Literature DB >> 31535859

Structural Basis for Achieving GSK-3β Inhibition with High Potency, Selectivity, and Brain Exposure for Positron Emission Tomography Imaging and Drug Discovery.

Vadim Bernard-Gauthier1,2,3, Andrew V Mossine4, Ashley Knight1,2,5, Debasis Patnaik6, Wen-Ning Zhao6, Chialin Cheng6, Hema S Krishnan3, Lucius L Xuan6, Peter S Chindavong6, Surya A Reis6, Jinshan Michael Chen7, Xia Shao4, Jenelle Stauff4, Janna Arteaga4, Phillip Sherman4, Nicolas Salem8, David Bonsall9, Brenda Amaral8, Cassis Varlow1, Lisa Wells9, Laurent Martarello8, Shil Patel5, Steven H Liang3, Ravi G Kurumbail7, Stephen J Haggarty6, Peter J H Scott4,10, Neil Vasdev1,2,3.   

Abstract

Using structure-guided design, several cell based assays, and microdosed positron emission tomography (PET) imaging, we identified a series of highly potent, selective, and brain-penetrant oxazole-4-carboxamide-based inhibitors of glycogen synthase kinase-3 (GSK-3). An isotopologue of our first-generation lead, [3H]PF-367, demonstrates selective and specific target engagement in vitro, irrespective of the activation state. We discovered substantial ubiquitous GSK-3-specific radioligand binding in Tg2576 Alzheimer's disease (AD), suggesting application for these compounds in AD diagnosis and identified [11C]OCM-44 as our lead GSK-3 radiotracer, with optimized brain uptake by PET imaging in nonhuman primates. GSK-3β-isozyme selectivity was assessed to reveal OCM-51, the most potent (IC50 = 0.030 nM) and selective (>10-fold GSK-3β/GSK-3α) GSK-3β inhibitor known to date. Inhibition of CRMP2T514 and tau phosphorylation, as well as favorable therapeutic window against WNT/β-catenin signaling activation, was observed in cells.

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Year:  2019        PMID: 31535859      PMCID: PMC6883410          DOI: 10.1021/acs.jmedchem.9b01030

Source DB:  PubMed          Journal:  J Med Chem        ISSN: 0022-2623            Impact factor:   7.446


  48 in total

Review 1.  The renaissance of GSK3.

Authors:  P Cohen; S Frame
Journal:  Nat Rev Mol Cell Biol       Date:  2001-10       Impact factor: 94.444

Review 2.  GSK3 inhibitors: development and therapeutic potential.

Authors:  Philip Cohen; Michel Goedert
Journal:  Nat Rev Drug Discov       Date:  2004-06       Impact factor: 84.694

Review 3.  GSK3 signalling in neural development.

Authors:  Eun-Mi Hur; Feng-Quan Zhou
Journal:  Nat Rev Neurosci       Date:  2010-08       Impact factor: 34.870

4.  Docking ligands into flexible and solvated macromolecules. 5. Force-field-based prediction of binding affinities of ligands to proteins.

Authors:  Pablo Englebienne; Nicolas Moitessier
Journal:  J Chem Inf Model       Date:  2009-11       Impact factor: 4.956

Review 5.  Glycogen Synthase Kinase 3: A Kinase for All Pathways?

Authors:  Prital Patel; James R Woodgett
Journal:  Curr Top Dev Biol       Date:  2016-12-28       Impact factor: 4.897

Review 6.  Kinase inhibitors: the road ahead.

Authors:  Fleur M Ferguson; Nathanael S Gray
Journal:  Nat Rev Drug Discov       Date:  2018-03-16       Impact factor: 84.694

7.  Requirement for glycogen synthase kinase-3beta in cell survival and NF-kappaB activation.

Authors:  K P Hoeflich; J Luo; E A Rubie; M S Tsao; O Jin; J R Woodgett
Journal:  Nature       Date:  2000-07-06       Impact factor: 49.962

8.  Molecular cloning and expression of glycogen synthase kinase-3/factor A.

Authors:  J R Woodgett
Journal:  EMBO J       Date:  1990-08       Impact factor: 11.598

9.  Divergent roles of GSK3 and CDK5 in APP processing.

Authors:  John Ryder; Yuan Su; Feng Liu; Baolin Li; Yan Zhou; Binhui Ni
Journal:  Biochem Biophys Res Commun       Date:  2003-12-26       Impact factor: 3.575

10.  Cell type- and brain region-resolved mouse brain proteome.

Authors:  Kirti Sharma; Sebastian Schmitt; Caroline G Bergner; Stefka Tyanova; Nirmal Kannaiyan; Natalia Manrique-Hoyos; Karina Kongi; Ludovico Cantuti; Uwe-Karsten Hanisch; Mari-Anne Philips; Moritz J Rossner; Matthias Mann; Mikael Simons
Journal:  Nat Neurosci       Date:  2015-11-02       Impact factor: 24.884
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  9 in total

1.  Differentiation of Human Induced Pluripotent Stem Cells into Cortical Neurons to Advance Precision Medicine.

Authors:  M Catarina Silva; Ghata Nandi; Stephen J Haggarty
Journal:  Methods Mol Biol       Date:  2022

2.  PET imaging of glycogen synthase kinase-3 in pancreatic cancer xenograft mouse models.

Authors:  Amanda J Boyle; Andrea Narvaez; Melissa Chassé; Neil Vasdev
Journal:  Am J Nucl Med Mol Imaging       Date:  2022-02-15

3.  In Vitro and In Vivo Evaluation of GSK-3 Radioligands in Alzheimer's Disease: Preliminary Evidence of Sex Differences.

Authors:  Ashley C Knight; Cassis Varlow; Junchao Tong; Neil Vasdev
Journal:  ACS Pharmacol Transl Sci       Date:  2021-07-20

4.  NRM 2021 Abstract Booklet.

Authors: 
Journal:  J Cereb Blood Flow Metab       Date:  2021-12       Impact factor: 6.960

5.  Radiofluorination of oxazole-carboxamides for preclinical PET neuroimaging of GSK-3.

Authors:  Cassis Varlow; Andrew V Mossine; Vadim Bernard-Gauthier; Peter J H Scott; Neil Vasdev
Journal:  J Fluor Chem       Date:  2021-02-21       Impact factor: 2.050

Review 6.  Advances toward precision medicine for bipolar disorder: mechanisms & molecules.

Authors:  Stephen J Haggarty; Rakesh Karmacharya; Roy H Perlis
Journal:  Mol Psychiatry       Date:  2020-07-07       Impact factor: 13.437

Review 7.  Positron Emission Tomography in Animal Models of Tauopathies.

Authors:  Lei Cao; Yanyan Kong; Bin Ji; Yutong Ren; Yihui Guan; Ruiqing Ni
Journal:  Front Aging Neurosci       Date:  2022-01-10       Impact factor: 5.750

8.  Characterization of neuroinflammatory positron emission tomography biomarkers in chronic traumatic encephalopathy.

Authors:  Cassis Varlow; Ashley C Knight; Paul McQuade; Neil Vasdev
Journal:  Brain Commun       Date:  2022-02-03

Review 9.  Premise and peril of Wnt signaling activation through GSK-3β inhibition.

Authors:  Samuel M Law; Jie J Zheng
Journal:  iScience       Date:  2022-03-25
  9 in total

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