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Literature DB >> 19800804

Structure-based drug design identifies novel LPA3 antagonists.

James I Fells¹, Ryoko Tsukahara, Jianxiong Liu, Gabor Tigyi, Abby L Parrill.

Abstract

Compound 5 ([5-(3-nitrophenoxy)-1,3-dioxo-1,3-dihydro-2-isoindol-2-yl]acetic acid) was identified as a weak selective LPA(3) antagonist (IC(50)=4504 nM) in a virtual screening effort to optimize a dual LPA(2 and 3) antagonist. Structure-based drug design techniques were used to prioritize similarity search matches of compound 5. This strategy rapidly identified 10 novel antagonists. The two most efficacious compounds identified inhibit activation of the LPA(3) receptor by 200 nM LPA with IC(50) values of 752 nM and 2992 nM. These compounds additionally define changes to our previously reported pharmacophore that will improve its ability to identify more potent and selective LPA(3) receptor antagonists. The results of the combined computational and experimental screening are reported.

Entities: Chemical Disease Gene

Mesh：

Substances：

Year: 2009 PMID： 19800804 PMCID： PMC2771199 DOI： 10.1016/j.bmc.2009.09.022

Source DB: PubMed Journal: Bioorg Med Chem ISSN： 0968-0896 Impact factor: 3.641

22 in total

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Authors: Joseph L Durant; Burton A Leland; Douglas R Henry; James G Nourse
Journal: J Chem Inf Comput Sci Date: 2002 Nov-Dec

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Authors: Brian H Heasley; Renata Jarosz; Kevin R Lynch; Timothy L Macdonald
Journal: Bioorg Med Chem Lett Date: 2004-06-07 Impact factor: 2.823

3. Short-chain phosphatidates are subtype-selective antagonists of lysophosphatidic acid receptors.

Authors: D J Fischer; N Nusser; T Virag; K Yokoyama; D L Baker; D Bautista; A L Parrill; G Tigyi
Journal: Mol Pharmacol Date: 2001-10 Impact factor: 4.436

4. Synthesis, structure-activity relationships, and biological evaluation of fatty alcohol phosphates as lysophosphatidic acid receptor ligands, activators of PPARgamma, and inhibitors of autotaxin.

Authors: Gangadhar G Durgam; Tamas Virag; Michelle D Walker; Ryoko Tsukahara; Satoshi Yasuda; Karoly Liliom; Laurens A van Meeteren; Wouter H Moolenaar; Nicole Wilke; Wolfgang Siess; Gabor Tigyi; Duane D Miller
Journal: J Med Chem Date: 2005-07-28 Impact factor: 7.446

Review 5. LPA and its analogs-attractive tools for elucidation of LPA biology and drug development.

Authors: Kuniyuki Kano; Naoaki Arima; Mitsuru Ohgami; Junken Aoki
Journal: Curr Med Chem Date: 2008 Impact factor: 4.530

6. Ki16425, a subtype-selective antagonist for EDG-family lysophosphatidic acid receptors.

Authors: Hideo Ohta; Koichi Sato; Naoya Murata; Alatangaole Damirin; Enkhzol Malchinkhuu; Junko Kon; Takao Kimura; Masayuki Tobo; Yuji Yamazaki; Tomoko Watanabe; Mikio Yagi; Motoko Sato; Rika Suzuki; Hideko Murooka; Teruyuki Sakai; Tsuyoshi Nishitoba; Dong-Soon Im; Hiromi Nochi; Koichi Tamoto; Hideaki Tomura; Fumikazu Okajima
Journal: Mol Pharmacol Date: 2003-10 Impact factor: 4.436

7. Fatty alcohol phosphates are subtype-selective agonists and antagonists of lysophosphatidic acid receptors.

Authors: Tamas Virag; Don B Elrod; Karoly Liliom; Vineet M Sardar; Abby L Parrill; Kazuaki Yokoyama; Gangadhar Durgam; Wenlin Deng; Duane D Miller; Gabor Tigyi
Journal: Mol Pharmacol Date: 2003-05 Impact factor: 4.436

8. A novel series of 2-pyridyl-containing compounds as lysophosphatidic acid receptor antagonists: development of a nonhydrolyzable LPA3 receptor-selective antagonist.

Authors: Brian H Heasley; Renata Jarosz; Karen M Carter; S Jenny Van; Kevin R Lynch; Timothy L Macdonald
Journal: Bioorg Med Chem Lett Date: 2004-08-02 Impact factor: 2.823

Review 9. Molecular basis for lysophosphatidic acid receptor antagonist selectivity.

Authors: Vineet M Sardar; Debra L Bautista; David J Fischer; Kazuaki Yokoyama; Nora Nusser; Tamas Virag; De-an Wang; Daniel L Baker; Gabor Tigyi; Abby L Parrill
Journal: Biochim Biophys Acta Date: 2002-05-23

Review 10. Structure-activity relationships of lysophosphatidic acid analogs.

Authors: Kevin R Lynch; Timothy L Macdonald
Journal: Biochim Biophys Acta Date: 2002-05-23

7 in total

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Journal: Acta Pharmacol Sin Date: 2010-08-23 Impact factor: 6.150

2. 2D binary QSAR modeling of LPA3 receptor antagonism.

Authors: James I Fells; Ryoko Tsukahara; Jianxiong Liu; Gabor Tigyi; Abby L Parrill
Journal: J Mol Graph Model Date: 2010-03-07 Impact factor: 2.518

3. Lysophosphatidic acid acts on LPA₁ receptor to increase H₂ O₂ during flow-induced dilation in human adipose arterioles.

Authors: Dawid S Chabowski; Andrew O Kadlec; Karima Ait-Aissa; Joseph C Hockenberry; Paul J Pearson; Andreas M Beyer; David D Gutterman
Journal: Br J Pharmacol Date: 2018-10-11 Impact factor: 8.739

Review 4. Aiming drug discovery at lysophosphatidic acid targets.

Authors: Gabor Tigyi
Journal: Br J Pharmacol Date: 2010-09 Impact factor: 8.739

5. Structural Characterization of an LPA1 Second Extracellular Loop Mimetic with a Self-Assembling Coiled-Coil Folding Constraint.

Authors: John K Young; Benjamin T Clayton; Alexandra Kikonyogo; Truc-Chi T Pham; Abby L Parrill
Journal: Int J Mol Sci Date: 2013-01-29 Impact factor: 5.923

6. Compensatory Upregulation of LPA₂ and Activation of the PI3K-Akt Pathway Prevent LPA₅-Dependent Loss of Intestinal Epithelial Cells in Intestinal Organoids.

Authors: Zhongxing Liang; C Chris Yun
Journal: Cells Date: 2022-07-20 Impact factor: 7.666

Review 7. The LPA₃ Receptor: Regulation and Activation of Signaling Pathways.

Authors: Karina Helivier Solís; M Teresa Romero-Ávila; Alejandro Guzmán-Silva; J Adolfo García-Sáinz
Journal: Int J Mol Sci Date: 2021-06-23 Impact factor: 5.923