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1. Discovery of 'Molecular Switches' within a Series of mGlu5 Allosteric Ligands Driven by a 'Magic Methyl' Effect Affording Both PAMs and NAMs with In Vivo Activity, Derived from an M1 PAM Chemotype

Author

Lisa Barbaro, Alice L. Rodriguez, Ashlyn N. Blevins, Jonathan W. Dickerson, Natasha Billard, Olivier Boutaud, Jerri L. Rook, Colleen M. Niswender, P.Jeffrey Conn, Darren W. Engers, and Craig W. Lindsley

Subjects
Biology (General), QH301-705.5, Biochemistry, QD415-436
Published
2021
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3. Persistent challenges in the development of an mGlu

Author

Jacob J, Kalbfleisch, Alice L, Rodriguez, Xia, Lei, Kelly, Weiss, Annie L, Blobaum, Olivier, Boutaud, Colleen M, Niswender, and Craig W, Lindsley

Abstract

Herein, we report on the further chemical optimization of the first reported mGlu

Published
2022

4. Discovery of VU6028418: A Highly Selective and Orally Bioavailable M4 Muscarinic Acetylcholine Receptor Antagonist

Author

Sichen Chang, Jonathan W. Dickerson, Baker Logan A, Thomas M. Bridges, Craig W. Lindsley, Darren W. Engers, Aidong Qi, Jerri M. Rook, Aaron M. Bender, P. Jeffrey Conn, Katrina A. Bollinger, Colleen M. Niswender, Changho Han, Alice L. Rodriguez, Trever R Carter, Li Peng, Julie L. Engers, Jordan C. O’Neill, Matthew Spock, and Katherine J. Watson

Subjects
Dystonia, Movement disorders, Chemistry, Organic Chemistry, Antagonist, Pharmacology, medicine.disease, Highly selective, Biochemistry, In vitro, Bioavailability, In vivo, Drug Discovery, Muscarinic acetylcholine receptor, medicine, medicine.symptom
Abstract

[Image: see text] Herein, we report the SAR leading to the discovery of VU6028418, a potent M(4) mAChR antagonist with high subtype-selectivity and attractive DMPK properties in vitro and in vivo across multiple species. VU6028418 was subsequently evaluated as a preclinical candidate for the treatment of dystonia and other movement disorders. During the characterization of VU6028418, a novel use of deuterium incorporation as a means to modulate CYP inhibition was also discovered.

Published
2021
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5. Discovery of the First Selective M4 Muscarinic Acetylcholine Receptor Antagonists with in Vivo Antiparkinsonian and Antidystonic Efficacy

Author

Jerri M. Rook, Aaron M. Bender, Colleen M. Niswender, Yuping Donsante, P. Jeffrey Conn, Hyekyung P. Cho, Li Peng, Julie L. Engers, Jonathan W. Dickerson, Thomas M. Bridges, Craig W. Lindsley, Ellen J. Hess, Sichen Chang, Aidong Qi, Weimin Peng, Mark S. Moehle, Jordan C. O’Neill, Daniel J. Foster, Alice L. Rodriguez, Zoey Bryant, Katherine J. Watson, and Kaylee J. Stillwell

Subjects
Pharmacology, Dystonia, Movement disorders, business.industry, Central nervous system, medicine.disease, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, Tolerability, In vivo, Muscarinic acetylcholine receptor, Genetic model, Medicine, Pharmacology (medical), medicine.symptom, business, Neurotransmitter
Abstract

Nonselective antagonists of muscarinic acetylcholine receptors (mAChRs) that broadly inhibit all five mAChR subtypes provide an efficacious treatment for some movement disorders, including Parkinson's disease and dystonia. Despite their efficacy in these and other central nervous system disorders, antimuscarinic therapy has limited utility due to severe adverse effects that often limit their tolerability by patients. Recent advances in understanding the roles that each mAChR subtype plays in disease pathology suggest that highly selective ligands for individual subtypes may underlie the antiparkinsonian and antidystonic efficacy observed with the use of nonselective antimuscarinic therapeutics. Our recent work has indicated that the M4 muscarinic acetylcholine receptor has several important roles in opposing aberrant neurotransmitter release, intracellular signaling pathways, and brain circuits associated with movement disorders. This raises the possibility that selective antagonists of M4 may recapitulate the efficacy of nonselective antimuscarinic therapeutics and may decrease or eliminate the adverse effects associated with these drugs. However, this has not been directly tested due to lack of selective antagonists of M4. Here, we utilize genetic mAChR knockout animals in combination with nonselective mAChR antagonists to confirm that the M4 receptor activation is required for the locomotor-stimulating and antiparkinsonian efficacy in rodent models. We also report the synthesis, discovery, and characterization of the first-in-class selective M4 antagonists VU6013720, VU6021302, and VU6021625 and confirm that these optimized compounds have antiparkinsonian and antidystonic efficacy in pharmacological and genetic models of movement disorders.

Published
2021
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6. Discovery of 'Molecular Switches' within a Series of mGlu5 Allosteric Ligands Driven by a 'Magic Methyl' Effect Affording Both PAMs and NAMs with In Vivo Activity, Derived from an M1 PAM Chemotype

Author

Darren W. Engers, Natasha Billard, Colleen M. Niswender, Ashlyn N. Blevins, Olivier Boutaud, Jonathan W. Dickerson, P. Jeffrey Conn, Jerri L. Rook, Craig W. Lindsley, Alice L. Rodriguez, and Lisa Barbaro

Subjects
Molecular switch, Chemotype, Chemistry, Stereochemistry, QH301-705.5, Allosteric regulation, Magic (programming), Pharmaceutical Science, QD415-436, Biochemistry, In vivo, Drug Discovery, Biology (General), Molecular Biology
Published
2021

7. Discovery of a potent M

Author

Douglas L, Orsi, Andrew S, Felts, Alice L, Rodriguez, Paige N, Vinson, Hyekyung P, Cho, Sichen, Chang, Anna L, Blobaum, Colleen M, Niswender, P Jeffrey, Conn, Carrie K, Jones, Craig W, Lindsley, and Changho, Han

Subjects
Kinetics, Pyrrolidines, Muscarinic Antagonists, Amides
Abstract

This Letter describes our ongoing effort to improve the clearance of selective M

Published
2022

8. Discovery of VU6027459: A First-in-Class Selective and CNS Penetrant mGlu7 Positive Allosteric Modulator Tool Compound

Author

Carson W. Reed, Jordan P Washecheck, Alice L. Rodriguez, P. Jeffrey Conn, Anna L. Blobaum, Colleen M. Niswender, Ashton Hunter, Craig W. Lindsley, Madison J Wong, and Jacob J. Kalbfleisch

Subjects
Allosteric modulator, 010405 organic chemistry, Organic Chemistry, Rett syndrome, Pharmacology, medicine.disease, 01 natural sciences, Biochemistry, 0104 chemical sciences, Cns penetration, 010404 medicinal & biomolecular chemistry, chemistry.chemical_compound, chemistry, Metabotropic glutamate receptor, Drug Discovery, medicine, Penetrant (biochemical)
Abstract

Herein, we report the discovery of the first selective and CNS penetrant mGlu7 PAM (VU6027459) derived from a "molecular switch" within a selective mGlu7 NAM chemotype. VU6027459 displayed CNS penetration in both mice (Kp = 2.74) and rats (Kp= 4.78), it was orally bioavailable in rats (%F = 69.5), and undesired activity at DAT was ablated.

Published
2020
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9. Development of

Author

Aaron T, Garrison, Douglas L, Orsi, Rory A, Capstick, David, Whomble, Jinming, Li, Trever R, Carter, Andrew S, Felts, Paige N, Vinson, Alice L, Rodriguez, Allie, Han, Krishma, Hajari, Hyekyung P, Cho, Laura B, Teal, Madeline G, Ragland, Masoud, Ghamari-Langroudi, Michael, Bubser, Sichen, Chang, Nathalie C, Schnetz-Boutaud, Olivier, Boutaud, Anna L, Blobaum, Daniel J, Foster, Colleen M, Niswender, P Jeffrey, Conn, Craig W, Lindsley, Carrie K, Jones, and Changho, Han

Subjects
Male, Rats, Sprague-Dawley, Receptor, Muscarinic M5, Dopaminergic Neurons, Receptor, Muscarinic M1, Animals, Opioid-Related Disorders, Receptors, Muscarinic, Rats
Abstract

The muscarinic acetylcholine receptor (mAChR) subtype 5 (M

Published
2022

11. Development and profiling of mGlu

Author

Carson W, Reed, Alice L, Rodriguez, Jacob J, Kalbfleisch, Mabel, Seto, Matthew T, Jenkins, Anna L, Blobaum, Sichen, Chang, Craig W, Lindsley, and Colleen M, Niswender

Subjects
Allosteric Regulation, Ligands
Abstract

We describe here a series of metabotropic glutamate receptor 7 (mGlu

Published
2022

14. Challenges in the Discovery and Optimization of mGlu2/4 Heterodimer Positive Allosteric Modulators

Author

Charles David Weaver, Emily Days, Craig W. Lindsley, Alice L. Rodriguez, Paige N. Vinson, Colleen M. Niswender, Anna L. Blobaum, Matthew T. Loch, Caroline Anne Cuoco, P.J. Conn, Krystian A. Kozek, and Mark G. Fulton

Subjects
medicine.drug_class, Stereochemistry, Allosteric regulation, Pharmaceutical Science, Carboxamide, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Amide, Drug Discovery, medicine, Structure–activity relationship, metabotropic glutamate receptor, Receptor, Xanthine oxidase inhibitor, Heterodimer, striatopallidal synapses, 030304 developmental biology, Letters in Drug Design & Discovery, 0303 health sciences, mGlu2/4, Chemistry, structure-activity relationship, Metabotropic glutamate receptor, positive allosteric modulator, Molecular Medicine, Febuxostat, 030217 neurology & neurosurgery, medicine.drug
Abstract

Background: This article describes the challenges in the discovery and optimization of mGlu2/4 heterodimer Positive Allosteric Modulators (PAMs). Methods: Initial forays based on VU0155041, a PAM of both the mGlu4 homodimer and the mGlu2/4 heterodimer, led to flat, intractable SAR that precluded advancement. Screening of a collection of 1,152 FDA approved drugs led to the discovery that febuxostat, an approved xanthine oxidase inhibitor, was a moderately potent PAM of the mGlu2/4 heterodimer (EC50 = 3.4 µM), but was peripherally restricted (rat Kp = 0.03). Optimization of this hit led to PAMs with improved potency (EC50s 2, an ~100-fold increase). Results: However, these new amide analogs of febuxostat proved to be either GIRK1/2 and GIRK1/4 activators (primary carboxamide congeners) or mGlu2 PAMs (secondary and tertiary amides) and not selective mGlu2/4 heterodimer PAMs. Conclusion: These results required the team to develop a new screening cascade paradigm, and exemplified the challenges in developing allosteric ligands for heterodimeric receptors.

Published
2019
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15. Further exploration of an N-aryl phenoxyethoxy pyridinone-based series of mGlu3 NAMs: Challenging SAR, enantiospecific activity and in vivo efficacy

Author

Kristen Gilliland, Anna L. Blobaum, Samantha E. Yohn, P. Jeffrey Conn, Craig W. Lindsley, Michael L. Schulte, Alice L. Rodriguez, Colleen M. Niswender, Mathew T. Loch, and Yousuke Yamada

Subjects
Tail Suspension, 010405 organic chemistry, Stereochemistry, Aryl, Organic Chemistry, Clinical Biochemistry, Pharmaceutical Science, Selective inhibition, 01 natural sciences, Biochemistry, Zero maze, 0104 chemical sciences, Marble burying, 010404 medicinal & biomolecular chemistry, chemistry.chemical_compound, chemistry, In vivo, Multidimensional optimization, Drug Discovery, Molecular Medicine, G protein-coupled inwardly-rectifying potassium channel, Molecular Biology
Abstract

This letter describes the further optimization of a series of mGlu3 NAMs based on an N-aryl phenoxyethoxy pyridinone core. A multidimensional optimization campaign, with focused matrix libraries, quickly established challenging SAR, enantiospecific activity, differences in assay read-outs (Ca2+ flux via a promiscuous G protein (Gα15) versus native coupling to GIRK channels), identified both full and partial mGlu3 NAMs and a new in vivo tool compound, VU6017587. This mGlu3 NAM showed efficacy in tail suspension, elevated zero maze and marble burying, suggesting selective inhibition of mGlu3 affords anxiolytic-like and antidepressant-like phenotypes in mice.

Published
2019
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16. SAR inspired by aldehyde oxidase (AO) metabolism: Discovery of novel, CNS penetrant tricyclic M4 PAMs

Author

Changho Han, J. Scott Daniels, Alice L. Rodriguez, Colleen M. Niswender, Alison R. Gregro, P. Jeffrey Conn, Michael R. Wood, Craig W. Lindsley, Katrina A. Bollinger, Michael W. Wood, Mark E. Duggan, Sichen Chang, Darren W. Engers, Atin Lamsal, Ryan D. Morrison, Andrew S. Felts, Trevor C. Chopko, Nicholas J. Brandon, Nathalie Schnetz-Boutaud, Vincent B. Luscombe, Hyekyung P. Cho, Mike Poslusney, Carrie K. Jones, Donald F. Stec, Thomas M. Bridges, Michael Bubser, and Bruce J. Melancon

Subjects
chemistry.chemical_classification, 010405 organic chemistry, Stereochemistry, Metabolite, Organic Chemistry, Clinical Biochemistry, Pharmaceutical Science, Metabolism, 01 natural sciences, Biochemistry, 0104 chemical sciences, Cns penetration, 010404 medicinal & biomolecular chemistry, chemistry.chemical_compound, chemistry, In vivo, Drug Discovery, Molecular Medicine, Penetrant (biochemical), Molecular Biology, Aldehyde oxidase, Tricyclic
Abstract

This letter describes progress towards an M4 PAM preclinical candidate inspired by an unexpected aldehyde oxidase (AO) metabolite of a novel, CNS penetrant thieno[2,3-c]pyridine core to an equipotent, non-CNS penetrant thieno[2,3-c]pyrdin-7(6H)-one core. Medicinal chemistry design efforts yielded two novel tricyclic cores that enhanced M4 PAM potency, regained CNS penetration, displayed favorable DMPK properties and afforded robust in vivo efficacy in reversing amphetamine-induced hyperlocomotion in rats.

Published
2019
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17. VU6005806/AZN-00016130, an advanced M4 positive allosteric modulator (PAM) profiled as a potential preclinical development candidate

Author

Alice L. Rodriguez, P. Jeffrey Conn, Allison R. Gregro, Michael Bubser, Mark E. Dugan, Colleen M. Niswender, Leah C. Konkol, Michael W. Wood, Darren W. Engers, Craig W. Lindsley, Jeanette L. Bertron, Bruce J. Melancon, Sean R. Bollinger, Thomas M. Bridges, Samantha E. Yohn, Vincent B. Luscombe, Andrew S. Felts, Michael R. Wood, Carrie K. Jones, Nicholas J. Brandon, and Katrina A. Bollinger

Subjects
Allosteric modulator, 010405 organic chemistry, medicine.drug_class, Organic Chemistry, Clinical Biochemistry, Pharmaceutical Science, Carboxamide, Computational biology, 01 natural sciences, Biochemistry, 0104 chemical sciences, Pyridazine, 010404 medicinal & biomolecular chemistry, chemistry.chemical_compound, chemistry, In vivo, Drug Discovery, medicine, Molecular Medicine, Moiety, Pharmaceutical sciences, Molecular Biology
Abstract

This letter describes progress towards an M4 PAM preclinical candidate that resulted in the discovery of VU6005806/AZN-00016130. While the thieno[2,3-c]pyridazine core has been a consistent feature of key M4 PAMs, no work had previously been reported with respect to alternate functionality at the C3 position of the pyridazine ring. Here, we detail new chemistry and analogs that explored this region, and quickly led to VU6005806/AZN-00016130, which was profiled as a putative candidate. While, the β-amino carboxamide moiety engendered solubility limited absorption in higher species precluding advancement (or requiring extensive pharmaceutical sciences formulation), VU6005806/AZN-00016130 represents a new, high quality preclinical in vivo probe.

Published
2019
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18. Surveying heterocycles as amide bioisosteres within a series of mGlu7 NAMs: Discovery of VU6019278

Author

Carson W. Reed, Matthew T. Jenkins, Colleen M. Niswender, Alice L. Rodriguez, P. Jeffrey Conn, Darren W. Engers, Marc C. Quitlag, Craig W. Lindsley, Jordan P Washecheck, and Anna L. Blobaum

Subjects
010405 organic chemistry, Stereochemistry, Organic Chemistry, Clinical Biochemistry, Allosteric regulation, Pharmaceutical Science, Hepatic clearance, Plasma protein binding, Ring (chemistry), 01 natural sciences, Biochemistry, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, chemistry.chemical_compound, chemistry, Metabotropic glutamate receptor, Amide, Drug Discovery, Molecular Medicine, Moiety, Bioisostere, Molecular Biology
Abstract

This letter describes a diversity-oriented library approach to rapidly assess diverse heterocycles as bioisosteric replacements for a metabolically labile amide moiety within a series of mGlu7 negative allosteric modulators (NAMs). SAR rapidly honed in on either a 1,2,4- or 1,3,4-oxadizaole ring system as an effective bioisostere for the amide. Further optimization of the southern region of the mGlu7 NAM chemotype led to the discovery of VU6019278, a potent mGlu7 NAM (IC50 = 501 nM, 6.3% L-AP4 Min) with favorable plasma protein binding (rat fu = 0.10), low predicted hepatic clearance (rat CLhep = 27.7 mL/min/kg) and high CNS penetration (rat Kp = 4.9, Kp,uu = 0.65).

Published
2019
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19. Discovery of a potent M5 antagonist with improved clearance profile. Part 2: Pyrrolidine amide-based antagonists

Author

Douglas L. Orsi, Andrew S. Felts, Alice L. Rodriguez, Paige N. Vinson, Hyekyung P. Cho, Sichen Chang, Anna L. Blobaum, Colleen M. Niswender, P. Jeffrey Conn, Carrie K. Jones, Craig W. Lindsley, and Changho Han

Subjects
Organic Chemistry, Clinical Biochemistry, Drug Discovery, Pharmaceutical Science, Molecular Medicine, Molecular Biology, Biochemistry
Published
2022
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20. Discovery of a potent M5 antagonist with improved clearance profile. Part 1: Piperidine amide-based antagonists

Author

Rory A. Capstick, David Whomble, Douglas L. Orsi, Andrew S. Felts, Alice L. Rodriguez, Paige N. Vinson, Sichen Chang, Anna L. Blobaum, Colleen M. Niswender, P. Jeffrey Conn, Carrie K. Jones, Craig W. Lindsley, and Changho Han

Subjects
Organic Chemistry, Clinical Biochemistry, Drug Discovery, Pharmaceutical Science, Molecular Medicine, Molecular Biology, Biochemistry
Published
2022
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22. Synthesis and characterization of chiral 6-azaspiro[2.5]octanes as potent and selective antagonists of the M

Author

Aaron M, Bender, Trever R, Carter, Matthew, Spock, Alice L, Rodriguez, Jonathan W, Dickerson, Jerri M, Rook, Sichen, Chang, Aidong, Qi, Christopher C, Presley, Darren W, Engers, Joel M, Harp, Thomas M, Bridges, Colleen M, Niswender, P Jeffrey, Conn, and Craig W, Lindsley

Subjects
Structure-Activity Relationship, Dose-Response Relationship, Drug, Molecular Structure, Receptor, Muscarinic M4, Humans, Muscarinic Antagonists
Abstract

In this manuscript, we report a series of chiral 6-azaspiro[2.5]octanes and related spirocycles as highly potent and selective antagonists of the muscarinic acetylcholine receptor subtype 4 (mAChR

Published
2021

23. Discovery of structurally distinct tricyclic M

Author

Madeline F, Long, Rory A, Capstick, Paul K, Spearing, Julie L, Engers, Alison R, Gregro, Sean R, Bollinger, Sichen, Chang, Vincent B, Luscombe, Alice L, Rodriguez, Hyekyung P, Cho, Colleen M, Niswender, Thomas M, Bridges, P Jeffrey, Conn, Craig W, Lindsley, Darren W, Engers, and Kayla J, Temple

Subjects
Structure-Activity Relationship, Pyrimidines, Dose-Response Relationship, Drug, Molecular Structure, Receptor, Muscarinic M4, Drug Discovery, Humans, Article
Abstract

This Letter details our efforts to develop novel tricyclic M(4) PAM scaffolds with improved pharmacological properties. This endeavor involved a “tie-back” strategy to replace the 3-amino-4,6-dimethylthieno[2,3-b]pyridine-2-carboxamide core which lead to the discovery of two novel tricyclic cores: a 7,9-dimethylpyrido[3’,2’:4,5]thieno[3,2-d]pyrimidine core and 2,4-dimethylthieno[2,3-b:5,4-c’]dipyridine core. Both tricyclic cores displayed low nanomolar potency against the human M(4) receptor.

Published
2021

24. Discovery and optimization of a novel CNS penetrant series of mGlu

Author

Caitlin N, Kent, Mark G, Fulton, Kaylee J, Stillwell, Jonathan W, Dickerson, Matthew T, Loch, Alice L, Rodriguez, Anna L, Blobaum, Olivier, Boutaud, Jerri L, Rook, Colleen M, Niswender, P Jeffrey, Conn, and Craig W, Lindsley

Subjects
Catalepsy, Disease Models, Animal, Mice, Structure-Activity Relationship, Neuroprotective Agents, Allosteric Regulation, Dose-Response Relationship, Drug, Molecular Structure, Drug Discovery, Animals, Haloperidol, Parkinson Disease, Receptors, Metabotropic Glutamate
Abstract

A high throughput screen (HTS) identified a novel, but weak (EC

Published
2021

26. Lead optimization of the VU0486321 series of mGlu

Author

Dexter C, Davis, Joseph D, Bungard, Sichen, Chang, Alice L, Rodriguez, Annie L, Blobaum, Olivier, Boutaud, Bruce J, Melancon, Colleen M, Niswender, P, Jeffrey Conn, and Craig W, Lindsley

Subjects
Structure-Activity Relationship, Allosteric Regulation, Coumarins, Receptor, Metabotropic Glutamate 5, Humans, Furans, Receptors, Metabotropic Glutamate
Abstract

Further optimization of the VU0486321 series of highly selective and CNS-penetrant mGlu

Published
2020

27. Discovery of the first selective M4muscarinic acetylcholine receptor antagonists within vivoanti-parkinsonian and anti-dystonic efficacy

Author

Sichen Chang, Ellen J. Hess, Jerri M. Rook, Jonathan W. Dickerson, Colleen M. Niswender, Yuping Donsante, Weimin Peng, Craig W. Lindsley, Li Peng, Julie L. Engers, Thomas M. Bridges, Mark S. Moehle, Daniel J. Foster, P. Jeffrey Conn, Aaron M. Bender, Alice L. Rodriguez, Zoey Bryant, Katherine J. Watson, and Jordan C. O’Neill

Subjects
Dystonia, Movement disorders, business.industry, Central nervous system, Pharmacology, medicine.disease, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, In vivo, Muscarinic acetylcholine receptor, Genetic model, medicine, medicine.symptom, Receptor, Neurotransmitter, business
Abstract

Non-selective antagonists of muscarinic acetylcholine receptors (mAChRs) that broadly inhibit all five mAChR subtypes provide an efficacious treatment for some movement disorders, including Parkinson disease and dystonia. Despite their efficacy in these and other central nervous system disorders, anti-muscarinic therapy has limited utility due to severe adverse effects that often limit their tolerability by patients. Recent advances in understanding the roles that each mAChR subtype plays in disease pathology suggest that highly selective ligands for individual subtypes may underlie the anti-parkinsonian and anti-dystonic efficacy observed with the use of non-selective anti-muscarinic therapeutics. Our recent work has indicated that the M4muscarinic acetylcholine receptor has several important roles in opposing aberrant neurotransmitter release, intracellular signaling pathways, and brain circuits associated with movement disorders. This raises the possibility that selective antagonists of M4may recapitulate the efficacy of non-selective anti-muscarinic therapeutics and may decrease or eliminate the adverse effects associated with these drugs. However, this has not been directly tested due to lack of selective antagonists of M4. Here we utilize genetic mAChR knockout animals in combination with non-selective mAChR antagonists to confirm that the M4receptor underlies the locomotor-stimulating and anti-parkinsonian efficacy in rodent models. We also report the synthesis, discovery, and characterization of the first-in-class selective M4antagonists VU6013720, VU6021302, and VU6021625 and confirm that these optimized compounds have anti-parkinsonian and anti-dystonic efficacy in pharmacological and genetic models of movement disorders.

Published
2020
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28. Discovery of the First Selective M

Author

Mark S, Moehle, Aaron M, Bender, Jonathan W, Dickerson, Daniel J, Foster, Aidong, Qi, Hyekyung P, Cho, Yuping, Donsante, Weimin, Peng, Zoey, Bryant, Kaylee J, Stillwell, Thomas M, Bridges, Sichen, Chang, Katherine J, Watson, Jordan C, O'Neill, Julie L, Engers, Li, Peng, Alice L, Rodriguez, Colleen M, Niswender, Craig W, Lindsley, Ellen J, Hess, P Jeffrey, Conn, and Jerri M, Rook

Abstract

[Image: see text] Nonselective antagonists of muscarinic acetylcholine receptors (mAChRs) that broadly inhibit all five mAChR subtypes provide an efficacious treatment for some movement disorders, including Parkinson’s disease and dystonia. Despite their efficacy in these and other central nervous system disorders, antimuscarinic therapy has limited utility due to severe adverse effects that often limit their tolerability by patients. Recent advances in understanding the roles that each mAChR subtype plays in disease pathology suggest that highly selective ligands for individual subtypes may underlie the antiparkinsonian and antidystonic efficacy observed with the use of nonselective antimuscarinic therapeutics. Our recent work has indicated that the M(4) muscarinic acetylcholine receptor has several important roles in opposing aberrant neurotransmitter release, intracellular signaling pathways, and brain circuits associated with movement disorders. This raises the possibility that selective antagonists of M(4) may recapitulate the efficacy of nonselective antimuscarinic therapeutics and may decrease or eliminate the adverse effects associated with these drugs. However, this has not been directly tested due to lack of selective antagonists of M(4). Here, we utilize genetic mAChR knockout animals in combination with nonselective mAChR antagonists to confirm that the M(4) receptor activation is required for the locomotor-stimulating and antiparkinsonian efficacy in rodent models. We also report the synthesis, discovery, and characterization of the first-in-class selective M(4) antagonists VU6013720, VU6021302, and VU6021625 and confirm that these optimized compounds have antiparkinsonian and antidystonic efficacy in pharmacological and genetic models of movement disorders.

Published
2020

29. Synthesis and SAR of a series of mGlu

Author

Jacob J, Kalbfleisch, Carson W, Reed, Charlotte, Park, Paul K, Spearing, Marc C, Quitalig, Matthew T, Jenkins, Alice L, Rodriguez, Anna L, Blobaum, P Jeffrey, Conn, Colleen M, Niswender, and Craig W, Lindsley

Subjects
Structure-Activity Relationship, Allosteric Regulation, Dose-Response Relationship, Drug, Molecular Structure, Humans, Receptors, Metabotropic Glutamate, Article, High-Throughput Screening Assays
Abstract

A High-Throughput Screening (HTS) campaign identified a fundamentally new mGlu(7) NAM chemotype, based on an ethyl-8-methoxy-4-(4-phenylpiperazin-1-yl)quinolone carboxylate core. The initial hit, VU0226390, was a potent mGlu(7) NAM (IC(50) = 647 nM, 6% L-AP4 min) with selectivity versus the other group III mGlu receptors (>30 μM vs. mGlu(4) and mGlu(8)). A multi-dimensional optimization effort surveyed all regions of this new chemotype, and found very steep SAR, reminiscent of allosteric modulators, and unexpected piperazine mimetics (whereas classical bioisosteres failed). While mGlu(7) NAM potency could be improved (IC(50)s ~ 350 nM), the necessity of the ethyl ester moiety and poor physiochemical and DMPK properties precluded optimization towards in vivo tool compounds or clinical candidates. Still, this hit-to-lead campaign afforded key medicinal chemistry insights and new opportunities.

Published
2020

30. 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
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31. The discovery of VU0652957 (VU2957, Valiglurax): SAR and DMPK challenges en route to an mGlu4 PAM development candidate

Author

Corey R. Hopkins, Anna L. Blobaum, Joshua M. Wieting, Ryan Westphal, Rory A. Capstick, Alison R. Gregro, Julie E. Engers, Aspen Chun, P. Jeffrey Conn, Jason M. Guernon, Carrie K. Jones, Alice L. Rodriguez, Darren W. Engers, Joseph D. Panarese, Craig W. Lindsley, Wu Yong Jin, Joanne J. Bronson, John E. Macor, Andrew S. Felts, Kyle A. Emmitte, Colleen M. Niswender, Aaron M. Bender, and Matthew Soars

Subjects
Allosteric modulator, 010405 organic chemistry, Chemistry, Organic Chemistry, Clinical Biochemistry, Allosteric regulation, Pharmaceutical Science, Computational biology, 01 natural sciences, Biochemistry, 0104 chemical sciences, Cns penetration, 010404 medicinal & biomolecular chemistry, Metabotropic glutamate receptor, Drug Discovery, Molecular Medicine, skin and connective tissue diseases, Molecular Biology
Abstract

This letter describes the first account of the chemical optimization (SAR and DMPK profiling) of a new series of mGlu4 positive allosteric modulators (PAMs), leading to the identification of VU0652957 (VU2957, Valiglurax), a compound profiled as a preclinical development candidate. Here, we detail the challenges faced in allosteric modulator programs (e.g., steep SAR, as well as subtle structural changes affecting overall physiochemical/DMPK properties and CNS penetration).

Published
2019
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32. Discovery of 4-alkoxy-6-methylpicolinamide negative allosteric modulators of metabotropic glutamate receptor subtype 5

Author

J. Scott Daniels, Christopher J. Brassard, Ryan D. Morrison, Alice L. Rodriguez, Anna L. Blobaum, Kyle A. Emmitte, Andrew S. Felts, P. Jeffrey Conn, Colleen M. Niswender, Carrie K. Jones, Katrina A. Bollinger, and Craig W. Lindsley

Subjects
Pyrimidine, Stereochemistry, Receptor, Metabotropic Glutamate 5, Metabolite, Clinical Biochemistry, Allosteric regulation, Pharmaceutical Science, Ligands, 01 natural sciences, Biochemistry, Article, Structure-Activity Relationship, chemistry.chemical_compound, Allosteric Regulation, Drug Discovery, Animals, Humans, Moiety, Picolinic Acids, Molecular Biology, Aldehyde oxidase, Dose-Response Relationship, Drug, Molecular Structure, 010405 organic chemistry, Chemistry, Organic Chemistry, Ligand (biochemistry), Rats, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, Metabotropic glutamate receptor, Molecular Medicine, Pharmacophore
Abstract

This letter describes the further chemical optimization of VU0424238 (auglurant), an mGlu5 NAM clinical candidate that failed in non-human primate (NHP) 28 day toxicology due to accumulation of a species-specific aldehyde oxidase (AO) metabolite of the pyrimidine head group. Here, we excised the pyrimidine moiety, identified the minimum pharmacophore, and then developed a new series of saturated ether head groups that ablated any AO contribution to metabolism. Putative back-up compounds in this novel series provided increased sp3 character, uniform CYP450-mediated metabolism across species, good functional potency and high CNS penetration. Key to the optimization was a combination of matrix and iterative libraries that allowed rapid surveillance of multiple domains of the allosteric ligand.

Published
2019
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33. Discovery of Novel Central Nervous System Penetrant Metabotropic Glutamate Receptor Subtype 2 (mGlu2) Negative Allosteric Modulators (NAMs) Based on Functionalized Pyrazolo[1,5-a]pyrimidine-5-carboxamide and Thieno[3,2-b]pyridine-5-carboxamide Cores

Author

Colleen M. Niswender, Craig W. Lindsley, Andrew S. Felts, Vincent B. Luscombe, P. Jeffrey Conn, Hyekyung P. Cho, Elizabeth S. Childress, Megan M. Breiner, Joshua M. Wieting, Kyle A. Emmitte, Madeline F. Long, Alice L. Rodriguez, and Anna L. Blobaum

Subjects
0303 health sciences, Pyrimidine, medicine.drug_class, Stereochemistry, Allosteric regulation, Carboxamide, 01 natural sciences, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, 03 medical and health sciences, chemistry.chemical_compound, chemistry, Metabotropic glutamate receptor, Drug Discovery, Pyridine, medicine, Molecular Medicine, Structure–activity relationship, Selectivity, Receptor, 030304 developmental biology
Abstract

A scaffold hopping exercise from a monocyclic mGlu2 NAM with poor rodent PK led to two novel heterobicyclic series of mGlu2 NAMs based on either a functionalized pyrazolo[1,5- a]pyrimidine-5-carboxamide core or a thieno[3,2- b]pyridine-5-carboxamide core. These novel analogues possess enhanced rodent PK, while also maintaining good mGlu2 NAM potency, selectivity (versus mGlu3 and the remaining six mGlu receptors), and high CNS penetration. Interestingly, SAR was divergent between the new 5,6-heterobicyclic systems.

Published
2018
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34. Discovery of VU2957 (Valiglurax): An mGlu4 Positive Allosteric Modulator Evaluated as a Preclinical Candidate for the Treatment of Parkinson’s Disease

Author

Michael J. Kates, Arlindo L. Castelhano, Carrie K. Jones, Colleen M. Niswender, Andrew S. Felts, Anna L. Blobaum, Matthew T. Loch, Kyle A. Emmitte, Aspen Chun, John E. Macor, Joanne J. Bronson, Darren W. Engers, Alice L. Rodriguez, Julie L. Engers, Joseph D. Panarese, Craig W. Lindsley, Michael A. Nader, Wu Yong Jin, P. Jeffrey Conn, and Corey R. Hopkins

Subjects
Allosteric modulator, Parkinson's disease, 010405 organic chemistry, business.industry, Organic Chemistry, Pharmacology, medicine.disease, 01 natural sciences, Biochemistry, 0104 chemical sciences, Toxicology studies, 010404 medicinal & biomolecular chemistry, chemistry.chemical_compound, chemistry, In vivo, Drug Discovery, medicine, business, Penetrant (biochemical)
Abstract

[Image: see text] Herein, we report the discovery of a novel potent, selective, CNS penetrant, and orally bioavailable mGlu(4) PAM, VU0652957 (VU2957, Valiglurax). VU2957 possessed attractive in vitro and in vivo pharmacological and DMPK properties across species. To advance toward the clinic, a spray-dried dispersion (SDD) formulation of VU2957 was developed to support IND-enabling toxicology studies. Based on its overall profile, VU2957 was evaluated as a preclinical development candidate for the treatment of Parkinson’s disease.

Published
2018
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35. Discovery, Structure–Activity Relationship, and Biological Characterization of a Novel Series of 6-((1H-Pyrazolo[4,3-b]pyridin-3-yl)amino)-benzo[d]isothiazole-3-carboxamides as Positive Allosteric Modulators of the Metabotropic Glutamate Receptor 4 (mGlu4)

Author

Julie L. Engers, Alice L. Rodriguez, Analisa D. Thompson Gray, Corey R. Hopkins, Darren W. Engers, Anna L. Blobaum, Sean R. Bollinger, P. Jeffrey Conn, Colleen M. Niswender, Mary West, Carrie K. Jones, Joseph D. Panarese, Craig W. Lindsley, and Matthew T. Loch

Subjects
Male, Stereochemistry, Allosteric regulation, Receptors, Metabotropic Glutamate, 01 natural sciences, Rats, Sprague-Dawley, Structure-Activity Relationship, 03 medical and health sciences, chemistry.chemical_compound, Allosteric Regulation, Cytochrome P-450 CYP1A2, In vivo, Drug Discovery, Animals, Humans, Structure–activity relationship, Receptor, IC50, 030304 developmental biology, Catalepsy, 0303 health sciences, Isothiazole, Metabotropic glutamate receptor 4, CYP1A2, Brain, Isoxazoles, Amides, Rats, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, chemistry, Haloperidol, Molecular Medicine, Half-Life
Abstract

This work describes the discovery and characterization of novel 6-(1H-pyrazolo[4,3-b]pyridin-3-yl)amino-benzo[d]isothiazole-3-carboxamides as mGlu4 PAMs. This scaffold provides improved metabolic clearance and CYP1A2 profiles compared to previously discovered mGlu4 PAMs. From this work, 27o (VU6001376) was identified as a potent (EC50 = 50.1 nM, 50.5% GluMax) and selective mGlu4 PAM with an excellent rat DMPK profile (in vivo rat CLp = 3.1 mL/min/kg, t1/2 = 445 min, CYP1A2 IC50 > 30 μM). Compound 27o was also active in reversing haloperidol induced catalepsy in a rodent preclinical model of Parkinson’s disease.

Published
2018
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36. Discovery and characterization of N-(1,3-dialkyl-1H-indazol-6-yl)-1H-pyrazolo[4,3-b]pyridin-3-amine scaffold as mGlu4 positive allosteric modulators that mitigate CYP1A2 induction liability

Author

John E. Macor, Darren W. Engers, Julie L. Engers, Colleen M. Niswender, P. Jeffrey Conn, Rocio Zamorano, Alice L. Rodriguez, Joanne J. Bronson, Sean R. Bollinger, Anna L. Blobaum, Joseph D. Panarese, Craig W. Lindsley, Alison R. Gregro, Corey R. Hopkins, Wu Yong Jin, and Megan M. Breiner

Subjects
0301 basic medicine, Scaffold, Chemistry, Stereochemistry, Organic Chemistry, Clinical Biochemistry, Allosteric regulation, CYP1A2, Pharmaceutical Science, Biochemistry, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, In vivo, Drug Discovery, Molecular Medicine, Potency, Amine gas treating, Selectivity, Molecular Biology, 030217 neurology & neurosurgery
Abstract

Previous reports from our laboratory disclosed the structure and activity of a novel 1H-pyrazolo[4,3-b]pyridine-3-amine scaffold (VU8506) which showed excellent potency, selectivity and in vivo efficacy in preclinical rodent models of Parkinson’s disease. Unfortunately, this compound suffered from significant CYP1A2 induction as measured through upstream AhR activation (125-fold) and thus was precluded from further advancement in chronic studies. Herein, we report a new scaffold developed recently which was systematically studied in order to mitigate the CYP1A2 liabilities presented in the earlier scaffolds. We have identified a novel structure that maintains the potency and selectivity of other mGlu4 PAMs, leading to 9i (hmGlu4 EC50 = 43 nM; AhR activation = 2.3-fold).

Published
2018
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37. Discovery of 6-(pyrimidin-5-ylmethyl)quinoline-8-carboxamide negative allosteric modulators of metabotropic glutamate receptor subtype 5

Author

Alice L. Rodriguez, Anna L. Blobaum, Frank W. Byers, Ryan D. Morrison, P. Jeffrey Conn, Colleen M. Niswender, J. Scott Daniels, Craig W. Lindsley, Kyle A. Emmitte, and Andrew S. Felts

Subjects
Male, 0301 basic medicine, Stereochemistry, medicine.drug_class, Receptor, Metabotropic Glutamate 5, Clinical Biochemistry, Allosteric regulation, Pharmaceutical Science, Carboxamide, 030226 pharmacology & pharmacy, Biochemistry, Article, Rats, Sprague-Dawley, Structure-Activity Relationship, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Allosteric Regulation, Drug Discovery, medicine, Animals, Humans, Receptor, Molecular Biology, Diaryl ether, Dose-Response Relationship, Drug, Molecular Structure, Chemistry, Organic Chemistry, Quinoline, Metabolism, Metabolic stability, Rats, Pyrimidines, 030104 developmental biology, Metabotropic glutamate receptor, Quinolines, Molecular Medicine
Abstract

Based on previous work that established fused heterocycles as viable alternatives for the picolinamide core of our lead series of mGlu(5) negative allosteric modulators (NAMs), we designed a novel series of 6-(pyrimidin-5-ylmethyl)quinoline-8-carboxamide mGlu(5) NAMs. These new quinoline derivatives also contained carbon linkers as replacements for the diaryl ether oxygen atom common to our previously published chemotypes. Compounds were evaluated in a cell-based functional mGlu(5) assay, and an exemplar analog 27 was more than 60-fold selective versus the other seven mGlu receptors. Selected compounds were also studied in metabolic stability assays in rat and human S9 hepatic fractions and exhibited a mixture of P450- and non-P450-mediated metabolism.

Published
2018
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38. Synthesis and characterization of chiral 6-azaspiro[2.5]octanes as potent and selective antagonists of the M4 muscarinic acetylcholine receptor

Author

Jerri M. Rook, P. Jeffrey Conn, Aidong Qi, Aaron M. Bender, Matthew Spock, Colleen M. Niswender, Thomas M. Bridges, Sichen Chang, Trever R Carter, Craig W. Lindsley, Joel M. Harp, Christopher C Presley, Alice L. Rodriguez, Darren W. Engers, and Jonathan W. Dickerson

Subjects
Early generation, biology, Chemistry, Stereochemistry, Organic Chemistry, Clinical Biochemistry, Pharmaceutical Science, Cytochrome P450, Multiple species, Biochemistry, Drug Discovery, Aqueous solubility, Muscarinic acetylcholine receptor, biology.protein, Molecular Medicine, Potency, Enantiomer, Selectivity, Molecular Biology
Abstract

In this manuscript, we report a series of chiral 6-azaspiro[2.5]octanes and related spirocycles as highly potent and selective antagonists of the muscarinic acetylcholine receptor subtype 4 (mAChR4). Chiral separation and subsequent X-ray crystallographic analysis of early generation analogs revealed the R enantiomer to possess excellent human and rat M4 potency, and further structure-activity relationship (SAR) studies on this chiral scaffold led to the discovery of VU6015241 (compound 19). Compound 19 is characterized by high M4 potency and selectivity across multiple species, excellent aqueous solubility, and moderate brain exposure in rodents after intraperitoneal administration.

Published
2022
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39. Discovery of structurally distinct tricyclic M4 positive allosteric modulator (PAM) chemotypes – Part 2

Author

Thomas M. Bridges, Rory A. Capstick, Alice L. Rodriguez, Paul K. Spearing, Madeline F. Long, Vincent B. Luscombe, P. Jeffrey Conn, Alison R. Gregro, Sichen Chang, Julie L. Engers, Hyekyung P. Cho, Sean R. Bollinger, Colleen M. Niswender, Darren W. Engers, Kayla J. Temple, and Craig W. Lindsley

Subjects
chemistry.chemical_classification, Allosteric modulator, Pyrimidine, Stereochemistry, Organic Chemistry, Clinical Biochemistry, Pharmaceutical Science, Biochemistry, chemistry.chemical_compound, chemistry, Drug Discovery, Molecular Medicine, Molecular Biology, Tricyclic
Abstract

This Letter details our efforts to develop novel tricyclic M4 PAM scaffolds with improved pharmacological properties. This endeavor involved a "tie-back" strategy to replace the 3-amino-4,6-dimethylthieno[2,3-b]pyridine-2-carboxamide core which lead to the discovery of two novel tricyclic cores: a 7,9-dimethylpyrido[3',2':4,5]thieno[3,2-d]pyrimidine core and 2,4-dimethylthieno[2,3-b:5,4-c']dipyridine core. Both tricyclic cores displayed low nanomolar potency against the human M4 receptor.

Published
2021
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40. Positive allosteric modulators (PAMs) of the group II metabotropic glutamate receptors: Design, synthesis, and evaluation as ex-vivo tool compounds

Author

Yousuke Yamada, Bruce J. Melancon, Zixiu Xiang, Katherine E. Crocker, Colleen M. Niswender, Craig W. Lindsley, P. Jeffrey Conn, Kristen Gilliland, Alice L. Rodriguez, Matthew T. Loch, Michael L. Schulte, and Daniel Haymer

Subjects
Agonist, medicine.drug_class, Clinical Biochemistry, Allosteric regulation, Prefrontal Cortex, Pharmaceutical Science, Pharmacology, Receptors, Metabotropic Glutamate, Biochemistry, Cell Line, Mice, Structure-Activity Relationship, Drug Discovery, medicine, Animals, Humans, Calcium Signaling, Receptor, Molecular Biology, Neurons, Molecular Structure, Chemistry, Pyramidal Cells, Organic Chemistry, Glutamate receptor, Long-term potentiation, Metabotropic receptor, Metabotropic glutamate receptor, Drug Design, Molecular Medicine, Ex vivo
Abstract

This letter describes synthesis and evaluation of two series of dual mGlu2/mGlu3 positive allosteric modulators with moderate mGlu3 potency and robust mGlu2 potency in thallium flux assays. These compounds were profiled their ability to modulate mGlu3-mediated signaling in central neurons by co-application of a selective mGlu2 NAM to isolate mGlu3-selective effects. Using acute mouse brain slices from the prefrontal cortex, potentiation of group II mGlu receptor agonist Ca2+ signaling in PFC pyramidal cells with either the dual mGlu2/mGlu3 PAM 16e or 23d demonstrated effects mediated selectively via mGlu3.

Published
2021
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41. VU6010608, a Novel mGlu7 NAM from a Series of N-(2-(1H-1,2,4-Triazol-1-yl)-5-(trifluoromethoxy)phenyl)benzamides

Author

Colleen M. Niswender, Kevin M. McGowan, Carson W. Reed, Jerri M. Rook, Vincent B. Luscombe, Craig W. Lindsley, Annie L. Blobaum, Darren W. Engers, Matthew T. Loch, Hanna F. Roenfanz, P. Jeffrey Conn, Branden J. Stansley, Alice L. Rodriguez, Paul K. Spearing, Eileen M. Engelberg, and Daniel H. Remke

Subjects
0301 basic medicine, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, chemistry, Stereochemistry, Organic Chemistry, Drug Discovery, Benzamide, Biochemistry, 030217 neurology & neurosurgery, Cns penetration
Abstract

Herein, we report the structure–activity relationships within a series of mGlu7 NAMs based on an N-(2-(1H-1,2,4-triazol-1-yl)-5-(trifluoromethoxy)phenyl)benzamide core with excellent CNS penetration (Kp 1.9–5.8 and Kp,uu 0.4–1.4). Analogues in this series displayed steep SAR. Of these, VU6010608 (11a) emerged with robust efficacy in blocking high frequency stimulated long-term potentiation in electrophysiology studies.

Published
2017
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42. Discovery of VU6005649, a CNS Penetrant mGlu7/8 Receptor PAM Derived from a Series of Pyrazolo[1,5-a]pyrimidines

Author

Vincent B. Luscombe, Sichen Chang, Michael Bubser, Craig W. Lindsley, Joel M. Harp, Eileen M. Engelberg, Colleen M. Niswender, Darren W. Engers, P. Jeffrey Conn, Carrie K. Jones, Katrina A. Bollinger, Alice L. Rodriguez, Mabel Seto, Anna L. Blobaum, Rocco G. Gogliotti, Matthew T. Loch, and Masahito Abe

Subjects
0301 basic medicine, Pyrimidine, Chemistry, Stereochemistry, Organic Chemistry, Contextual fear, Biochemistry, Cns penetration, Receptor selectivity, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, In vivo, Drug Discovery, Receptor, 030217 neurology & neurosurgery
Abstract

Herein, we report the structure–activity relationships within a series of mGlu7 PAMs based on a pyrazolo[1,5-a]pyrimidine core with excellent CNS penetration (Kps > 1 and Kp,uus > 1). Analogues in this series proved to display a range of Group III mGlu receptor selectivity, but VU6005649 emerged as the first dual mGlu7/8 PAM, filling a void in the Group III mGlu receptor PAM toolbox and demonstrating in vivo efficacy in a mouse contextual fear conditioning model.

Published
2017
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43. Discovery of a novel, CNS penetrant M4 PAM chemotype based on a 6-fluoro-4-(piperidin-1-yl)quinoline-3-carbonitrile core

Author

Sichen Chang, Blake R. Bewley, P. Jeffrey Conn, Xiaoyan Zhan, Rebecca L. Weiner, Paul K. Spearing, Hyekyung P. Cho, Darren W. Engers, Alice L. Rodriguez, Vincent B. Luscombe, Craig W. Lindsley, Colleen M. Niswender, and Thomas M. Bridges

Subjects
0301 basic medicine, Chemotype, Chemistry, Stereochemistry, Drug discovery, Organic Chemistry, Clinical Biochemistry, Quinoline, Pharmaceutical Science, Rat brain, Biochemistry, Cns penetration, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, Drug Discovery, Molecular Medicine, Structure–activity relationship, Penetrant (biochemical), Molecular Biology, 030217 neurology & neurosurgery
Abstract

This Letter details the discovery and subsequent optimization of a novel M4 PAM scaffold based on an 6-fluoro-4-(piperidin-1-yl)quinoline-3-carbonitrile core, which represents a distinct departure from the classical M4 PAM chemotypes. Optimized compounds in this series demonstrated improved M4 PAM potency on both human and rat M4 (4 to 5-fold relative to HTS hit), and displayed attractive physicochemical and DMPK profiles, including good CNS penetration (rat brain:plasma Kp=5.3, Kp,uu=2.4; MDCK-MDR1 (P-gp) ER=1.1).

Published
2017
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44. Design and Synthesis of mGlu2 NAMs with Improved Potency and CNS Penetration Based on a Truncated Picolinamide Core

Author

Rebecca L. Weiner, Katrina A. Bollinger, Christopher J. Brassard, Hyekyung P. Cho, Julie L. Engers, Kyle A. Emmitte, Andrew S. Felts, Carrie K. Jones, Alice L. Rodriguez, Anna L. Blobaum, Craig W. Lindsley, P. Jeffrey Conn, Michael Bubser, Sichen Chang, and Colleen M. Niswender

Subjects
0301 basic medicine, Allosteric modulator, Chemistry, Stereochemistry, Organic Chemistry, Penetration (firestop), Biochemistry, Cns penetration, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Drug Discovery, Potency, Pet tracer, 030217 neurology & neurosurgery
Abstract

Herein, we detail the optimization of the mGlu2 negative allosteric modulator (NAM), VU6001192, by a reductionist approach to afford a novel, simplified mGlu2 NAM scaffold. This new chemotype not only affords potent and selective mGlu2 inhibition, as exemplified by VU6001966 (mGlu2 IC50 = 78 nM, mGlu3 IC50 > 30 μM), but also excellent central nervous system (CNS) penetration (Kp = 1.9, Kp,uu = 0.78), a feature devoid in all previously disclosed mGlu2 NAMs (Kps ≈ 0.3, Kp,uus ≈ 0.1). Moreover, this series, based on overall properties, represents an exciting lead series for potential mGlu2 PET tracer development.

Published
2017
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45. Discovery and optimization of 3-(4-aryl/heteroarylsulfonyl)piperazin-1-yl)-6-(piperidin-1-yl)pyridazines as novel, CNS penetrant pan-muscarinic antagonists

Author

Vincent B. Luscombe, Hyekyung P. Cho, Aaron M. Bender, P. Jeffrey Conn, Colleen M. Niswender, Rebecca L. Weiner, Sichen Chang, Xiaoyan Zhan, Darren W. Engers, Sonia Ajmera, Alice L. Rodriguez, Thomas M. Bridges, and Craig W. Lindsley

Subjects
Stereochemistry, Clinical Biochemistry, Pharmaceutical Science, CHO Cells, Muscarinic Antagonists, 01 natural sciences, Biochemistry, Article, Piperazines, Pyridazine, Structure-Activity Relationship, chemistry.chemical_compound, Cricetulus, Drug Discovery, Muscarinic acetylcholine receptor, Functional selectivity, Animals, Humans, Potency, Moiety, Structure–activity relationship, Piperazine, Molecular Biology, Receptor, Muscarinic M4, 010405 organic chemistry, Aryl, Organic Chemistry, Antagonist, Brain, Rats, 0104 chemical sciences, Pyridazines, 010404 medicinal & biomolecular chemistry, chemistry, Molecular Medicine
Abstract

This Letter describes the synthesis and structure activity relationship (SAR) studies of structurally novel M(4) antagonists, based on a 3-(4-aryl/heteroarylsulfonyl)piperazin-1-yl)-6-(piperidin-1-yl)pyridazine core, identified from a high-throughput screening campaign. A multidimensional optimization effort enhanced potency at human M(4) (hM(4) IC(50)s < 200 nM), with only moderate species differences noted, and with enantioselective inhibition. Moreover, CNS penetration proved attractive for this series (rat brain:plasma K(p) = 2.1, K(p,uu) = 1.1). Despite the absence of the prototypical mAChR antagonist basic or quaternary amine moiety, this series displayed pan-muscarinic antagonist activity across M(1-5) (with 9- to 16-fold functional selectivity at best). This series further expands the chemical diversity of mAChR antagonists.

Published
2017
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46. Challenges in the development of an M 4 PAM preclinical candidate: The discovery, SAR, and in vivo characterization of a series of 3-aminoazetidine-derived amides

Author

Meredith J. Noetzel, Colleen M. Niswender, Jeanette L. Bertron, P. Jeffrey Conn, Alice L. Rodriguez, James C. Tarr, Michael W. Wood, Sichen Chang, Atin Lamsal, Thomas M. Bridges, Michael R. Wood, Rebecca L. Weiner, Carrie K. Jones, Mark E. Duggan, Hyekyung P. Cho, Craig W. Lindsley, Nicholas J. Brandon, and Frank W. Byers

Subjects
0301 basic medicine, Stereochemistry, Clinical Biochemistry, Allosteric regulation, Azetidine, Pharmaceutical Science, Subtype selectivity, Biochemistry, Article, Pyridazine, Structure-Activity Relationship, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Allosteric Regulation, In vivo, Drug Discovery, Animals, Humans, Moiety, Molecular Biology, Dose-Response Relationship, Drug, Molecular Structure, Receptor, Muscarinic M4, Organic Chemistry, Amides, Rats, Disease Models, Animal, 030104 developmental biology, chemistry, Azetidines, Molecular Medicine, Efflux, 030217 neurology & neurosurgery
Abstract

This letter details the continued chemical optimization of a novel series of M4 positive allosteric modulators (PAMs) based on a 5-amino-thieno[2,3-c]pyridazine core by incorporating a 3-amino azetidine amide moiety. The analogs described within this work represent the most potent M4 PAMs reported for this series to date. The SAR to address potency, clearance, subtype selectivity, CNS exposure, and P-gp efflux are described. This work culminated in the discovery of VU6000918, which demonstrated robust efficacy in a rat amphetamine-induced hyperlocomotion reversal model at a minimum efficacious dose of 0.3 mg/kg. 2009 Elsevier Ltd. All rights reserved.

Published
2017
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47. Discovery of structurally distinct tricyclic M

Author

Kayla J, Temple, Madeline F, Long, Julie L, Engers, Katherine J, Watson, Sichen, Chang, Vincent B, Luscombe, Alice L, Rodriguez, Colleen M, Niswender, Thomas M, Bridges, P Jeffrey, Conn, Darren W, Engers, and Craig W, Lindsley

Subjects
Pyridazines, Inhibitory Concentration 50, Structure-Activity Relationship, Allosteric Regulation, Receptor, Muscarinic M4, Drug Design, Quinazolines, Animals, Humans, Triazoles, Half-Life, Rats
Abstract

This Letter details our efforts to develop new M

Published
2019

48. Discovery of a novel 3,4-dimethylcinnoline carboxamide M

Author

Kayla J, Temple, Julie L, Engers, Madeline F, Long, Alison R, Gregro, Katherine J, Watson, Sichen, Chang, Matthew T, Jenkins, Vincent B, Luscombe, Alice L, Rodriguez, Colleen M, Niswender, Thomas M, Bridges, P Jeffrey, Conn, Darren W, Engers, and Craig W, Lindsley

Subjects
Structure-Activity Relationship, Pyrimidines, Allosteric Regulation, Molecular Structure, Receptor, Muscarinic M4, Pyridines, Pyrazines, Azetidines, Benzene, Amides, Protein Binding
Abstract

This Letter details our efforts to replace the 2,4-dimethylquinoline carboxamide core of our previous M

Published
2019

49. Further exploration of an N-aryl phenoxyethoxy pyridinone-based series of mGlu

Author

Yosuke, Yamada, Samantha E, Yohn, Kristen, Gilliland, Mathew T, Loch, Michael L, Schulte, Alice L, Rodriguez, Anna L, Blobaum, Colleen M, Niswender, P Jeffrey, Conn, and Craig W, Lindsley

Subjects
Mice, Structure-Activity Relationship, Anti-Anxiety Agents, Dose-Response Relationship, Drug, Molecular Structure, Pyridones, Animals, Stereoisomerism, Receptors, Metabotropic Glutamate, Antidepressive Agents, Rats
Abstract

This letter describes the further optimization of a series of mGlu

Published
2019

50. Identification of Novel Allosteric Modulators of Metabotropic Glutamate Receptor Subtype 5 Acting at Site Distinct from 2-Methyl-6-(phenylethynyl)-pyridine Binding

Author

Shane E. Rainey, Jens Meiler, Alice L. Rodriguez, Mariusz Butkiewicz, Joshua M. Wieting, Shaun R. Stauffer, Craig W. Lindsley, P. Jeffrey Conn, and Vincent B. Luscombe

Subjects
Allosteric modulator, Physiology, Stereochemistry, Cognitive Neuroscience, Receptor, Metabotropic Glutamate 5, Allosteric regulation, CDPPB, Biochemistry, Article, 03 medical and health sciences, Structure-Activity Relationship, 0302 clinical medicine, Allosteric Regulation, Drug Discovery, Animals, Humans, Binding site, 030304 developmental biology, 0303 health sciences, Chemistry, Cell Biology, General Medicine, 2-Methyl-6-(phenylethynyl)pyridine, Ligand (biochemistry), High-Throughput Screening Assays, Metabotropic receptor, Metabotropic glutamate receptor, 030217 neurology & neurosurgery, Allosteric Site
Abstract

As part of the G-protein coupled receptor (GPCR) family, metabotropic glutamate (mGlu) receptors play an important role as drug targets of cognitive diseases. Selective allosteric modulators of mGlu subtype 5 (mGlu(5)) have the potential to alleviate symptoms of numerous central nervous system disorders such as schizophrenia in a more targeted fashion. Multiple mGlu(5) positive allosteric modulators (PAMs), such as 1-(3-fluorophenyl)-N-((3-fluorophenyl)-methylideneamino)-methanimine (DFB), 3-cyano-N-(1,3-diphenyl-1H-pyrazol-5-yl)-benzamide (CDPPB), and 4-nitro-N-(1,3-diphenyl-1H-pyrazol-5-yl)-benzamide (VU-29), exert their actions by binding to a defined allosteric site on mGlu(5) located in the seven-transmembrane domain (7TM) and shared by mGlu(5) negative allosteric modulator (NAM) 2-methyl-6-(phenylethynyl)-pyridine (MPEP). Actions of the PAM N-{4-chloro-2-[(1,3-dioxo-1,3-dihydro-2H-isoindol-2-yl)methyl]phenyl}-2-hydroxybenzamide (CPPHA) are mediated by a distinct allosteric site in the 7TM domain different from the MPEP binding site. Experimental evidence confirms these findings through mutagenesis experiments involving residues F585 (TM1) and A809 (TM7). In an effort to investigate mGlu(5) PAM selectivity for this alternative allosteric site distinct from MPEP binding, we employed in silico quantitative structure–activity relationship (QSAR) modeling. Subsequent ligand-based virtual screening prioritized a set of 63 candidate compounds predicted from a library of over 4 million commercially available compounds to bind exclusively to this novel site. Experimental validation verified the biological activity for seven of 63 selected candidates. Further, medicinal chemistry optimizations based on these molecules revealed compound VU6003586 with an experimentally validated potency of 174 nM. Radioligand binding experiments showed only partial inhibition at very high concentrations, most likely indicative of binding at a non-MPEP site. Selective positive allosteric modulators for mGlu(5) have the potential for tremendous impact concerning devastating neurological disorders such as schizophrenia and Huntington’s disease. These identified and validated novel selective compounds can serve as starting points for more specifically tailored lead and probe molecules and thus help the development of potential therapeutic agents with reduced adverse effects.

Published
2019

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