Hepatic alcohol dehydrogenase deficiency induces pancreatic injury in chronic ethanol feeding model of deer mice

The single most common cause of chronic pancreatitis (CP, a serious inflammatory disease) is chronic alcohol abuse, which impairs hepatic alcohol dehydrogenase (ADH, a major ethanol oxidizing enzyme). Previously, we found ~5 fold greater fatty acid ethyl esters (FAEEs), and injury in the pancreas of...

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Published in:Experimental and molecular pathology 2018-02, Vol.104 (1), p.89-97
Main Authors: Amer, Samir M., Bhopale, Kamlesh K., Kakumanu, Ramu D., Popov, Vsevolod L., Rampy, Bill A., El-Mehallawi, Inas H., Ashmawy, Magdy M., Shakeel Ansari, G.A., Kaphalia, Bhupendra S.
Format: Article
Language:English
Subjects:
Alcohol dehydrogenase
Alcohol Dehydrogenase - metabolism
Alcoholic chronic pancreatitis
Alcoholism
Animals
Blood Alcohol Content
Deer mice
Disease Models, Animal
Endoplasmic Reticulum - metabolism
Endoplasmic Reticulum Stress - physiology
ER membrane stress
Ethanol
Ethanol - blood
Ethyl Ethers - metabolism
Fatty acid ethyl esters
Fatty Acids - metabolism
Liver - metabolism
Mice
Pancreas - metabolism
Pancreas - pathology
Peromyscus - physiology
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Summary:The single most common cause of chronic pancreatitis (CP, a serious inflammatory disease) is chronic alcohol abuse, which impairs hepatic alcohol dehydrogenase (ADH, a major ethanol oxidizing enzyme). Previously, we found ~5 fold greater fatty acid ethyl esters (FAEEs), and injury in the pancreas of hepatic ADH deficient (ADH−) vs. hepatic normal ADH (ADH+) deer mice fed 3.5g% ethanol via liquid diet daily for two months. Therefore, progression of ethanol-induced pancreatic injury was determined in ADH− deer mice fed ethanol for four months to delineate the mechanism and metabolic basis of alcoholic chronic pancreatitis (ACP). In addition to a substantially increased blood alcohol concentration and plasma FAEEs, significant degenerative changes, including atrophy and loss of acinar cells in some areas, ultrastructural changes evident by such features as swelling and disintegration of endoplasmic reticulum (ER) cisternae and ER stress were observed in the pancreas of ethanol-fed ADH− deer mice vs. ADH+ deer mice. These changes are consistent with noted increases in pancreatic injury markers (plasma lipase, pancreatic trypsinogen activation peptide, FAEE synthase and cathepsin B) in ethanol-fed ADH− deer mice. Most importantly, an increased levels of pancreatic glucose regulated protein (GRP) 78 (a prominent ER stress marker) were found to be closely associated with increased phosphorylated eukaryotic initiation factor (eIF) 2α signaling molecule in PKR-like ER kinase branch of unfolded protein response (UPR) as compared to X box binding protein 1S and activating transcription factor (ATF)6 - 50kDa protein of inositol requiring enzyme 1α and ATF6 branches of UPR, respectively, in ethanol-fed ADH− vs. ADH+ deer mice. These results along with findings on plasma FAEEs, and pancreatic histology and injury markers suggest a metabolic basis of ethanol-induced pancreatic injury, and provide new avenues to understand metabolic basis and molecular mechanism of ACP. •Ethanol-induced pancreatic injury was studied in hepatic ADH deficient deer mice.•A key factor in ethanol-induced pancreatic injury was hepatic ADH deficiency.•Ethanol–induced pancreatic injury could be initiated by FAEEs and ER stress.•Phosphorylated eIF2α could be a therapeutic target in ethanol-induced pancreatitis.
ISSN:0014-4800
1096-0945
DOI:10.1016/j.yexmp.2018.01.002