OBJECTIVES: Long-term ethanol consumption does not cause acute pancreatitis but rather sensitizes the pancreas to subsequent insults. The mechanisms responsible for this sensitization are unknown. To determine whether alterations in pancreatic gene expression might participate in ethanol-mediated sensitization, we performed gene-profiling analysis. METHODS: Animals were fed ethanol-containing Lieber-DeCarli or control diet (pair-fed). After 8 weeks, pancreatic RNA expression was analyzed using Affimetrix GeneChips. Changes in specific genes were verified using quantitative reverse transcriptase-polymerase chain reaction. RESULTS: Long-term ethanol feeding caused a significant alteration of pancreatic gene expression. Selection criteria of changes more than 3-fold and P < 0.05 yielded 114 probe sets. Activating transcription factor 3, heat shock protein 70, heat shock protein 27, and mesotrypsinogen were increased, whereas pancreatitis associate protein, folate carrier, and metallothionein were decreased. CONCLUSIONS: Ethanol had a profound effect on pancreatic gene expression. The genes identified as elevated and reduced in this study may contribute to pancreatic sensitivity to stress. This study indicates for the first time the identities of multiple genes whose expression levels are dramatically influenced by long-term ethanol feeding. The identified genes may help explain the relationship between long-term ethanol abuse and pancreatic disease and lead to possible preventative or therapeutic approaches to ethanol-induced pancreatic disease.
OBJECTIVES: Long-term ethanol consumption does not cause acute pancreatitis but rather sensitizes the pancreas to subsequent insults. The mechanisms responsible for this sensitization are unknown. To determine whether alterations in pancreatic gene expression might participate in ethanol-mediated sensitization, we performed gene-profiling analysis. METHODS: Animals were fed ethanol-containing Lieber-DeCarli or control diet (pair-fed). After 8 weeks, pancreatic RNA expression was analyzed using Affimetrix GeneChips. Changes in specific genes were verified using quantitative reverse transcriptase-polymerase chain reaction. RESULTS: Long-term ethanol feeding caused a significant alteration of pancreatic gene expression. Selection criteria of changes more than 3-fold and P < 0.05 yielded 114 probe sets. Activating transcription factor 3, heat shock protein 70, heat shock protein 27, and mesotrypsinogen were increased, whereas pancreatitis associate protein, folate carrier, and metallothionein were decreased. CONCLUSIONS:Ethanol had a profound effect on pancreatic gene expression. The genes identified as elevated and reduced in this study may contribute to pancreatic sensitivity to stress. This study indicates for the first time the identities of multiple genes whose expression levels are dramatically influenced by long-term ethanol feeding. The identified genes may help explain the relationship between long-term ethanol abuse and pancreatic disease and lead to possible preventative or therapeutic approaches to ethanol-induced pancreatic disease.
Authors: Veedamali S Subramanian; Sandeep B Subramanya; Abhisek Ghosal; Hamid M Said Journal: Am J Physiol Cell Physiol Date: 2013-06-26 Impact factor: 4.249
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