Effects of selenium on apoptosis and abnormal amino acid metabolism induced by excess fatty acid in isolated rat hepatocytes

Scope Increased serum free fatty acid (FFA) occurs in subjects with non‐alcoholic fatty liver disease (NAFLD) and also triggers oxidative stress, apoptosis, and insulin resistance. Selenium (Se) is an antioxidant agent. However, the effect of Se on NAFLD or diabetes is still unclear. We investigated...

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Published in	Molecular nutrition & food research Vol. 61; no. 9; pp. 1700016 - n/a
Main Authors	Zhang, Zhigang, Li, Siyu, Jiang, Huijie, Liu, Biying, Lv, Zhanjun, Guo, Changming, Zhang, Haili
Format	Journal Article
Language	English
Published	Germany 01.09.2017
Subjects	Amino acid amino acid metabolism Amino Acids - metabolism Animals antioxidants Apoptosis Apoptosis - drug effects blood serum branched chain amino acids Cells, Cultured diabetes Fatty Acids, Nonesterified - pharmacology fatty liver Free fatty acid free fatty acids hepatocytes Hepatocytes - drug effects Hepatocytes - metabolism Hepatocytes - pathology Insulin receptor Insulin Resistance oleic acid Oxidative Stress palmitic acid Rats Rats, Wistar Receptor, Insulin - analysis Receptor, Insulin - physiology Selenium Selenium - pharmacology Amino acid Free fatty acid Selenium Insulin receptor Apoptosis
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ISSN	1613-4125 1613-4133 1613-4133
DOI	10.1002/mnfr.201700016

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Abstract	Scope Increased serum free fatty acid (FFA) occurs in subjects with non‐alcoholic fatty liver disease (NAFLD) and also triggers oxidative stress, apoptosis, and insulin resistance. Selenium (Se) is an antioxidant agent. However, the effect of Se on NAFLD or diabetes is still unclear. We investigated the effect of Se on apoptosis and abnormal amino acid metabolism initiated by excess FFA in isolated rat hepatocytes. Methods and results Primary hepatocytes from rats were isolated and exposed to excessive FFA (0.5 mM oleate/palmitic acid 2:1) and 0.1 μM Se. Se protected primary hepatocytes against oxidative stress and apoptosis induced by excess FFA, but did not play a role on abnormal amino acid metabolism and insulin resistance initiated by FFA in isolated rat hepatocytes. Conclusion Although Se had the capability of preventing the apoptosis initiated by ROS, insulin resistance failed to be reversed in hepatocytes exposed to FFA. This failure may be attributed to the limitation of Se in regulating branched chain amino acids abundance. This indicates that apoptosis and insulin resistance might be involved in different pathways when isolated hepatocytes were exposed to FFA and Se. Potential pharmacological role of Se on excess FFA in rat hepatocytes. In isolated rat hepatocytes, excess cellular FFA induced apoptosis through depleting antioxidant capability and abnormal amino acid metabolism through increasing BCAA abundance. Se protected primary hepatocytes exposed to excess FFA from FFA‐induced apoptosis but not against abnormal amino acid metabolism and insulin resistance.
AbstractList	SCOPE: Increased serum free fatty acid (FFA) occurs in subjects with non‐alcoholic fatty liver disease (NAFLD) and also triggers oxidative stress, apoptosis, and insulin resistance. Selenium (Se) is an antioxidant agent. However, the effect of Se on NAFLD or diabetes is still unclear. We investigated the effect of Se on apoptosis and abnormal amino acid metabolism initiated by excess FFA in isolated rat hepatocytes. METHODS AND RESULTS: Primary hepatocytes from rats were isolated and exposed to excessive FFA (0.5 mM oleate/palmitic acid 2:1) and 0.1 μM Se. Se protected primary hepatocytes against oxidative stress and apoptosis induced by excess FFA, but did not play a role on abnormal amino acid metabolism and insulin resistance initiated by FFA in isolated rat hepatocytes. CONCLUSION: Although Se had the capability of preventing the apoptosis initiated by ROS, insulin resistance failed to be reversed in hepatocytes exposed to FFA. This failure may be attributed to the limitation of Se in regulating branched chain amino acids abundance. This indicates that apoptosis and insulin resistance might be involved in different pathways when isolated hepatocytes were exposed to FFA and Se. Increased serum free fatty acid (FFA) occurs in subjects with non-alcoholic fatty liver disease (NAFLD) and also triggers oxidative stress, apoptosis, and insulin resistance. Selenium (Se) is an antioxidant agent. However, the effect of Se on NAFLD or diabetes is still unclear. We investigated the effect of Se on apoptosis and abnormal amino acid metabolism initiated by excess FFA in isolated rat hepatocytes. Primary hepatocytes from rats were isolated and exposed to excessive FFA (0.5 mM oleate/palmitic acid 2:1) and 0.1 μM Se. Se protected primary hepatocytes against oxidative stress and apoptosis induced by excess FFA, but did not play a role on abnormal amino acid metabolism and insulin resistance initiated by FFA in isolated rat hepatocytes. Although Se had the capability of preventing the apoptosis initiated by ROS, insulin resistance failed to be reversed in hepatocytes exposed to FFA. This failure may be attributed to the limitation of Se in regulating branched chain amino acids abundance. This indicates that apoptosis and insulin resistance might be involved in different pathways when isolated hepatocytes were exposed to FFA and Se. Increased serum free fatty acid (FFA) occurs in subjects with non-alcoholic fatty liver disease (NAFLD) and also triggers oxidative stress, apoptosis, and insulin resistance. Selenium (Se) is an antioxidant agent. However, the effect of Se on NAFLD or diabetes is still unclear. We investigated the effect of Se on apoptosis and abnormal amino acid metabolism initiated by excess FFA in isolated rat hepatocytes.SCOPEIncreased serum free fatty acid (FFA) occurs in subjects with non-alcoholic fatty liver disease (NAFLD) and also triggers oxidative stress, apoptosis, and insulin resistance. Selenium (Se) is an antioxidant agent. However, the effect of Se on NAFLD or diabetes is still unclear. We investigated the effect of Se on apoptosis and abnormal amino acid metabolism initiated by excess FFA in isolated rat hepatocytes.Primary hepatocytes from rats were isolated and exposed to excessive FFA (0.5 mM oleate/palmitic acid 2:1) and 0.1 μM Se. Se protected primary hepatocytes against oxidative stress and apoptosis induced by excess FFA, but did not play a role on abnormal amino acid metabolism and insulin resistance initiated by FFA in isolated rat hepatocytes.METHODS AND RESULTSPrimary hepatocytes from rats were isolated and exposed to excessive FFA (0.5 mM oleate/palmitic acid 2:1) and 0.1 μM Se. Se protected primary hepatocytes against oxidative stress and apoptosis induced by excess FFA, but did not play a role on abnormal amino acid metabolism and insulin resistance initiated by FFA in isolated rat hepatocytes.Although Se had the capability of preventing the apoptosis initiated by ROS, insulin resistance failed to be reversed in hepatocytes exposed to FFA. This failure may be attributed to the limitation of Se in regulating branched chain amino acids abundance. This indicates that apoptosis and insulin resistance might be involved in different pathways when isolated hepatocytes were exposed to FFA and Se.CONCLUSIONAlthough Se had the capability of preventing the apoptosis initiated by ROS, insulin resistance failed to be reversed in hepatocytes exposed to FFA. This failure may be attributed to the limitation of Se in regulating branched chain amino acids abundance. This indicates that apoptosis and insulin resistance might be involved in different pathways when isolated hepatocytes were exposed to FFA and Se. Scope Increased serum free fatty acid (FFA) occurs in subjects with non‐alcoholic fatty liver disease (NAFLD) and also triggers oxidative stress, apoptosis, and insulin resistance. Selenium (Se) is an antioxidant agent. However, the effect of Se on NAFLD or diabetes is still unclear. We investigated the effect of Se on apoptosis and abnormal amino acid metabolism initiated by excess FFA in isolated rat hepatocytes. Methods and results Primary hepatocytes from rats were isolated and exposed to excessive FFA (0.5 mM oleate/palmitic acid 2:1) and 0.1 μM Se. Se protected primary hepatocytes against oxidative stress and apoptosis induced by excess FFA, but did not play a role on abnormal amino acid metabolism and insulin resistance initiated by FFA in isolated rat hepatocytes. Conclusion Although Se had the capability of preventing the apoptosis initiated by ROS, insulin resistance failed to be reversed in hepatocytes exposed to FFA. This failure may be attributed to the limitation of Se in regulating branched chain amino acids abundance. This indicates that apoptosis and insulin resistance might be involved in different pathways when isolated hepatocytes were exposed to FFA and Se. Potential pharmacological role of Se on excess FFA in rat hepatocytes. In isolated rat hepatocytes, excess cellular FFA induced apoptosis through depleting antioxidant capability and abnormal amino acid metabolism through increasing BCAA abundance. Se protected primary hepatocytes exposed to excess FFA from FFA‐induced apoptosis but not against abnormal amino acid metabolism and insulin resistance.
Author	Lv, Zhanjun Zhang, Zhigang Li, Siyu Liu, Biying Jiang, Huijie Guo, Changming Zhang, Haili
Author_xml	– sequence: 1 givenname: Zhigang surname: Zhang fullname: Zhang, Zhigang email: zhangzhigang@neau.edu.cn organization: Northeast Agricultural University – sequence: 2 givenname: Siyu surname: Li fullname: Li, Siyu organization: Northeast Agricultural University – sequence: 3 givenname: Huijie surname: Jiang fullname: Jiang, Huijie organization: Northeast Agricultural University – sequence: 4 givenname: Biying surname: Liu fullname: Liu, Biying organization: Northeast Agricultural University – sequence: 5 givenname: Zhanjun surname: Lv fullname: Lv, Zhanjun organization: Northeast Agricultural University – sequence: 6 givenname: Changming surname: Guo fullname: Guo, Changming organization: Jilin University – sequence: 7 givenname: Haili surname: Zhang fullname: Zhang, Haili organization: Northeast Agricultural University
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Keywords	Amino acid Free fatty acid Selenium Insulin receptor Apoptosis
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Snippet	Scope Increased serum free fatty acid (FFA) occurs in subjects with non‐alcoholic fatty liver disease (NAFLD) and also triggers oxidative stress, apoptosis,... Increased serum free fatty acid (FFA) occurs in subjects with non-alcoholic fatty liver disease (NAFLD) and also triggers oxidative stress, apoptosis, and... SCOPE: Increased serum free fatty acid (FFA) occurs in subjects with non‐alcoholic fatty liver disease (NAFLD) and also triggers oxidative stress, apoptosis,...
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SubjectTerms	Amino acid amino acid metabolism Amino Acids - metabolism Animals antioxidants Apoptosis Apoptosis - drug effects blood serum branched chain amino acids Cells, Cultured diabetes Fatty Acids, Nonesterified - pharmacology fatty liver Free fatty acid free fatty acids hepatocytes Hepatocytes - drug effects Hepatocytes - metabolism Hepatocytes - pathology Insulin receptor Insulin Resistance oleic acid Oxidative Stress palmitic acid Rats Rats, Wistar Receptor, Insulin - analysis Receptor, Insulin - physiology Selenium Selenium - pharmacology
Title	Effects of selenium on apoptosis and abnormal amino acid metabolism induced by excess fatty acid in isolated rat hepatocytes
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