| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 8624073 | Experimental and Molecular Pathology | 2018 | 5 Pages |
Abstract
Results herein suggest that in addition to severe dysregulation of anti-oxidant responses, cholestasis impacts both cytosolic/nuclear (Trx1) as well as mitochondrial (Trx2) redox signaling and control pathways.
Keywords
IBDUDCATrxGCLCTXNIPBDLTrxRCholangiocyteALTPSCthioredoxinsLTXHO-1Gamma-glutamylcysteineGSTGSHPrdx4-HNEPBC4-hydroxy-2-nonenalprimary biliary cholangitisROSAlanine aminotransferaseUrsodeoxycholic acidInflammatory bowel diseasethioredoxin reductaseOxidative stressthioredoxinheme oxygenase 1Thioredoxin interacting proteinPeroxiredoxinbile duct ligationLiver transplantreduced glutathionePrimary sclerosing cholangitischolestasisglutathione S-transferaseReactive oxidative species
Related Topics
Life Sciences
Biochemistry, Genetics and Molecular Biology
Clinical Biochemistry
Authors
Petersen Dennis R., Orlicky David J., Roede James R., Shearn Colin T.,