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Comparative Study
. 2008 Oct 15;232(2):236-43.
doi: 10.1016/j.taap.2008.06.022. Epub 2008 Jul 12.

Metabolomic profiling of a modified alcohol liquid diet model for liver injury in the mouse uncovers new markers of disease (VSports最新版本)

Blair U Bradford  1 Thomas M O'ConnellJun HanOksana KosykSvitlana ShymonyakPamela K RossJason WinnikeHiroshi KonoIvan Rusyn
Affiliations
Comparative Study

Metabolomic profiling of a modified alcohol liquid diet model for liver injury in the mouse uncovers new markers of disease (VSports在线直播)

Blair U Bradford et al. Toxicol Appl Pharmacol. .

Abstract (V体育平台登录)

Metabolomic evaluation of urine and liver was conducted to assess the biochemical changes that occur as a result of alcohol-induced liver injury. Male C57BL/6J mice were fed an isocaloric control- or alcohol-containing liquid diet with 35% of calories from corn oil, 18% protein and 47% carbohydrate/alcohol for up to 36 days ad libitum. Alcohol treatment was initiated at 7 g/kg/day and gradually reached a final dose of 21 g/kg/day. Urine samples were collected at 22, 30 and 36 days and, in additional treatment groups, liver and serum samples were harvested at 28 days. Steatohepatitis was induced in the alcohol-fed group since a 5-fold increase in serum alanine aminotransferase activity, a 6-fold increase in liver injury score (necrosis, inflammation and steatosis) and an increase in lipid peroxidation in liver were observed. Liver and urine samples were analyzed by nuclear magnetic resonance spectroscopy and electrospray infusion/Fourier transform ion cyclotron resonance-mass spectrometry. In livers of alcohol-treated mice the following changes were noted. Hypoxia and glycolysis were activated as evidenced by elevated levels of alanine and lactate. Tyrosine, which is required for l-DOPA and dopamine as well as thyroid hormones, was elevated possibly reflecting alterations of basal metabolism by alcohol. A 4-fold increase in the prostacyclin inhibitor 7,10,13,16-docosatetraenoic acid, a molecule important for regulation of platelet formation and blood clotting, may explain why chronic drinking causes serious bleeding problems. Metabolomic analysis of the urine revealed that alcohol treatment leads to decreased excretion of taurine, a metabolite of glutathione, and an increase in lactate, n-acetylglutamine and n-acetylglycine. Changes in the latter two metabolites suggest an inhibition of the kidney enzyme aminoacylase I and may be useful as markers for alcohol consumption VSports手机版. .

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Figure 1
Figure 1
Feeding of the modified alcohol-containing liquid diet for 4 weeks leads to the development of steatohepatitis in the mouse. Representative liver sections from high-fat control (A, C, E, and G) and alcohol-treated (B, D, F, and H) mice are shown. Sections were stained with hematoxylin and eosin (A and B) for evaluation of liver injury, oil red-O (C and D) for quantification of fat, periodic acid-Shiff (E and F) for estimation of glycogen content, and 4- hydroxynonenal-protein adducts (G and H) for evaluation of lipid peroxidation. Magnification 200x (images A–F), or 40x (images G–H). In panel B, arrows point to the areas of steatosis, inflammation and necrosis (respectively, left to right).
Figure 2
Figure 2
1H NMR metabolomic analysis of urine and liver reveals biochemical pathways affected by alcohol in the mouse. Representative spectra expansions of mouse urine (A and B) and liver (C and D) from control (A and C), or alcohol-treated (B and D) mice. Spectra from the alcohol-treated mice are annotated with assignments of some of the metabolites present. EthylGluc, ethylglucuronide; EtOH, alcohol; Lac, lactate; Ac, acetate; NAcGly, N-acetylglycine; NAcGlu, N-acetylglutamine; TMA, trimethylamine; Crtnn, creatinine; Crtn, creatine; Tau, taurine; Tart, tartrate; Lact, lactose; Malt, maltose; Carn, carnitine; Actn, acetone; Ala, alanine; Leu, Leucine; ILeu, isoleucine; Val, valine.
Figure 3
Figure 3
Principal components analysis of the 1H NMR spectra from (A) urine (n=4, samples were collected on days 22, 30 and 36); and (B) liver (n=3 for high fat control and alcohol, samples were collected on day 28). Each point represents and individual measurement. In the urine spectra, alcohol and its main metabolite, ethyl-glucuronide, were removed from the analysis.
Figure 4
Figure 4
FTICR-MS analysis of liver metabolome identifies molecules affected by alcohol in the mouse. Expansion of the ~40 Da m/z window (from ~280 to ~330 m/z) in FTICR-MS spectra obtained from six high-fat control (A) and six alcohol-treated (B) liver samples. (C) Expansion of the m/z range from 309.22 to 309.32 showing overlaid FTICR-MS spectra from samples depicted in A and B. Four metabolites were found within this 0.10 Da window and 11, 14-eicosadienoic acid (m/z 309.278459) could be identified on the basis of accurate mass and it is elevated in liver after alcohol treatment.
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