivalent.

Published

2017

2. Discovery of Potent and Selective Agonists for the Free Fatty Acid Receptor 1 (FFA1/GPR40), a Potential Target for the Treatment of Type II Diabetes

Author

Andreas Spinrath, Christian Urban, Andrew D. Bond, Elisabeth Christiansen, Evi Kostenis, Matthias U. Kassack, Nicole Merten, Alexandra Hamacher, Trond Ulven, Christel Drewke, Susanne Ullrich, Kasper K. Karlsen, and Kathrin Liebscher

Subjects

Models, Molecular, Agonist, medicine.medical_specialty, Time Factors, medicine.drug_class, Carboxylic acid, medicine.medical_treatment, Type 2 diabetes, Crystallography, X-Ray, Receptors, G-Protein-Coupled, Mice, Structure-Activity Relationship, Free fatty acid receptor 1, Diabetes mellitus, Internal medicine, Insulin Secretion, Drug Discovery, medicine, Animals, Humans, Insulin, G protein-coupled receptor, chemistry.chemical_classification, Dose-Response Relationship, Drug, Molecular Structure, Stereoisomerism, medicine.disease, In vitro, Rats, Glucose, Endocrinology, Diabetes Mellitus, Type 2, chemistry, Cinnamates, Molecular Medicine

Abstract

Udgivelsesdato: 2008-Oct-24 A series of 4-phenethynyldihydrocinnamic acid agonists of the free fatty acid receptor 1 (FFA 1) has been discovered and explored. The preferred compound 20 (TUG-424, EC 50 = 32 nM) significantly increased glucose-stimulated insulin secretion at 100 nM and may serve to explore the role of FFA 1 in metabolic diseases such as diabetes or obesity.

Published

2008

3. Peptide Half-Life Extension: Divalent, Small-Molecule Albumin Interactions Direct the Systemic Properties of Glucagon-Like Peptide 1 (GLP-1) Analogues

Author

Bech, Esben M., primary, Martos-Maldonado, Manuel C., additional, Wismann, Pernille, additional, Sørensen, Kasper K., additional, van Witteloostuijn, Søren Blok, additional, Thygesen, Mikkel B., additional, Vrang, Niels, additional, Jelsing, Jacob, additional, Pedersen, Søren L., additional, and Jensen, Knud J., additional

Published

2017

4. Peptide Half-Life Extension: Divalent, Small-Molecule Albumin Interactions Direct the Systemic Properties of Glucagon-Like Peptide 1 (GLP-1) Analogues

Author

Bech, Esben M., Martos-Maldonado, Manuel C., Wismann, Pernille, Sørensen, Kasper K., van Witteloostuijn, Søren Blok, Thygesen, Mikkel B., Vrang, Niels, Jelsing, Jacob, Pedersen, Søren L., and Jensen, Knud J.

Abstract

Noncovalent binding of biopharmaceuticals to human serum albumin protects against enzymatic degradation and renal clearance. Herein, we investigated the effect of mono- or divalent small-molecule albumin binders for half-life extension of peptides. For proof-of-principle, the clinically relevant glucagon-like peptide 1 (GLP-1) was functionalized with diflunisal, indomethacin, or both. In vitro, all GLP-1 analogues had subnanomolar GLP-1 receptor potency. Surface plasmon resonance revealed that both small molecules were able to confer albumin affinity to GLP-1 and indicated that affinity is increased for divalent analogues. In lean mice, the divalent GLP-1 analogues were superior to monovalent analogues with respect to control of glucose homeostasis and suppression of food intake. Importantly, divalent GLP-1 analogues showed efficacy comparable to liraglutide, an antidiabetic GLP-1 analogue that carries a long-chain fatty acid. Finally, pharmacokinetic investigations of a divalent GLP-1 analogue demonstrated a promising gain in circulatory half-life and absorption time compared to its monovalent equivalent.

Published

2024

5. Discovery of Potent and Selective Agonists for the Free Fatty Acid Receptor 1 (FFA1/GPR40), a Potential Target for the Treatment of Type II Diabetes

Author

Christiansen, Elisabeth, primary, Urban, Christian, additional, Merten, Nicole, additional, Liebscher, Kathrin, additional, Karlsen, Kasper K., additional, Hamacher, Alexandra, additional, Spinrath, Andreas, additional, Bond, Andrew D., additional, Drewke, Christel, additional, Ullrich, Susanne, additional, Kassack, Matthias U., additional, Kostenis, Evi, additional, and Ulven, Trond, additional

Published

2008

6. Discovery of Potent and Selective Agonists for the Free Fatty Acid Receptor 1 (FFA1/GPR40), a Potential Target for the Treatment of Type II Diabetes.

Author

Elisabeth Christiansen, Christian Urban, Nicole Merten, Kathrin Liebscher, Kasper K. Karlsen, Alexandra Hamacher, Andreas Spinrath, Andrew D. Bond, Christel Drewke, Susanne Ullrich, Matthias U. Kassack, Evi Kostenis, and Trond Ulven

Published

2008

7. Development of Zalfermin, a Long-Acting Proteolytically Stabilized FGF21 Analog.

Author

Sass-Ørum K, Tagmose TM, Olsen J, Sjölander A, Wahlund PO, Han D, Vegge A, Reedtz-Runge S, Wang Z, Gao X, Wieczorek B, Lamberth K, Lykkegaard K, Nielsen PK, Thøgersen H, Yu M, Wang J, Drustrup J, Zhang X, Garibay P, Hansen K, Hansen AMK, and Andersen B

Subjects

Animals, Mice, Humans, Male, Proteolysis drug effects, Mice, Obese, Mice, Inbred C57BL, Obesity drug therapy, Obesity metabolism, Fibroblast Growth Factors metabolism, Macaca fascicularis

Abstract

Here, we describe the development of the FGF21 analog zalfermin (NNC0194-0499, 15 ), intended for once-weekly sc dosing. Protein engineering was needed to address inherent druggability issues of the natural FGF21 hormone. Thus, deamidation of Asp121 was solved by mutation to glutamine, and oxidation of Met168 was solved by mutation to leucine. N-terminal region degradation by dipeptidyl peptidase IV was prevented by alanine residue elongation. To prevent inactivating metabolism by fibroblast activation protein and carboxypeptidase-like activity in the C-terminal region, and to achieve t 1/2 extension (53 h in cynomolgus monkeys), we introduced a C18 fatty diacid at the penultimate position 180. The fatty diacid binds albumin in a reversible manner, such that the free fraction of zalfermin potently activates the FGF-receptor complex and retains receptor selectivity compared with FGF21, providing strong efficacy on body weight loss in diet-induced obese mice. Zalfermin is currently being clinically evaluated for the treatment of metabolic dysfunction-associated steatohepatitis.

Published

2024

8. Comprehensive Peptide Cyclization Examination Yields Optimized APP Scaffolds with Improved Affinity toward Mint2.

Author

Bartling CRO, Alexopoulou F, Kuschert S, Chin YK, Jia X, Sereikaite V, Özcelik D, Jensen TM, Jain P, Nygaard MM, Harpsøe K, Gloriam DE, Mobli M, and Strømgaard K

Subjects

Cyclization, Protein Structure, Secondary, Protein Binding, Phosphotyrosine chemistry, Peptides, Cyclic chemistry, Amyloid beta-Protein Precursor chemistry

Abstract

Peptides targeting disease-relevant protein-protein interactions are an attractive class of therapeutics covering the otherwise undruggable space between small molecules and therapeutic proteins. However, peptides generally suffer from poor metabolic stability and low membrane permeability. Hence, peptide cyclization has become a valuable approach to develop linear peptide motifs into metabolically stable and potentially cell-permeable cyclic leads. Furthermore, cyclization of side chains, also known as "stapling", can stabilize particular secondary peptide structures. Here, we demonstrate that a comprehensive examination of cyclization strategies in terms of position, chemistry, and length is a prerequisite for the selection of optimal cyclic peptide scaffolds. Our systematic approach identifies cyclic APP dodecamer peptides targeting the phosphotyrosine binding domain of Mint2 with substantially improved affinity. We show that especially all-hydrocarbon stapling provides improved metabolic stability, a significantly stabilized secondary structure and membrane permeability.

Published

2023

9. Discovery of β-Arrestin-Biased 25CN-NBOH-Derived 5-HT 2A Receptor Agonists.

Author

Poulie CBM, Pottie E, Simon IA, Harpsøe K, D'Andrea L, Komarov IV, Gloriam DE, Jensen AA, Stove CP, and Kristensen JL

Subjects

Receptor, Serotonin, 5-HT2A, Serotonin, Serotonin 5-HT2 Receptor Agonists pharmacology, beta-Arrestins, Hallucinogens pharmacology, Lysergic Acid Diethylamide pharmacology

Abstract

The serotonin 2A receptor (5-HT 2A R) is the mediator of the psychedelic effects of serotonergic psychedelics, which have shown promising results in clinical studies for several neuropsychiatric indications. The 5-HT 2A R is able to signal through the Gα q and β-arrestin effector proteins, but it is currently not known how the different signaling pathways contribute to the therapeutic effects mediated by serotonergic psychedelics. In the present work, we have evaluated the subtype-selective 5-HT 2A R agonist 25CN-NBOH and a series of close analogues for biased signaling at this receptor. These ligands were designed to evaluate the role of interactions with Ser159 3×36 . The lack of interaction between this hydroxyl moiety and Ser159 3×36 resulted in detrimental effects on potency and efficacy in both βarr2 and miniGα q recruitment assays. Remarkably, Gα q -mediated signaling was considerably more affected. This led to the development of the first efficacious βarr2-biased 5-HT 2A R agonists 4a-b and 6e-f , βarr2 preferring, relative to lysergic acid diethylamide (LSD).

Published

2022

10. Structure-Activity Studies of 3,9-Diazaspiro[5.5]undecane-Based γ-Aminobutyric Acid Type A Receptor Antagonists with Immunomodulatory Effect.

Author

Bavo F, de-Jong H, Petersen J, Falk-Petersen CB, Löffler R, Sparrow E, Rostrup F, Eliasen JN, Wilhelmsen KS, Barslund K, Bundgaard C, Nielsen B, Kristiansen U, Wellendorph P, Bogdanov Y, and Frølund B

Subjects

Adjuvants, Immunologic chemistry, Alkanes chemistry, Cell Proliferation drug effects, GABA Antagonists chemistry, Humans, Structure-Activity Relationship, T-Lymphocytes cytology, T-Lymphocytes drug effects, Adjuvants, Immunologic pharmacology, Alkanes pharmacology, GABA Antagonists pharmacology, Receptors, GABA-A drug effects

Abstract

The 3,9-diazaspiro[5.5]undecane-based compounds 2027 and 018 have previously been reported to be potent competitive γ-aminobutyric acid type A receptor (GABA A R) antagonists showing low cellular membrane permeability. Given the emerging peripheral application of GABA A R ligands, we hypothesize 2027 analogs as promising lead structures for peripheral GABA A R inhibition. We herein report a study on the structural determinants of 2027 in order to suggest a potential binding mode as a basis for rational design. The study identified the importance of the spirocyclic benzamide, compensating for the conventional acidic moiety, for GABA A R ligands. The structurally simplified m -methylphenyl analog 1e displayed binding affinity in the high-nanomolar range ( K i = 180 nM) and was superior to 2027 and 018 regarding selectivity for the extrasynaptic α 4 βδ subtype versus the α 1 - and α 2 - containing subtypes. Importantly, 1e was shown to efficiently rescue inhibition of T cell proliferation, providing a platform to explore the immunomodulatory potential for this class of compounds.

Published

2021

11. Structural Determinants for the Mode of Action of Imidazopyridine DS2 at δ-Containing γ-Aminobutyric Acid Type A Receptors.

Author

Rostrup F, Falk-Petersen CB, Harpso E K, Buchleithner S, Conforti I, Jung S, Gloriam DE, Schirmeister T, Wellendorph P, and Fro Lund B

Subjects

Allosteric Regulation, Binding Sites, Drug Design, HEK293 Cells, Humans, Ligands, Molecular Docking Simulation, Protein Subunits chemistry, Protein Subunits metabolism, Pyridines metabolism, Receptors, GABA-A chemistry, Structure-Activity Relationship, Pyridines chemistry, Receptors, GABA-A metabolism

Abstract

Despite the therapeutic relevance of δ-containing γ-aminobutyric acid type A receptors (GABA A Rs) and the need for δ-selective compounds, the structural determinants for the mode and molecular site of action of δ-selective positive allosteric modulator imidazo[1,2-a]pyridine DS2 remain elusive. To guide the quest for insight, we synthesized a series of DS2 analogues guided by a structural receptor model. Using a fluorescence-based fluorometric imaging plate reader membrane potential assay, we found that the δ-selectivity and the pharmacological profile are severely affected by substituents in the 5-position of the imidazopyridine core scaffold. Interestingly, the 5-methyl, 5-bromo, and 5-chloro DS2 analogues, 30 , 35, and 36, were shown to be superior to DS2 at α4β1δ as mid-high nanomolar potency δ-selective allosteric modulators, displaying 6-16 times higher potency than DS2. Of these, 30 also displayed at least 60-fold selectivity for α4β1δ over α4β1γ2 receptor subtypes representing a potential tool for the selective characterization of δ-containing GABA A Rs in general.

Published

2021

12. Five-Membered N-Heterocyclic Scaffolds as Novel Amino Bioisosteres at γ-Aminobutyric Acid (GABA) Type A Receptors and GABA Transporters.

Author

Giraudo A, Krall J, Bavo F, Nielsen B, Kongstad KT, Rolando B, De Blasio R, Gloriam DE, Löffler R, Thiesen L, Harpsøe K, Frydenvang K, Boschi D, Wellendorph P, Lolli ML, Jensen AA, and Frølund B

Subjects

GABA Plasma Membrane Transport Proteins chemistry, Humans, Molecular Docking Simulation, Protein Conformation, Receptors, GABA-A chemistry, Stereoisomerism, Structure-Activity Relationship, gamma-Aminobutyric Acid metabolism, GABA Plasma Membrane Transport Proteins metabolism, Heterocyclic Compounds chemistry, Nitrogen chemistry, Receptors, GABA-A metabolism, gamma-Aminobutyric Acid chemistry, gamma-Aminobutyric Acid pharmacology

Abstract

Given the heterogeneity within the γ-aminobutyric acid (GABA) receptor and transporter families, a detailed insight into the pharmacology is still relatively sparse. To enable studies of the physiological roles governed by specific receptor and transporter subtypes, a series of GABA analogues comprising five-membered nitrogen- and sulfur-containing heterocycles as amine bioisosteres were synthesized and pharmacologically characterized at native and selected recombinant GABA A receptors and GABA transporters. The dihydrothiazole and imidazoline analogues, 5-7, displayed moderate GAT activities and GABA A receptor binding affinities in the mid-nanomolar range ( K i , 90-450 nM). Moreover, they exhibited full and equipotent agonist activity compared to GABA at GABA A -αβγ receptors but somewhat lower potency as partial agonists at the GABA A -ρ 1 receptor. Stereoselectivity was observed for compounds 4 and 7 for the GABA A -αβγ receptors but not the GABA A -ρ 1 receptor. This study illustrates how subtle differences in these novel amino GABA bioisosteres result in diverse pharmacological profiles in terms of selectivity and efficacy.

Published

2019

13. Discovery of 2-(Imidazo[1,2- b]pyridazin-2-yl)acetic Acid as a New Class of Ligands Selective for the γ-Hydroxybutyric Acid (GHB) High-Affinity Binding Sites.

Author

Krall J, Bavo F, Falk-Petersen CB, Jensen CH, Nielsen JO, Tian Y, Anglani V, Kongstad KT, Piilgaard L, Nielsen B, Gloriam DE, Kehler J, Jensen AA, Harpsøe K, Wellendorph P, and Frølund B

Subjects

Animals, Binding Sites, Ligands, Male, Mice, Mice, Inbred C57BL, Pyridazines chemistry, Rats, Rats, Sprague-Dawley, Structure-Activity Relationship, Acetic Acid chemistry, Drug Discovery, Hydroxybutyrates metabolism, Imidazoles chemistry, Pyridazines pharmacology

Abstract

Gabazine, a γ-aminobutyric acid type A (GABA A ) receptor antagonist, has previously been reported to inhibit the binding of [ 3 H]NCS-382, a representative ligand of the high-affinity binding site for the neuroactive substance γ-hydroxybutyric acid (GHB). We herein report a study on the structural determinants of gabazine for binding to (i) the orthosteric binding site of the GABA A receptor and (ii) the high-affinity GHB binding site. Expanding the structural diversity of available ligands for the high-affinity GHB binding sites, this study identified 2-(imidazo[1,2- b]pyridazin-2-yl)acetic acid as a novel ligand-scaffold leading to analogues with relatively high affinity ( K i 0.19-2.19 μM) and >50 times selectivity for the [ 3 H]NCS-382 over [ 3 H]muscimol binding sites. These results highlight that gabazine interacts with the high-affinity GHB and orthosteric GABA A receptor binding sites differently and that distinct analogues can be generated to select between them. To facilitate further in vivo studies, a promising prodrug candidate for brain delivery was identified.

Published

2019

14. Structure-Activity Relationships and Characterization of Highly Selective, Long-Acting, Peptide-Based Cholecystokinin 1 Receptor Agonists.

Author

Sensfuss U, Kruse T, Skyggebjerg RB, Uldam HK, Vestergaard B, Huus K, Vinther TN, Reinau ME, Schéele S, and Clausen TR

Subjects

Animals, Anti-Obesity Agents chemical synthesis, Anti-Obesity Agents pharmacokinetics, Female, Humans, Molecular Structure, Sincalide pharmacokinetics, Structure-Activity Relationship, Swine, Anti-Obesity Agents therapeutic use, Obesity drug therapy, Receptors, Cholecystokinin agonists, Sincalide analogs & derivatives, Sincalide therapeutic use

Abstract

A group of peptide-based, long-acting, stable, highly selective cholecystokinin 1 receptor (CCK-1R) agonists with the potential to treat obesity has been identified and characterized, based on systematic investigation of synthetic CCK-8 analogues with N-terminal linkage to fatty acids. Sulfated Tyr in such compounds was stable in neutral buffer. CCK-1R selectivity was achieved mostly by introducing d- N-methyl-Asp instead of Asp at the penultimate position of CCK-8. Our compound 9 (NN9056) showed similar in vitro CCK-1R potency and CCK-1R affinity as CCK-8, very high selectivity for CCK-1R over the cholecystokinin 2 receptor (CCK-2R), strong reduction of food intake in lean pigs for up to 48 h after one subcutaneous injection without adverse effects, a plasma half-life of 113 h in minipigs after intravenous injection, and acceptable chemical stability in a neutral liquid formulation. In addition, we found a highly selective CCK-2R agonist by replacing Gly in a CCK-8 derivative with Glu.

Published

2019

15. Molecular Hybridization of Potent and Selective γ-Hydroxybutyric Acid (GHB) Ligands: Design, Synthesis, Binding Studies, and Molecular Modeling of Novel 3-Hydroxycyclopent-1-enecarboxylic Acid (HOCPCA) and trans-γ-Hydroxycrotonic Acid (T-HCA) Analogs.

Author

Krall J, Jensen CH, Bavo F, Falk-Petersen CB, Haugaard AS, Vogensen SB, Tian Y, Nittegaard-Nielsen M, Sigurdardóttir SB, Kehler J, Kongstad KT, Gloriam DE, Clausen RP, Harpsøe K, Wellendorph P, and Frølund B

Subjects

Binding Sites, Carboxylic Acids chemical synthesis, Carboxylic Acids metabolism, Crotonates chemical synthesis, Crotonates metabolism, Cyclopentanes chemical synthesis, Cyclopentanes metabolism, Drug Design, Ligands, Molecular Conformation, Structure-Activity Relationship, Carboxylic Acids chemistry, Crotonates chemistry, Cyclopentanes chemistry, Hydroxybutyrates chemistry, Models, Molecular

Abstract

γ-Hydroxybutyric acid (GHB) is a neuroactive substance with specific high-affinity binding sites. To facilitate target identification and ligand optimization, we herein report a comprehensive structure-affinity relationship study for novel ligands targeting these binding sites. A molecular hybridization strategy was used based on the conformationally restricted 3-hydroxycyclopent-1-enecarboxylic acid (HOCPCA) and the linear GHB analog trans-4-hydroxycrotonic acid (T-HCA). In general, all structural modifications performed on HOCPCA led to reduced affinity. In contrast, introduction of diaromatic substituents into the 4-position of T-HCA led to high-affinity analogs (medium nanomolar K i ) for the GHB high-affinity binding sites as the most high-affinity analogs reported to date. The SAR data formed the basis for a three-dimensional pharmacophore model for GHB ligands, which identified molecular features important for high-affinity binding, with high predictive validity. These findings will be valuable in the further processes of both target characterization and ligand identification for the high-affinity GHB binding sites.

Published

2017

16. Complementary three-dimensional quantitative structure-activity relationship modeling of binding affinity and functional potency: a study on alpha4beta2 nicotinic ligands.

Author

Tosco P, Ahring PK, Dyhring T, Peters D, Harpsøe K, Liljefors T, and Balle T

Subjects

Binding Sites, Calcium metabolism, Cell Line, Drug Partial Agonism, Humans, Ligands, Molecular Conformation, Nicotine metabolism, Nicotinic Agonists chemistry, Nicotinic Agonists metabolism, Pyridines chemistry, Pyridines metabolism, Pyridines pharmacology, Models, Molecular, Nicotinic Agonists pharmacology, Quantitative Structure-Activity Relationship, Receptors, Nicotinic metabolism

Abstract

Complementary 3D-QSAR modeling of binding affinity and functional potency is proposed as a tool to pinpoint the molecular features of the ligands, and the corresponding amino acids in the receptor, responsible for high affinity binding vs those driving agonist behavior and receptor activation. This approach proved successful on a series of nicotinic alpha(4)beta(2) ligands, whose partial/full agonist profile could be linked to the size of the scaffold as well as to the nature of the substituents.

Published

2009

17. Synthesis and cerebral uptake of 1-(1-[(11)C]methyl-1H-pyrrol-2-yl)-2-phenyl-2-(1-pyrrolidinyl)ethanone, a novel tracer for positron emission tomography studies of monoamine oxidase type A.

Author

Jensen SB, Di Santo R, Olsen AK, Pedersen K, Costi R, Cirilli R, and Cumming P

Subjects

Animals, Binding Sites, Brain diagnostic imaging, Brain drug effects, Brain metabolism, Cerebral Cortex drug effects, Female, Molecular Structure, Monoamine Oxidase drug effects, Monoamine Oxidase metabolism, Pyrroles metabolism, Pyrrolidines metabolism, Stereoisomerism, Swine, Tissue Distribution, Cerebral Cortex metabolism, Monoamine Oxidase chemistry, Positron-Emission Tomography, Pyrroles chemical synthesis, Pyrroles pharmacokinetics, Pyrrolidines chemical synthesis, Pyrrolidines pharmacokinetics

Abstract

( R)-(-)- and ( S)-(+)-1-(1-[ (11)C]methyl-1 H-pyrrol-2-yl)-2-phenyl-2-(1-pyrrolidinyl)ethanone 4 and 5 were synthesized, and their properties as tracers for positron emission tomography (PET) studies of monoamine oxidase type A (MAO-A) in the brain of living pigs were tested. Parametric maps of the distribution volume ( V d) 4 in pig brain were qualitatively similar to those obtained with [ (11)C]harmine, with prominent binding in the ventral forebrain and mesencephalon. Its binding was highly vulnerable to MAO blockade, suggesting a binding potential as high as 2 for MAO-A sites. The slow plasma metabolism of 4 and 5 may present advantages over [ (11)C]harmine for routine PET studies of MAO-A.

Published

2008