Literature DB >> 23477365

The development of highly potent inhibitors for porcupine.

Xiaolei Wang1, Jesung Moon, Michael E Dodge, Xinchao Pan, Lishu Zhang, Jordan M Hanson, Rubina Tuladhar, Zhiqiang Ma, Heping Shi, Noelle S Williams, James F Amatruda, Thomas J Carroll, Lawrence Lum, Chuo Chen.   

Abstract

Porcupine is a member of the membrane-bound O-acyltransferase family of proteins. It catalyzes the palmitoylation of Wnt proteins, a process required for their secretion and activity. We recently disclosed a class of small molecules (IWPs) as the first reported Porcn inhibitors. We now describe the structure-activity relationship studies and the identification of subnanomolar inhibitors. We also report herein the effects of IWPs on Wnt-dependent developmental processes, including zebrafish posterior axis formation and kidney tubule formation.

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Year:  2013        PMID: 23477365      PMCID: PMC3631274          DOI: 10.1021/jm400159c

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


  16 in total

1.  In vivo Wnt signaling tracing through a transgenic biosensor fish reveals novel activity domains.

Authors:  Enrico Moro; Gunes Ozhan-Kizil; Alessandro Mongera; Dimitris Beis; Claudia Wierzbicki; Rodrigo M Young; Despina Bournele; Alice Domenichini; Leonardo E Valdivia; Lawrence Lum; Chuo Chen; James F Amatruda; Natascia Tiso; Gilbert Weidinger; Francesco Argenton
Journal:  Dev Biol       Date:  2012-04-21       Impact factor: 3.582

2.  Tankyrase is necessary for canonical Wnt signaling during kidney development.

Authors:  Courtney M Karner; Calli E Merkel; Michael Dodge; Zhiqiang Ma; Jianming Lu; Chuo Chen; Lawrence Lum; Thomas J Carroll
Journal:  Dev Dyn       Date:  2010-07       Impact factor: 3.780

3.  Utility of the carboxylesterase inhibitor bis-para-nitrophenylphosphate (BNPP) in the plasma unbound fraction determination for a hydrolytically unstable amide derivative and agonist of the TGR5 receptor.

Authors:  H Eng; M Niosi; T S McDonald; A Wolford; Y Chen; S T M Simila; J N Bauman; J Warmus; A S Kalgutkar
Journal:  Xenobiotica       Date:  2010-06       Impact factor: 1.908

4.  Genome-wide RNAi screen reveals disease-associated genes that are common to Hedgehog and Wnt signaling.

Authors:  Leni S Jacob; Xiaofeng Wu; Michael E Dodge; Chih-Wei Fan; Ozlem Kulak; Baozhi Chen; Wei Tang; Baolin Wang; James F Amatruda; Lawrence Lum
Journal:  Sci Signal       Date:  2011-01-25       Impact factor: 8.192

5.  Significant species difference in amide hydrolysis of GDC-0834, a novel potent and selective Bruton's tyrosine kinase inhibitor.

Authors:  Lichuan Liu; Jason S Halladay; Young Shin; Susan Wong; Melis Coraggio; Hank La; Matthew Baumgardner; Hoa Le; Sashi Gopaul; Jason Boggs; Peter Kuebler; John C Davis; X Charlene Liao; Joseph W Lubach; Alan Deese; C Gregory Sowell; Kevin S Currie; Wendy B Young; S Cyrus Khojasteh; Cornelis E C A Hop; Harvey Wong
Journal:  Drug Metab Dispos       Date:  2011-07-08       Impact factor: 3.922

6.  Esterase activities in the blood, liver and intestine of several preclinical species and humans.

Authors:  Loren M Berry; Lance Wollenberg; Zhiyang Zhao
Journal:  Drug Metab Lett       Date:  2009-04

7.  Structure-activity relationship studies of small-molecule inhibitors of Wnt response.

Authors:  Jianming Lu; Zhiqiang Ma; Jen-Chieh Hsieh; Chih-Wei Fan; Baozhi Chen; Jamie C Longgood; Noelle S Williams; James F Amatruda; Lawrence Lum; Chuo Chen
Journal:  Bioorg Med Chem Lett       Date:  2009-04-18       Impact factor: 2.823

8.  Identification of the acyltransferase that octanoylates ghrelin, an appetite-stimulating peptide hormone.

Authors:  Jing Yang; Michael S Brown; Guosheng Liang; Nick V Grishin; Joseph L Goldstein
Journal:  Cell       Date:  2008-02-08       Impact factor: 41.582

9.  Pharmacological inhibition of the Wnt acyltransferase PORCN prevents growth of WNT-driven mammary cancer.

Authors:  Kyle David Proffitt; Babita Madan; Zhiyuan Ke; Vishal Pendharkar; Lijun Ding; May Ann Lee; Rami N Hannoush; David M Virshup
Journal:  Cancer Res       Date:  2012-11-27       Impact factor: 12.701

10.  Small molecule-mediated disruption of Wnt-dependent signaling in tissue regeneration and cancer.

Authors:  Baozhi Chen; Michael E Dodge; Wei Tang; Jianming Lu; Zhiqiang Ma; Chih-Wei Fan; Shuguang Wei; Wayne Hao; Jessica Kilgore; Noelle S Williams; Michael G Roth; James F Amatruda; Chuo Chen; Lawrence Lum
Journal:  Nat Chem Biol       Date:  2009-01-04       Impact factor: 15.040
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  39 in total

Review 1.  Small-molecule inhibitors of Wnt signaling pathway: towards novel anticancer therapeutics.

Authors:  Shilong Zheng; Jiawang Liu; Yanyuan Wu; Tien L Huang; Guangdi Wang
Journal:  Future Med Chem       Date:  2015-12-16       Impact factor: 3.808

2.  Fatty acylation of Wnt proteins.

Authors:  Aaron H Nile; Rami N Hannoush
Journal:  Nat Chem Biol       Date:  2016-02       Impact factor: 15.040

3.  Discovery of Pyridinyl Acetamide Derivatives as Potent, Selective, and Orally Bioavailable Porcupine Inhibitors.

Authors:  Dai Cheng; Jun Liu; Dong Han; Guobao Zhang; Wenqi Gao; Mindy H Hsieh; Nicholas Ng; Shailaja Kasibhatla; Celin Tompkins; Jie Li; Auzon Steffy; Fangxian Sun; Chun Li; H Martin Seidel; Jennifer L Harris; Shifeng Pan
Journal:  ACS Med Chem Lett       Date:  2016-05-10       Impact factor: 4.345

Review 4.  Chemical Disruption of Wnt-dependent Cell Fate Decision-making Mechanisms in Cancer and Regenerative Medicine.

Authors:  L Lum; C Chen
Journal:  Curr Med Chem       Date:  2015       Impact factor: 4.530

5.  Disparate levels of beta-catenin activity determine nephron progenitor cell fate.

Authors:  Harini Ramalingam; Alicia R Fessler; Amrita Das; M Todd Valerius; Jeannine Basta; Lynn Robbins; Aaron C Brown; Leif Oxburgh; Andrew P McMahon; Michael Rauchman; Thomas J Carroll
Journal:  Dev Biol       Date:  2018-04-26       Impact factor: 3.582

Review 6.  Modulating the wnt signaling pathway with small molecules.

Authors:  Freddi Huan Tran; Jie J Zheng
Journal:  Protein Sci       Date:  2017-02-11       Impact factor: 6.725

7.  An Underlying Mechanism of Dual Wnt Inhibition and AMPK Activation: Mitochondrial Uncouplers Masquerading as Wnt Inhibitors.

Authors:  Wen Zhang; Vitaliy M Sviripa; Liliia M Kril; Tianxin Yu; Yanqi Xie; W Brad Hubbard; Patrick G Sullivan; Xi Chen; Chang-Guo Zhan; Yang Yang-Hartwich; B Mark Evers; Brett T Spear; Roberto Gedaly; David S Watt; Chunming Liu
Journal:  J Med Chem       Date:  2019-12-16       Impact factor: 7.446

8.  Polarization of Reactive Astrocytes in Response to Spinal Cord Injury is Enhanced by M2 Macrophage-Mediated Activation of Wnt/β-Catenin Pathway.

Authors:  Iki Sonn; Masaya Nakamura; Francois Renault-Mihara; Hideyuki Okano
Journal:  Mol Neurobiol       Date:  2019-12-17       Impact factor: 5.590

9.  Distinct Cation Gradients Power Cholesterol Transport at Different Key Points in the Hedgehog Signaling Pathway.

Authors:  Kostadin Petrov; Bradley M Wierbowski; Jingjing Liu; Adrian Salic
Journal:  Dev Cell       Date:  2020-08-28       Impact factor: 12.270

10.  Structure-Based Design of 1,4-Dibenzoylpiperazines as β-Catenin/B-Cell Lymphoma 9 Protein-Protein Interaction Inhibitors.

Authors:  John A Wisniewski; Jinya Yin; Kevin B Teuscher; Min Zhang; Haitao Ji
Journal:  ACS Med Chem Lett       Date:  2016-03-28       Impact factor: 4.345
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