A switch in the source of ATP production and a loss in capacity to perform glycolysis are hallmarks of hepatocyte failure in advance liver disease

Nishikawa, Taichiro; Bellancé, Nadège; Damm, Aaron; Han, Bing; Zhu, Zhen; Handa, Kan; Yovchev, Mladen I.; Sehgal, Vasudha; Moss, Tyler J.; Oertel, Michael; Ram, Prahlad T.; Pipinos, Iraklis I.; Soto-Gutiérrez, Alejandro; Fox, Ira J.; Nagrath, Deepak

doi:10.1016/j.jhep.2014.02.014

Cited by 99 publications

(88 citation statements)

References 39 publications

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“…Changes in oxygen consumption are an extremely sensitive indicator of mitochondrial function, and we therefore examined the effects of TZDs on respiration from multiple perspectives. A recent study on TZDinduced acute liver injury demonstrated reduced ATP production from oxidative phosphorylation as one of its most prominent side effects (Nishikawa et al, 2014). We found that after treatment with the three TZDs, intracellular ATP levels declined to varying degrees.…”

Section: Discussionmentioning

confidence: 53%

Characterizing the mechanism of thiazolidinedione-induced hepatotoxicity: An in vitro model in mitochondria

et al. 2015

Toxicology and Applied Pharmacology

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Section: Discussionmentioning

confidence: 53%

Characterizing the mechanism of thiazolidinedione-induced hepatotoxicity: An in vitro model in mitochondria

et al. 2015

Toxicology and Applied Pharmacology

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“…However, the risk factors and methods for early detection in type 1 diabetes remained unknown. Decreased hepatic ATP levels have been previously reported not only in obesity (29) but also in alcoholic hepatitis (30) and during postsurgical (32). Lower hepatic ATP could result from compromised production, i.e., oxidative phosphorylation, or from increased utilization by energy-consuming processes like lipogenesis.…”

Section: Discussionmentioning

confidence: 97%

Variants in Genes Controlling Oxidative Metabolism Contribute to Lower Hepatic ATP Independent of Liver Fat Content in Type 1 Diabetes

et al. 2016

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Type 1 diabetes has been recently linked to nonalcoholic fatty liver disease (NAFLD), which is known to associate with insulin resistance, obesity, and type 2 diabetes. However, the role of insulin resistance and hyperglycemia for hepatic energy metabolism is yet unclear. To analyze early abnormalities in hepatic energy metabolism, we examined 55 patients with recently diagnosed type 1 diabetes. They underwent hyperinsulinemicnormoglycemic clamps with [6,6-2 H 2 ]glucose to assess whole-body and hepatic insulin sensitivity. Hepatic gATP, inorganic phosphate (Pi), and triglyceride concentrations (hepatocellular lipid content [HCL]) were measured with multinuclei magnetic resonance spectroscopy ( 31 P/ 1 H-MRS). Glucose-tolerant humans served as control (CON) (n = 57). Whole-body insulin sensitivity was 44% lower in patients than in age-and BMI-matched CON. Hepatic gATP was 15% reduced (2.3 6 0.6 vs. 2.7 6 0.6 mmol/L, P < 0.001), whereas hepatic Pi and HCL were similar in patients when compared with CON. Across all participants, hepatic gATP correlated negatively with glycemia and oxidized LDL. Carriers of the PPARG G allele (rs1801282) and noncarriers of PPARGC1A A allele (rs8192678) had 21 and 13% lower hepatic ATP concentrations. Variations in genes controlling oxidative metabolism contribute to a reduction in hepatic ATP in the absence of NAFLD, suggesting that alterations in hepatic mitochondrial function may precede diabetes-related liver diseases.

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“…ALDH2 and ALDH7A1 were involved in glycolysis/Gluconeogenesis and glycerolipid metabolism, and the results of qRT-PCR and Western blot showed that the expression of ALDH2 and ALDH7A1 decreased after liver injury. Speaking of glycolysis, in chronic liv-er injury, energy production will change from mitochondrial respiration to glycolysis which plays a key role in energy metabolism in the liver (Nishikawa et al, 2014). The liver is the main organ for the metabolism of glucose and lipid (Bou Khalil et al, 2010;Hammond et al, 2002) and when lesion occurs, the liver may dysfunction including abnormal glycolysis/gluconeogenesis and glycerolipid metabolism (Prentki and Madiraju, 2008;Dwyer et al, 2012).…”

Section: Discussionmentioning

confidence: 99%

Mechanisms of CCl<sub>4</sub>-induced liver fibrosis with combined transcriptomic and proteomic analysis

et al. 2016

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-The classic toxicity of carbon tetrachloride (CCl 4 ) is to induce liver lesion and liver fibrosis. Liver fibrosis is a consequence of chronic liver lesion, which can progress into liver cirrhosis even hepatocarcinoma. However, the toxicological mechanisms of CCl 4 -induced liver fibrosis remain not fully understood. We combined transcriptomic and proteomic analysis and biological network technology, predicted toxicological targets and regulatory networks of CCl 4 in liver fibrosis. Wistar rats were treated with CCl 4 for 9 weeks. Histopathological changes, hydroxyproline (Hyp) contents, serum ALT and AST in the CCl 4 -treated group were significantly higher than that of CCl 4 -untreated group. CCl 4 -treated and -untreated liver tissues were examined by microarray and iTRAQ. The results showed that 3535 genes (fold change ≥ 1.5, P < 0.05) and 1412 proteins (fold change ≥ 1.2, P < 0.05) were differentially expressed. Moreover, the integrative analysis of transcriptomics and proteomics data showed 523 overlapped proteins, enriched in 182 GO terms including oxidation reduction, response to oxidative stress, inflammatory response, extracellular matrix organization, etc. Furthermore, KEGG pathway analysis showed that 36 pathways including retinol metabolism, PPAR signaling pathway, glycolysis/gluconeogenesis, arachidonic acid metabolism, metabolism of xenobiotics by cytochrome P450 and drug metabolism. Network of protein-protein interaction (PPI) and key function with their related targets were performed and the degree of network was calculated with Cytoscape. The expression of key targets such as CYP4A3, ALDH2 and ALDH7A1 decreased after CCl 4 treatment. Therefore, the toxicological mechanisms of CCl 4 -induced liver fibrosis may be related with multi biological process, pathway and targets which may provide potential protection reaction mechanism for CCl 4 detoxication in the liver.

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A switch in the source of ATP production and a loss in capacity to perform glycolysis are hallmarks of hepatocyte failure in advance liver disease

Cited by 99 publications

References 39 publications

Characterizing the mechanism of thiazolidinedione-induced hepatotoxicity: An in vitro model in mitochondria

Characterizing the mechanism of thiazolidinedione-induced hepatotoxicity: An in vitro model in mitochondria

Variants in Genes Controlling Oxidative Metabolism Contribute to Lower Hepatic ATP Independent of Liver Fat Content in Type 1 Diabetes

Mechanisms of CCl<sub>4</sub>-induced liver fibrosis with combined transcriptomic and proteomic analysis

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