NHE1 deficiency in liver: Implications for non-alcoholic fatty liver disease

•FXR, PGC1α and PPARγ levels are upregulated in NHE1 deficient livers.•NHE1 deficiency downregulates expression of pro-lipogenic genes in liver.•Chronic exposure to high-fat diet upregulates hepatic NHE1 expression.•Loss of NHE1 better preserves hepatic insulin signaling in high-fat diet-fed mice. N...

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Bibliographic Details
Published in:Biochemical and biophysical research communications 2014-07, Vol.450 (2), p.1027-1031
Main Authors: Prasad, Vikram, Chirra, Shivani, Kohli, Rohit, Shull, Gary E.
Format: Article
Language:English
Subjects:
60 APPLIED LIFE SCIENCES
acetyl coenzyme A
Animals
ANTIOXIDANTS
Biomarkers - metabolism
CARBOXYLASE
Cation Transport Proteins - genetics
Cation Transport Proteins - metabolism
CHRONIC EXPOSURE
Dietary Fats - administration & dosage
Endoplasmic Reticulum Stress
fatty liver
Fatty Liver - metabolism
FIBROSIS
GENES
high fat diet
HOMEOSTASIS
HYDROGEN IONS 1 PLUS
INSULIN
Insulin - metabolism
Insulin resistance
Lipid Metabolism
LIPIDS
lipogenesis
LIVER
Liver - metabolism
liver cirrhosis
Liver fibrosis
METABOLIC DISEASES
Metabolic syndrome
MICE
Mice, Knockout
NHE1
Non-alcoholic Fatty Liver Disease
non-specific serine/threonine protein kinase
Obesity
Oxidative Stress
PATHOGENESIS
peroxisome proliferator-activated receptors
PHOSPHORYLATION
POLYMERASE CHAIN REACTION
RECEPTORS
reverse transcriptase polymerase chain reaction
Signal Transduction
SODIUM IONS
sodium-hydrogen antiporter
Sodium-Hydrogen Exchanger 1
Sodium-Hydrogen Exchangers - genetics
Sodium-Hydrogen Exchangers - metabolism
Steatohepatitis
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Summary:•FXR, PGC1α and PPARγ levels are upregulated in NHE1 deficient livers.•NHE1 deficiency downregulates expression of pro-lipogenic genes in liver.•Chronic exposure to high-fat diet upregulates hepatic NHE1 expression.•Loss of NHE1 better preserves hepatic insulin signaling in high-fat diet-fed mice. Non-alcoholic fatty liver disease NAFLD is closely associated with the dysregulation of lipid homeostasis. Diet-induced hepatic steatosis, which can initiate NAFLD progression, has been shown to be dramatically reduced in mice lacking the electroneutral Na+/H+ exchanger NHE1 (Slc9a1). In this study, we investigated if NHE1 deficiency had effects in liver that could contribute to the apparent protection against aberrant lipid accumulation. RT-PCR and immunoblot analyses of wild-type and NHE1-null livers revealed an expression profile that strongly suggested attenuation of both de novo lipogenesis and hepatic stellate cell activation, which is implicated in liver fibrosis. This included upregulation of the farnesoid X receptor FXR, peroxisome proliferator-activated receptor PPARγ, its co-activator PGC1α, and sestrin 2, an antioxidant protein involved in hepatic metabolic homeostasis. Furthermore, expression levels of the pro-lipogenic liver X receptor LXRα, and acetyl CoA carboxylases 1 and 2 were downregulated. These changes were associated with evidence of reduced cellular stress, which persisted even upon exposure to a high-fat diet, and the better preservation of insulin signaling, as evidenced by protein kinase B/Akt phosphorylation (Ser473). These results indicate that NHE1 deficiency may protect against NAFLD pathogenesis, which is significant given the availability of highly specific NHE1 inhibitors.
ISSN:0006-291X
1090-2104
DOI:10.1016/j.bbrc.2014.06.095