Literature DB >> 21875074

Production of ES1 plasma carboxylesterase knockout mice for toxicity studies.

Ellen G Duysen1, Frank Koentgen, Gareth R Williams, Christopher M Timperley, Lawrence M Schopfer, Douglas M Cerasoli, Oksana Lockridge.   

Abstract

The LD(50) for soman is 10-20-fold higher for a mouse than a human. The difference in susceptibility is attributed to the presence of carboxylesterase in mouse but not in human plasma. Our goal was to make a mouse lacking plasma carboxylesterase. We used homologous recombination to inactivate the carboxylesterase ES1 gene on mouse chromosome 8 by deleting exon 5 and by introducing a frame shift for amino acids translated from exons 6 to 13. ES1-/- mice have no detectable carboxylesterase activity in plasma but have normal carboxylesterase activity in tissues. Homozygous ES1-/- mice and wild-type littermates were tested for response to a nerve agent model compound (soman coumarin) at 3 mg/kg sc. This dose intoxicated both genotypes but was lethal only to ES1-/- mice. This demonstrated that plasma carboxylesterase protects against a relatively high toxicity organophosphorus compound. The ES1-/- mouse should be an appropriate model for testing highly toxic nerve agents and for evaluating protection strategies against the toxicity of nerve agents.

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Year:  2011        PMID: 21875074      PMCID: PMC3221923          DOI: 10.1021/tx200237a

Source DB:  PubMed          Journal:  Chem Res Toxicol        ISSN: 0893-228X            Impact factor:   3.739


  31 in total

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Review 2.  Structure, function and regulation of carboxylesterases.

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Journal:  Chem Biol Interact       Date:  2006-07-06       Impact factor: 5.192

3.  Butyrylcholinesterase, paraoxonase, and albumin esterase, but not carboxylesterase, are present in human plasma.

Authors:  Bin Li; Meghan Sedlacek; Indumathi Manoharan; Rathnam Boopathy; Ellen G Duysen; Patrick Masson; Oksana Lockridge
Journal:  Biochem Pharmacol       Date:  2005-10-06       Impact factor: 5.858

4.  Directed evolution of hydrolases for prevention of G-type nerve agent intoxication.

Authors:  Rinkoo D Gupta; Moshe Goldsmith; Yacov Ashani; Yair Simo; Gavriel Mullokandov; Hagit Bar; Moshe Ben-David; Haim Leader; Raanan Margalit; Israel Silman; Joel L Sussman; Dan S Tawfik
Journal:  Nat Chem Biol       Date:  2011-01-09       Impact factor: 15.040

5.  Activation of CPT-11 in mice: identification and analysis of a highly effective plasma esterase.

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6.  A murine model for sarin exposure using the carboxylesterase inhibitor CBDP.

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7.  Engineering the mouse genome to model human disease for drug discovery.

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Journal:  Methods Mol Biol       Date:  2010

8.  Pseudo-esterase activity of human albumin: slow turnover on tyrosine 411 and stable acetylation of 82 residues including 59 lysines.

Authors:  Oksana Lockridge; Weihua Xue; Andrea Gaydess; Hasmik Grigoryan; Shi-Jian Ding; Lawrence M Schopfer; Steven H Hinrichs; Patrick Masson
Journal:  J Biol Chem       Date:  2008-06-24       Impact factor: 5.157

9.  Inhibitory potency against human acetylcholinesterase and enzymatic hydrolysis of fluorogenic nerve agent mimics by human paraoxonase 1 and squid diisopropyl fluorophosphatase.

Authors:  Marc-Michael Blum; Christopher M Timperley; Gareth R Williams; Horst Thiermann; Franz Worek
Journal:  Biochemistry       Date:  2008-04-09       Impact factor: 3.162

10.  Analogues with fluorescent leaving groups for screening and selection of enzymes that efficiently hydrolyze organophosphorus nerve agents.

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  19 in total

1.  Phospho-NSAIDs have enhanced efficacy in mice lacking plasma carboxylesterase: implications for their clinical pharmacology.

Authors:  Chi C Wong; Ka-Wing Cheng; Ioannis Papayannis; George Mattheolabakis; Liqun Huang; Gang Xie; Nengtai Ouyang; Basil Rigas
Journal:  Pharm Res       Date:  2014-11-13       Impact factor: 4.200

2.  Monoclonal antibodies to human butyrylcholinesterase reactive with butyrylcholinesterase in animal plasma.

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Journal:  Chem Biol Interact       Date:  2015-11-14       Impact factor: 5.192

3.  Discovery of New Classes of Compounds that Reactivate Acetylcholinesterase Inhibited by Organophosphates.

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4.  A new selective inhibitor of mouse blood plasma carboxylesterase.

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Journal:  Dokl Biochem Biophys       Date:  2013-05-09       Impact factor: 0.788

5.  Delayed midazolam dose effects against soman in male and female plasma carboxylesterase knockout mice.

Authors:  Erica Kundrick; Brenda Marrero-Rosado; Michael Stone; Caroline Schultz; Katie Walker; Robyn B Lee-Stubbs; Marcio de Araujo Furtado; Lucille A Lumley
Journal:  Ann N Y Acad Sci       Date:  2020-02-06       Impact factor: 5.691

6.  Differential sensitivity of plasma carboxylesterase-null mice to parathion, chlorpyrifos and chlorpyrifos oxon, but not to diazinon, dichlorvos, diisopropylfluorophosphate, cresyl saligenin phosphate, cyclosarin thiocholine, tabun thiocholine, and carbofuran.

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Journal:  Chem Biol Interact       Date:  2011-12-24       Impact factor: 5.192

7.  Ketamine as adjunct to midazolam treatment following soman-induced status epilepticus reduces seizure severity, epileptogenesis, and brain pathology in plasma carboxylesterase knockout mice.

Authors:  Brenda M Marrero-Rosado; Marcio de Araujo Furtado; Erica R Kundrick; Katie A Walker; Michael F Stone; Caroline R Schultz; Donna A Nguyen; Lucille A Lumley
Journal:  Epilepsy Behav       Date:  2020-06-20       Impact factor: 2.937

8.  Plasma butyrylcholinesterase regulates ghrelin to control aggression.

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9.  Identifying safer anti-wear triaryl phosphate additives for jet engine lubricants.

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Journal:  Chem Biol Interact       Date:  2012-10-22       Impact factor: 5.192

10.  Physiologically based kinetic modelling based prediction of in vivo rat and human acetylcholinesterase (AChE) inhibition upon exposure to diazinon.

Authors:  Shensheng Zhao; Sebastiaan Wesseling; Bert Spenkelink; Ivonne M C M Rietjens
Journal:  Arch Toxicol       Date:  2021-03-14       Impact factor: 5.153
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