TY - JOUR
T1 - Alcohol disrupts endoplasmic reticulum function and protein secretion in hepatocytes
AU - Howarth, Deanna L.
AU - Vacaru, Ana M.
AU - Tsedensodnom, Orkhontuya
AU - Mormone, Elisabetta
AU - Nieto, Natalia
AU - Costantini, Lindsey M.
AU - Snapp, Erik L.
AU - Sadler, Kirsten C.
PY - 2012/1
Y1 - 2012/1
N2 - Background: Many alcoholic patients have serum protein deficiency that contributes to their systemic problems. The unfolded protein response (UPR) is induced in response to disequilibrium in the protein folding capability of the endoplasmic reticulum (ER) and is implicated in hepatocyte lipid accumulation and apoptosis, which are associated with alcoholic liver disease (ALD). We investigated whether alcohol affects ER structure, function, and UPR activation in hepatocytes in vitro and in vivo. Methods: HepG2 cells expressing human cytochrome P450 2E1 and mouse alcohol dehydrogenase (VL-17A) were treated for up to 48hours with 50 and 100mM ethanol. Zebrafish larvae at 4days postfertilization were exposed to 350mM ethanol for 32hours. ER morphology was visualized by fluorescence in cells and transmission electron microscopy in zebrafish. UPR target gene activation was assessed using quantitative PCR, in situ hybridization, and Western blotting. Mobility of the major ER chaperone, BIP, was monitored in cells by fluorescence recovery after photobleaching (FRAP). Results: VL-17A cells metabolized alcohol yet only had slight activation of some UPR target genes following ethanol treatment. However, ER fragmentation, crowding, and accumulation of unfolded proteins as detected by immunofluorescence and FRAP demonstrate that alcohol induced some ER dysfunction despite the lack of UPR activation. Zebrafish treated with alcohol, however, showed modest ER dilation, and several UPR targets were significantly induced. Conclusions: Ethanol metabolism directly impairs ER structure and function in hepatocytes. Zebrafish are a novel in vivo system for studying ALD.
AB - Background: Many alcoholic patients have serum protein deficiency that contributes to their systemic problems. The unfolded protein response (UPR) is induced in response to disequilibrium in the protein folding capability of the endoplasmic reticulum (ER) and is implicated in hepatocyte lipid accumulation and apoptosis, which are associated with alcoholic liver disease (ALD). We investigated whether alcohol affects ER structure, function, and UPR activation in hepatocytes in vitro and in vivo. Methods: HepG2 cells expressing human cytochrome P450 2E1 and mouse alcohol dehydrogenase (VL-17A) were treated for up to 48hours with 50 and 100mM ethanol. Zebrafish larvae at 4days postfertilization were exposed to 350mM ethanol for 32hours. ER morphology was visualized by fluorescence in cells and transmission electron microscopy in zebrafish. UPR target gene activation was assessed using quantitative PCR, in situ hybridization, and Western blotting. Mobility of the major ER chaperone, BIP, was monitored in cells by fluorescence recovery after photobleaching (FRAP). Results: VL-17A cells metabolized alcohol yet only had slight activation of some UPR target genes following ethanol treatment. However, ER fragmentation, crowding, and accumulation of unfolded proteins as detected by immunofluorescence and FRAP demonstrate that alcohol induced some ER dysfunction despite the lack of UPR activation. Zebrafish treated with alcohol, however, showed modest ER dilation, and several UPR targets were significantly induced. Conclusions: Ethanol metabolism directly impairs ER structure and function in hepatocytes. Zebrafish are a novel in vivo system for studying ALD.
KW - Alcoholic Liver Disease
KW - Ethanol
KW - Fluorescence Recovery After Photobleaching
KW - Liver
KW - Unfolded Protein Response
KW - Zebrafish
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U2 - 10.1111/j.1530-0277.2011.01602.x
DO - 10.1111/j.1530-0277.2011.01602.x
M3 - Article
C2 - 21790674
AN - SCOPUS:84855305763
SN - 0145-6008
VL - 36
SP - 14
EP - 23
JO - Alcoholism: Clinical and Experimental Research
JF - Alcoholism: Clinical and Experimental Research
IS - 1
ER -