Literature DB >> 29275231

Development of inhibitors of receptor protein tyrosine phosphatase β/ζ (PTPRZ1) as candidates for CNS disorders.

Miryam Pastor1, Rosalía Fernández-Calle2, Bruno Di Geronimo1, Marta Vicente-Rodríguez2, José María Zapico1, Esther Gramage2, Claire Coderch1, Carmen Pérez-García2, Amy W Lasek3, Leonor Puchades-Carrasco4, Antonio Pineda-Lucena4, Beatriz de Pascual-Teresa5, Gonzalo Herradón6, Ana Ramos7.   

Abstract

A new series of blood-brain barrier permeable molecules designed to mimic the activity of Pleiotrophin in the CNS has been designed and synthesized. These compounds exert their action by interacting with the intracellular domain PD1 of the Protein Tyrosine-Phosphatase Receptor Z1 (PTPRZ1), and inhibiting its tyrosine phosphatase activity. The most potent compounds 10a and 12b (IC50 = 0,1 μM) significantly increase the phosphorylation of key tyrosine residues of PTPRZ1 substrates involved in neuronal survival and differentiation, and display protective effects against amphetamine-induced toxicity. Docking and molecular dynamics experiments have been used to analyze the binding mode and to explain the observed selectivity against PTP1B. An In vivo experiment has demonstrated that 10a can cross the BBB, thus promoting the possibility of moving forward these candidates for the development of drugs for the treatment of CNS disorders, such as drug addiction and neurodegenerative diseases.
Copyright © 2017 Elsevier Masson SAS. All rights reserved.

Entities:  

Keywords:  CNS disorders; Drug addiction; Molecular dynamics; PTPRZ1; Synthesis

Mesh:

Substances:

Year:  2017        PMID: 29275231      PMCID: PMC5817915          DOI: 10.1016/j.ejmech.2017.11.080

Source DB:  PubMed          Journal:  Eur J Med Chem        ISSN: 0223-5234            Impact factor:   6.514


  55 in total

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Authors:  Sara E Gombash; Jack W Lipton; Timothy J Collier; Lalitha Madhavan; Kathy Steece-Collier; Allyson Cole-Strauss; Brian T Terpstra; Anne L Spieles-Engemann; Brian F Daley; Susan L Wohlgenant; Valerie B Thompson; Fredric P Manfredsson; Ronald J Mandel; Caryl E Sortwell
Journal:  Mol Ther       Date:  2011-10-18       Impact factor: 11.454

2.  Genetic inactivation of pleiotrophin triggers amphetamine-induced cell loss in the substantia nigra and enhances amphetamine neurotoxicity in the striatum.

Authors:  E Gramage; L Rossi; N Granado; R Moratalla; G Herradón
Journal:  Neuroscience       Date:  2010-07-08       Impact factor: 3.590

3.  Genetic inactivation of midkine modulates behavioural responses to ethanol possibly by enhancing GABA(A) receptor sensitivity to GABA(A) acting drugs.

Authors:  Marta Vicente-Rodríguez; Carmen Pérez-García; María Haro; María P Ramos; Gonzalo Herradón
Journal:  Behav Brain Res       Date:  2014-08-19       Impact factor: 3.332

4.  Upregulation of pleiotrophin gene expression in developing microvasculature, macrophages, and astrocytes after acute ischemic brain injury.

Authors:  H J Yeh; Y Y He; J Xu; C Y Hsu; T F Deuel
Journal:  J Neurosci       Date:  1998-05-15       Impact factor: 6.167

Review 5.  Principles of strategic drug delivery to the brain (SDDB): development of anorectic and orexigenic analogs of leptin.

Authors:  W A Banks; A Gertler; G Solomon; L Niv-Spector; M Shpilman; X Yi; E Batrakova; S Vinogradov; A V Kabanov
Journal:  Physiol Behav       Date:  2011-06-06

Review 6.  Targeting midkine and pleiotrophin signalling pathways in addiction and neurodegenerative disorders: recent progress and perspectives.

Authors:  G Herradón; C Pérez-García
Journal:  Br J Pharmacol       Date:  2014-02       Impact factor: 8.739

7.  Insights into the reaction of protein-tyrosine phosphatase 1B: crystal structures for transition state analogs of both catalytic steps.

Authors:  Tiago A S Brandão; Alvan C Hengge; Sean J Johnson
Journal:  J Biol Chem       Date:  2010-03-16       Impact factor: 5.157

8.  6B4 proteoglycan/phosphacan, an extracellular variant of receptor-like protein-tyrosine phosphatase zeta/RPTPbeta, binds pleiotrophin/heparin-binding growth-associated molecule (HB-GAM).

Authors:  N Maeda; T Nishiwaki; T Shintani; H Hamanaka; M Noda
Journal:  J Biol Chem       Date:  1996-08-30       Impact factor: 5.157

Review 9.  Midkine and Pleiotrophin in the Treatment of Neurodegenerative Diseases and Drug Addiction.

Authors:  Luis F Alguacil; Gonzalo Herradón
Journal:  Recent Pat CNS Drug Discov       Date:  2015

10.  Pleiotrophin differentially regulates the rewarding and sedative effects of ethanol.

Authors:  Marta Vicente-Rodríguez; Carmen Pérez-García; Marcel Ferrer-Alcón; María Uribarri; María G Sánchez-Alonso; María P Ramos; Gonzalo Herradón
Journal:  J Neurochem       Date:  2014-08-21       Impact factor: 5.372
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  11 in total

Review 1.  Protein Tyrosine Phosphatase Receptor Type Z in Central Nervous System Disease.

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Journal:  Int J Mol Sci       Date:  2022-04-16       Impact factor: 6.208

2.  Pharmacological inhibition of Receptor Protein Tyrosine Phosphatase β/ζ (PTPRZ1) modulates behavioral responses to ethanol.

Authors:  Rosalía Fernández-Calle; Marta Vicente-Rodríguez; Miryam Pastor; Esther Gramage; Bruno Di Geronimo; José María Zapico; Claire Coderch; Carmen Pérez-García; Amy W Lasek; Beatriz de Pascual-Teresa; Ana Ramos; Gonzalo Herradón
Journal:  Neuropharmacology       Date:  2018-05-09       Impact factor: 5.250

3.  Protein Tyrosine Phosphatase β/ζ and Alcohol Use Disorder: A Commentary.

Authors:  Carolina L Haass-Koffler
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4.  Investigation of candidate genes and mechanisms underlying obesity associated type 2 diabetes mellitus using bioinformatics analysis and screening of small drug molecules.

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5.  Protein tyrosine phosphatase receptor-ζ1 deletion triggers defective heart morphogenesis in mice and zebrafish.

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Journal:  Am J Physiol Heart Circ Physiol       Date:  2021-11-12       Impact factor: 5.125

Review 6.  Receptor Tyrosine Kinases as Therapeutic Targets for Alcohol Use Disorder.

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7.  Role of Receptor Protein Tyrosine Phosphatase β/ζ in Neuron-Microglia Communication in a Cellular Model of Parkinson's Disease.

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8.  Role of RPTPβ/ζ in neuroinflammation and microglia-neuron communication.

Authors:  Rosalía Fernández-Calle; Milagros Galán-Llario; Esther Gramage; Begoña Zapatería; Marta Vicente-Rodríguez; José M Zapico; Beatriz de Pascual-Teresa; Ana Ramos; M Pilar Ramos-Álvarez; María Uribarri; Marcel Ferrer-Alcón; Gonzalo Herradón
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Review 9.  Role of Receptor Protein Tyrosine Phosphatases (RPTPs) in Insulin Signaling and Secretion.

Authors:  Julio Sevillano; María Gracia Sánchez-Alonso; Javier Pizarro-Delgado; María Del Pilar Ramos-Álvarez
Journal:  Int J Mol Sci       Date:  2021-05-28       Impact factor: 5.923

Review 10.  Protein Tyrosine Phosphatases in Neuroblastoma: Emerging Roles as Biomarkers and Therapeutic Targets.

Authors:  Caroline E Nunes-Xavier; Laura Zaldumbide; Lorena Mosteiro; Ricardo López-Almaraz; Nagore García de Andoin; Pablo Aguirre; Maite Emaldi; Leire Torices; José I López; Rafael Pulido
Journal:  Front Cell Dev Biol       Date:  2021-12-08
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