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Your search keyword '"Michael S. Poslusney"' showing total 14 results
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14 results on '"Michael S. Poslusney"'

1. Novel M4 positive allosteric modulators derived from questioning the role and impact of a presumed intramolecular hydrogen-bonding motif in β-amino carboxamide-harboring ligands

Author

Michael S. Poslusney, Alice L. Rodriguez, P. Jeffrey Conn, Craig W. Lindsley, Colleen M. Niswender, Vincent B. Luscombe, Darren W. Engers, Thomas M. Bridges, Katrina A. Bollinger, Michael R. Wood, Bruce J. Melancon, and James M. Salovich

Subjects
Bicyclic molecule, 010405 organic chemistry, Hydrogen bond, Chemistry, Stereochemistry, medicine.drug_class, Organic Chemistry, Clinical Biochemistry, Allosteric regulation, Pharmaceutical Science, Carboxamide, Pyrazole, 01 natural sciences, Biochemistry, First generation, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, chemistry.chemical_compound, Intramolecular force, Drug Discovery, medicine, Molecular Medicine, Moiety, Molecular Biology
Abstract

This letter describes a focused exercise to explore the role of the β-amino carboxamide moiety found in all of the first generation M4 PAMs and question if the NH2 group served solely to stabilize an intramolecular hydrogen bond (IMHB) and enforce planarity. To address this issue (and to potentially find a substitute for the β-amino carboxamide that engendered P-gp and contributed to solubility liabilities), we removed the NH2, generating des-amino congeners and surveyed other functional groups in the β-position. These modifications led to weak M4 PAMs with poor DMPK properties. Cyclization of the β-amino carboxamide moiety by virtue of a pyrazole ring re-enforced the IMHB, led to potent (and patented) M4 PAMs, many as potent as the classical bicyclic β-amino carboxamide analogs, but with significant CYP1A2 inhibition. Overall, this exercise indicated that the β-amino carboxamide moiety most likely facilitates an IMHB, and is essential for M4 PAM activity within classical bicyclic M4 PAM scaffolds.

Published
2019

2. Optimization of 8-Hydroxyquinolines as Inhibitors of Catechol O-Methyltransferase

Author

Martyn D. Wood, Anna Kolobova, Florence Moureau, Glen Ernst, Daniel Akuma, Ingrid P. Buchler, Florian Montel, James C. Barrow, Huijun Wei, Dominique Swinnen, Gregory V. Carr, Michael S. Poslusney, Emilie Jigorel, Vinh Au, Pablo De León, Michael DePasquale, Martha Kimos, Monika Sarah E.D. Schulze, and Yifang Huang

Subjects
Male, Models, Molecular, 0301 basic medicine, Protein Conformation, Stereochemistry, Catechol O-Methyltransferase, Article, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Dopamine, Drug Discovery, medicine, Animals, Tissue Distribution, Chelation, chemistry.chemical_classification, Catechol, Catechol-O-methyl transferase, biology, Quinoline, Brain, Catechol O-Methyltransferase Inhibitors, Active site, Oxyquinoline, Rats, 030104 developmental biology, Enzyme, chemistry, Drug Design, biology.protein, Molecular Medicine, Hydroxyquinolines, 030217 neurology & neurosurgery, medicine.drug
Abstract

A series of 8-hydroxy quinolines were identified as potent inhibitors of catechol O-methyltransferase (COMT) with selectivity for the membrane-bound form of the enzyme. Small substituents at the 7-position of the quinoline were found to increase metabolic stability without sacrificing potency. Compounds with good pharmacokinetics and brain penetration were identified and demonstrated in vivo modulation of dopamine metabolites in the brain. An X-ray co-crystal structure of compound 21 in the S-COMT active site shows chelation of the active site magnesium similar to catechol-based inhibitors. These compounds should prove useful for treatment of many neurological and psychiatric conditions associated with compromised cortical dopamine signaling.

Published
2018

3. Challenges in the development of an M 4 PAM in vivo tool compound: The discovery of VU0467154 and unexpected DMPK profiles of close analogs

Author

Michael R. Wood, Mark E. Duggan, Sichen Chang, Nicholas J. Brandon, Hyekyung P. Cho, James C. Tarr, Michael S. Poslusney, Michael Bubser, Atin Lamsal, Vincent B. Luscombe, Meredith J. Noetzel, Colleen M. Niswender, Rebecca L. Weiner, Craig W. Lindsley, P. Jeffrey Conn, Bruce J. Melancon, Darren W. Engers, Thomas M. Bridges, Carrie K. Jones, and Michael W. Wood

Subjects
0301 basic medicine, Allosteric modulator, Stereochemistry, Clinical Biochemistry, Allosteric regulation, Pharmaceutical Science, Nucleoside Transport Proteins, Thiophenes, Computational biology, Ligands, Biochemistry, Article, Cns penetration, Rats, Sprague-Dawley, Structure-Activity Relationship, 03 medical and health sciences, 0302 clinical medicine, In vivo, Drug Discovery, Animals, Humans, Molecular Biology, Receptor, Muscarinic M4, Chemistry, Organic Chemistry, Pyridazines, 030104 developmental biology, Molecular Medicine, 030217 neurology & neurosurgery
Abstract

This letter describes the chemical optimization of a novel series of M4 positive allosteric modulators (PAMs) based on a 5-amino-thieno[2,3-c]pyridazine core, developed via iterative parallel synthesis, and culminating in the highly utilized rodent in vivo tool compound, VU0467154 (5). This is the first report of the optimization campaign (SAR and DMPK profiling) that led to the discovery of VU0467154, and details all of the challenges faced in allosteric modulator programs (steep SAR, species differences in PAM pharmacology and subtle structural changes affecting CNS penetration).

Published
2017

4. Discovery of VU0467485/AZ13713945: An M4 PAM Evaluated as a Preclinical Candidate for the Treatment of Schizophrenia

Author

Mark E. Duggan, Michael W. Wood, Michael R. Wood, Craig W. Lindsley, Vincent B. Luscombe, Miguel A. Hurtado, Bruce J. Melancon, Alice L. Rodriguez, Thomas M. Bridges, Atin Lamsal, Michael Bubser, Anna L. Blobaum, Carrie K. Jones, Meredith J. Noetzel, Darren W. Engers, Sichen Chang, Michael S. Poslusney, P. Jeffrey Conn, Rebecca L. Weiner, Nicholas J. Brandon, Kellie D. Nance, and Colleen M. Niswender

Subjects
0301 basic medicine, Chemistry, Organic Chemistry, Allosteric regulation, Pharmacology, medicine.disease, Biochemistry, In vitro, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, In vivo, Schizophrenia, Drug Discovery, Muscarinic acetylcholine receptor, medicine, Potency, 030217 neurology & neurosurgery
Abstract

Herein, we report the structure–activity relationships within a series of potent, selective, and orally bioavailable muscarinic acetylcholine receptor 4 (M4) positive allosteric modulators (PAMs). Compound 6c (VU0467485) possesses robust in vitro M4 PAM potency across species and in vivo efficacy in preclinical models of schizophrenia. Coupled with an attractive DMPK profile and suitable predicted human PK, 6c (VU0467485) was evaluated as a preclinical development candidate.

Published
2016

5. Synthesis and Evaluation of Bicyclic Hydroxypyridones as Inhibitors of Catechol

Author

Ingrid P. Buchler, Noelle White, Florian Montel, Florence Moureau, Gregory V. Carr, Thierry Demaude, Véronique Durieu, Daniel Akuma, James C. Barrow, Pablo De León, Martyn D. Wood, Nathalie Van houtvin, Vinh Au, Huijun Wei, Marie Christine Vandergeten, Emilie Jigorel, Yifang Huang, Dominique Swinnen, Anna Kolobova, Michael S. Poslusney, Martha Kimos, Glen Ernst, Michael DePasquale, Spencer Byers, and Sabine Defays

Subjects
Letter, enzyme inhibitors, dopamine metabolism, 01 natural sciences, Biochemistry, chemistry.chemical_compound, Pharmacokinetics, Dopamine, Drug Discovery, Tissue binding, medicine, catechol mimic, Catechol, Catechol O-methyl transferase, Catechol-O-methyl transferase, Bicyclic molecule, 010405 organic chemistry, Chemistry, Organic Chemistry, 0104 chemical sciences, 3. Good health, 010404 medicinal & biomolecular chemistry, Unbound drug, Free fraction, medicine.drug
Abstract

A series of bicyclic pyridones were identified as potent inhibitors of catechol O-methyltransferase (COMT). Substituted benzyl groups attached to the basic nitrogen of the core scaffold gave the most potent inhibitors within this series. Rat pharmacokinetic studies showed medium to high levels of clearance for this series, but with high free fraction due to remarkably low levels of protein and tissue binding. In rat biomarker studies, levels of unbound drug exposure are seen in the brain, which exceed their respective IC50s, leading to changes in the levels of dopamine metabolites in a manner consistent with COMT inhibition.

Published
2019

6. Novel M

Author

Michael S, Poslusney, James M, Salovich, Michael R, Wood, Bruce J, Melancon, Katrina A, Bollinger, Vincent B, Luscombe, Alice L, Rodriguez, Darren W, Engers, Thomas M, Bridges, Colleen M, Niswender, P Jeffrey, Conn, and Craig W, Lindsley

Subjects
Structure-Activity Relationship, Allosteric Regulation, Dose-Response Relationship, Drug, Molecular Structure, Receptor, Muscarinic M4, Humans, Hydrogen Bonding, Ligands, Amides, Article
Abstract

This letter describes a focused exercise to explore the role of the β-amino carboxamide moiety found in all of the first generation M(4) PAMs and question if the NH(2) group served solely to stabilize an intramolecular hydrogen bond (IMHB) and enforce planarity. To address this issue (and to potentially find a substitute for the β-amino carboxamide that engendered P-gp and contributed to solubility liabilities), we removed the NH(2), generating des-amino congeners and surveyed other functional groups in the β-position. These modifications led to weak M(4) PAMs with poor DMPK properties. Cyclization of the β-amino carboxamide moiety by virtue of a pyrazole ring re-enforced the IMHB, led to potent (and patented) M(4) PAMs, many as potent as the classical bicyclic β-amino carboxamide analogs, but with significant CYP1A2 inhibition. Overall, this exercise indicated that the β-amino carboxamide moiety most likely facilitates an IMHB, and is essential for M(4) PAM activity within classical bicyclic M(4) PAM scaffolds.

Published
2018

7. Synthesis and Evaluation of Heterocyclic Catechol Mimics as Inhibitors of Catechol-O-methyltransferase (COMT)

Author

Zhijian Zhao, Nathan R. Kett, Sujata Sharma, James C. Barrow, Robert F. Smith, Jeffrey W. Schubert, Nancy A. Sachs, Scott E. Wolkenberg, Ronald G. Robinson, Jeffrey Y. Melamed, Michael S. Poslusney, James Mulhearn, Pete H. Hutson, Scott T. Harrison, Dawn L. Hall, John M. Sanders, Timothy J. Allison, and Sangita B. Patel

Subjects
chemistry.chemical_classification, Catechol, Catechol-O-methyl transferase, biology, Tolcapone, Chemistry, Stereochemistry, Organic Chemistry, Biochemistry, Cocrystal, Cofactor, chemistry.chemical_compound, Enzyme, Drug Discovery, biology.protein, medicine, Entacapone, Toxicity profile, medicine.drug
Abstract

3-Hydroxy-4-pyridinones and 5-hydroxy-4-pyrimidinones were identified as inhibitors of catechol-O-methyltransferase (COMT) in a high-throughput screen. These heterocyclic catechol mimics exhibit potent inhibition of the enzyme and an improved toxicity profile versus the marketed nitrocatechol inhibitors tolcapone and entacapone. Optimization of the series was aided by X-ray cocrystal structures of the novel inhibitors in complex with COMT and cofactors SAM and Mg(2+). The crystal structures suggest a mechanism of inhibition for these heterocyclic inhibitors distinct from previously disclosed COMT inhibitors.

Published
2015

8. Selective Activation of M4 Muscarinic Acetylcholine Receptors Reverses MK-801-Induced Behavioral Impairments and Enhances Associative Learning in Rodents

Author

Colleen M. Niswender, Carrie K. Jones, Michael R. Wood, Craig W. Lindsley, Frank W. Byers, Atin Lamsal, Bruce J. Melancon, Nicholas J. Brandon, John Dunlop, Mark E. Duggan, P. Jeffrey Conn, Ditte Dencker, James C. Tarr, Thomas M. Bridges, Michael S. Poslusney, J. Scott Daniels, Meredith J. Noetzel, Michael Grannan, Michael W. Wood, Robert W. Gould, Michael Bubser, and Jürgen Wess

Subjects
Male, Allosteric modulator, Physiology, Cognitive Neuroscience, Cholinergic Agents, Thiophenes, Motor Activity, Pharmacology, VU0467154, Biochemistry, Cell Line, Rats, Sprague-Dawley, Cricetulus, Dogs, Neurochemical, Muscarinic acetylcholine receptor, medicine, Animals, Humans, Fear conditioning, Amphetamine, Mice, Knockout, MK-801, Psychotropic Drugs, Dose-Response Relationship, Drug, Receptor, Muscarinic M4, Amphetamines, Association Learning, Brain, Cell Biology, General Medicine, antipsychotic, Rats, Associative learning, Mice, Inbred C57BL, Pyridazines, Macaca fascicularis, M4 muscarinic, Cholinergic, NMDA receptor, Central Nervous System Stimulants, Dizocilpine Maleate, cognitive enhancement, Psychology, Excitatory Amino Acid Antagonists, Neuroscience, Research Article, medicine.drug
Abstract

Positive allosteric modulators (PAMs) of the M4 muscarinic acetylcholine receptor (mAChR) represent a novel approach for the treatment of psychotic symptoms associated with schizophrenia and other neuropsychiatric disorders. We recently reported that the selective M4 PAM VU0152100 produced an antipsychotic drug-like profile in rodents after amphetamine challenge. Previous studies suggest that enhanced cholinergic activity may also improve cognitive function and reverse deficits observed with reduced signaling through the N-methyl-d-aspartate subtype of the glutamate receptor (NMDAR) in the central nervous system. Prior to this study, the M1 mAChR subtype was viewed as the primary candidate for these actions relative to the other mAChR subtypes. Here we describe the discovery of a novel M4 PAM, VU0467154, with enhanced in vitro potency and improved pharmacokinetic properties relative to other M4 PAMs, enabling a more extensive characterization of M4 actions in rodent models. We used VU0467154 to test the hypothesis that selective potentiation of M4 receptor signaling could ameliorate the behavioral, cognitive, and neurochemical impairments induced by the noncompetitive NMDAR antagonist MK-801. VU0467154 produced a robust dose-dependent reversal of MK-801-induced hyperlocomotion and deficits in preclinical models of associative learning and memory functions, including the touchscreen pairwise visual discrimination task in wild-type mice, but failed to reverse these stimulant-induced deficits in M4 KO mice. VU0467154 also enhanced the acquisition of both contextual and cue-mediated fear conditioning when administered alone in wild-type mice. These novel findings suggest that M4 PAMs may provide a strategy for addressing the more complex affective and cognitive disruptions associated with schizophrenia and other neuropsychiatric disorders.

Published
2014

9. Discovery of VU0467485/AZ13713945: An M

Author

Michael R, Wood, Meredith J, Noetzel, Bruce J, Melancon, Michael S, Poslusney, Kellie D, Nance, Miguel A, Hurtado, Vincent B, Luscombe, Rebecca L, Weiner, Alice L, Rodriguez, Atin, Lamsal, Sichen, Chang, Michael, Bubser, Anna L, Blobaum, Darren W, Engers, Colleen M, Niswender, Carrie K, Jones, Nicholas J, Brandon, Michael W, Wood, Mark E, Duggan, P Jeffrey, Conn, Thomas M, Bridges, and Craig W, Lindsley

Abstract

Herein, we report the structure-activity relationships within a series of potent, selective, and orally bioavailable muscarinic acetylcholine receptor 4 (M

Published
2016

10. Synthesis and biological characterization of a series of novel diaryl amide M1 antagonists

Author

Colleen M. Niswender, Michael R. Wood, P.J. Conn, Christian Sevel, Ryan D. Morrison, Craig W. Lindsley, Thomas M. Bridges, Thomas J. Utley, Douglas J. Sheffler, Nathan R. Kett, J. S. Daniels, and Michael S. Poslusney

Subjects
Chemistry, Stereochemistry, Organic Chemistry, Clinical Biochemistry, Pharmaceutical Science, Stereoisomerism, Biochemistry, chemistry.chemical_compound, Amide, Drug Discovery, Radioligand, Molecular Medicine, Structure–activity relationship, Selectivity, Molecular Biology, Acetylcholine receptor
Abstract

Utilizing a combination of high-throughput and multi-step synthesis, SAR in a novel series of M1 acetylcholine receptor antagonists was rapidly established. The efforts led to the discovery the highly potent M1 antagonists 6 (VU0431263), and 8f (VU0433670). Functional Schild analysis and radioligand displacement experiments demonstrated the competitive, orthosteric binding of these compounds; human selectivity data are presented.

Published
2012

12. Spirocyclic replacements for the isatin in the highly selective, muscarinic M1 PAM ML137: the continued optimization of an MLPCN probe molecule

Author

J. Scott Daniels, Thomas J. Utley, Patrick R. Gentry, Douglas J. Sheffler, P. Jeffrey Conn, Michael S. Poslusney, Craig W. Lindsley, Michael R. Wood, Colleen M. Niswender, Bruce J. Melancon, and Thomas M. Bridges

Subjects
Isatin, Ketone, Pyrrolidines, Stereochemistry, Clinical Biochemistry, Allosteric regulation, Pharmaceutical Science, Biochemistry, Article, chemistry.chemical_compound, Structure-Activity Relationship, Allosteric Regulation, Drug Discovery, Muscarinic acetylcholine receptor, Molecule, Structure–activity relationship, Animals, Humans, Spiro Compounds, Molecular Biology, chemistry.chemical_classification, Organic Chemistry, Receptor, Muscarinic M1, Muscarinic acetylcholine receptor M1, Highly selective, Rats, chemistry, Molecular Medicine, Protein Binding
Abstract

This Letter describes the further optimization of an MLPCN probe molecule (ML137) through the introduction of 5- and 6-membered spirocycles in place of the isatin ketone. Interestingly divergent structure–activity relationships, when compared to earlier M1 PAMs, are presented. These novel spirocycles possess improved efficacy relative to ML137, while also maintaining high selectivity for the human and rat muscarinic M1 receptor subtype.

Published
2012

13. Isatin replacements applied to the highly selective, muscarinic M1 PAM ML137: continued optimization of an MLPCN probe molecule

Author

Margrith E. Mattmann, Michael S. Poslusney, Michael R. Wood, Patrick R. Gentry, Colleen M. Niswender, Bruce J. Melancon, James C. Tarr, P. Jeffrey Conn, Craig W. Lindsley, Thomas M. Bridges, Thomas J. Utley, J. Scott Daniels, and Douglas J. Sheffler

Subjects
Isatin, Monoamine Oxidase Inhibitors, Stereochemistry, Clinical Biochemistry, Pharmaceutical Science, Subtype selectivity, Biochemistry, Article, chemistry.chemical_compound, Inhibitory Concentration 50, Drug Discovery, Muscarinic acetylcholine receptor, medicine, Moiety, Molecule, Molecular Biology, Molecular Structure, Organic Chemistry, Receptor, Muscarinic M1, Muscarinic acetylcholine receptor M1, Highly selective, chemistry, Molecular Probes, Molecular Medicine, Acetylcholine, medicine.drug
Abstract

This Letter describes the continued optimization of an MLPCN probe molecule (ML137) with a focused effort on the replacement/modification of the isatin moiety present in this highly selective M(1) PAM. A diverse range of structures were validated as viable replacements for the isatin, many of which engendered sizeable improvements in their ability to enhance the potency and efficacy of acetylcholine when compared to ML137. Muscarinic receptor subtype selectivity for the M(1) receptor was also maintained.

Published
2012

14. Synthesis and biological characterization of a series of novel diaryl amide M₁ antagonists

Author

Michael S, Poslusney, Christian, Sevel, Thomas J, Utley, Thomas M, Bridges, Ryan D, Morrison, Nathan R, Kett, Douglas J, Sheffler, Colleen M, Niswender, J S, Daniels, P J, Conn, Craig W, Lindsley, and Michael R, Wood

Subjects
Receptor, Muscarinic M1, Stereoisomerism, CHO Cells, Amides, Binding, Competitive, Acetylcholine, Piperazines, Article, Structure-Activity Relationship, Cricetulus, Cricetinae, Stilbenes, Animals, Humans
Abstract

Utilizing a combination of high-throughput and multi-step synthesis, SAR in a novel series of M(1) acetylcholine receptor antagonists was rapidly established. The efforts led to the discovery the highly potent M(1) antagonists 6 (VU0431263), and 8f (VU0433670). Functional Schild analysis and radioligand displacement experiments demonstrated the competitive, orthosteric binding of these compounds; human selectivity data are presented.

Published
2012

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