Suzuki_2010_Adv.Exp.Med.Biol_660_37

Reference

Title : Engineering human PON1 in an E. coli expression system - Suzuki_2010_Adv.Exp.Med.Biol_660_37
Author(s) : Suzuki SM , Stevens RC , Richter RJ , Cole TB , Park S , Otto TC , Cerasoli DM , Lenz DE , Furlong CE
Ref : Advances in Experimental Medicine & Biology , 660 :37 , 2010
Abstract :

Expression and purification of recombinant human paraoxonase-1 (rHuPON1) from bacterial systems have proven elusive. Most systems for successful production of recombinant PON1 have relied on either eukaryotic expression in baculovirus or prokaryotic expression of synthetic, gene-shuffled rabbit-mouse-human PON1 hybrid molecules. We review here methods and protocols for the production of pure, native rHuPON1 using an E. coli expression system followed by conventional column chromatographic purification. The resulting rHuPON1 is stable, active, and capable of protecting PON1 knockout mice (PON1(-/-)) from exposure to high levels of the organophosphorus (OP) compound diazoxon. Bacterially-derived rHuPON1 can be produced in large quantities and lacks the glycosylation of eukaryotic systems that produces immunogenic complications when used as a therapeutic. The rHuPON1 should be useful for treating insecticide OP exposures and reducing risks of other diseases resulting from low PON1 status. The ease of mutagenesis in bacterial systems will also allow for the generation and screening of rHuPON1 variants with enhanced catalytic efficiencies against nerve agents and other OP compounds.

PubMedSearch : Suzuki_2010_Adv.Exp.Med.Biol_660_37
PubMedID: 20221869

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Citations formats

Suzuki SM, Stevens RC, Richter RJ, Cole TB, Park S, Otto TC, Cerasoli DM, Lenz DE, Furlong CE (2010)
Engineering human PON1 in an E. coli expression system
Advances in Experimental Medicine & Biology 660 :37

Suzuki SM, Stevens RC, Richter RJ, Cole TB, Park S, Otto TC, Cerasoli DM, Lenz DE, Furlong CE (2010)
Advances in Experimental Medicine & Biology 660 :37