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  • Endoplasmic reticulum stress in liver disease
  • Malhi H; Kaufman RJ
  • J Hepatol 2011[Apr]; 54 (4): 795-809
  • The unfolded protein response (UPR) is activated upon the accumulation of misfolded proteins in the endoplasmic reticulum (ER) that are sensed by the binding immunoglobulin protein (BiP)/glucose-regulated protein 78 (GRP78). The accumulation of unfolded proteins sequesters BiP so it dissociates from three ER-transmembrane transducers leading to their activation. These transducers are inositol requiring (IRE) 1alpha, PKR-like ER kinase (PERK), and activating transcription factor (ATF) 6alpha. PERK phosphorylates eukaryotic initiation factor 2 alpha (eIF2alpha) resulting in global mRNA translation attenuation, and concurrently selectively increases the translation of several mRNAs, including the transcription factor ATF4, and its downstream target CHOP. IRE1alpha has kinase and endoribonuclease (RNase) activities. IRE1alpha autophosphorylation activates the RNase activity to splice XBP1 mRNA, to produce the active transcription factor sXBP1. IRE1alpha activation also recruits and activates the stress kinase JNK. ATF6alpha transits to the Golgi compartment where it is cleaved by intramembrane proteolysis to generate a soluble active transcription factor. These UPR pathways act in concert to increase ER content, expand the ER protein folding capacity, degrade misfolded proteins, and reduce the load of new proteins entering the ER. All of these are geared toward adaptation to resolve the protein folding defect. Faced with persistent ER stress, adaptation starts to fail and apoptosis occurs, possibly mediated through calcium perturbations, reactive oxygen species, and the proapoptotic transcription factor CHOP. The UPR is activated in several liver diseases; including obesity associated fatty liver disease, viral hepatitis, and alcohol-induced liver injury, all of which are associated with steatosis, raising the possibility that ER stress-dependent alteration in lipid homeostasis is the mechanism that underlies the steatosis. Hepatocyte apoptosis is a pathogenic event in several liver diseases, and may be linked to unresolved ER stress. If this is true, restoration of ER homeostasis prior to ER stress-induced cell death may provide a therapeutic rationale in these diseases. Herein we discuss each branch of the UPR and how they may impact hepatocyte function in different pathologic states.
  • |Activating Transcription Factor 6/metabolism[MESH]
  • |Animals[MESH]
  • |Apoptosis[MESH]
  • |Carcinoma, Hepatocellular/metabolism[MESH]
  • |Cholestasis/metabolism[MESH]
  • |Endoplasmic Reticulum/*metabolism[MESH]
  • |Fatty Liver/metabolism[MESH]
  • |Hepatitis C, Chronic/metabolism[MESH]
  • |Hepatocytes/metabolism/pathology[MESH]
  • |Humans[MESH]
  • |Hyperhomocysteinemia/metabolism[MESH]
  • |Inflammation/metabolism[MESH]
  • |Liver Diseases, Alcoholic/metabolism[MESH]
  • |Liver Diseases/*metabolism/pathology[MESH]
  • |Liver Neoplasms/metabolism[MESH]
  • |Models, Biological[MESH]
  • |Non-alcoholic Fatty Liver Disease[MESH]
  • |Protein Conformation[MESH]
  • |Reperfusion Injury/metabolism[MESH]
  • |Stress, Physiological[MESH]
  • |Unfolded Protein Response[MESH]
  • |eIF-2 Kinase/metabolism[MESH]

  • *{{pmid21145844}}
    *<b>[ Endoplasmic reticulum stress in liver disease ]</b> J Hepatol 2011; 54(4) ; 795-809 Malhi H; Kaufman RJ


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    J Hepatol

    795 4.54 2011