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Fasting and sampling time affect liver gene expression of high-fat diet-fed mice

Published online by Cambridge University Press:  16 December 2009

C. Y. Lee
C. Y. Lee*
Affiliation:
Pharmacy Program, School of Medicine and Health Sciences, Monash University Sunway Campus, Bandar Sunway, 46780 Kelana Jaya, Selangor, Malaysia
*
E-mail: lee.chooi.yeng@med.monash.edu.my
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Abstract

Several physiological and biological variables are known to affect peroxisome proliferator-activated receptor (PPAR)-α-dependent signaling pathway and plasma biochemical profiles. However, less is known about the effect of these variables on high-fat diet-fed mice. In a 5-week study, C57BL/6 mice were divided into control (C) and high-fat diet-fed (H) groups, whereby before dissection, each group was subdivided into non-fasted (nC and nH) and a 15-h fasted mice (fC and fH) killed in the early light cycle, and a 15-h fasted mice (eC and eH) killed in the late phase of the light cycle. Liver and blood from the vena cava were collected. Non-fasted nC and nH mice have a marginal difference in their body weight gain, whereas significant differences were found for fasted mice. In nH mice, PPAR-α, acyl-CoA oxidase and insulin-like growth factor-binding protein expressions were significantly elevated, in contrast to fatty acid synthase (Fasn), stearoyl CoA-desaturase (SCD)-1, and elongase (ELOVL)-6 expressions. Fasn was profoundly induced in fH mice, while decreased sterol regulatory-binding protein-1 and SCD-1 were found only in eH mice. Different from the gene expression profiles, plasma total cholesterol level of the eH mice was higher than controls, whereas nH mice have increased plasma non-esterified fatty acids. Only glucose level of the fH mice was higher than that observed for controls. Results showed that fasting and sampling time have significantly affected liver gene expression and plasma biochemical indices of the high-fat diet-treated mice. An overlook in these aspects can cause serious discrepancies in the experimental data and their interpretations.

Keywords

fasting, gene expression, high-fat diet, mice, sampling time
Type
Full Paper
Information
animal , Volume 4 , Issue 5 , May 2010 , pp. 709 - 713
Copyright
Copyright © The Animal Consortium 2009

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References

Aoki, F, Honda, S, Kishida, H, Kitano, M, Arai, N, Tanaka, H, Yokota, S, Nakagawa, K, Asakura, T, Nakai, Y, Mae, T 2007. Suppression by Licorice flavonoids of abdominal fat accumulation and body weight gain in high-fat diet-induced obese C57BL/6J mice. Bioscience Biotechnology Biochemistry 71, 206214.CrossRefGoogle ScholarPubMed
Cano, P, Jimenez-Ortega, V, Larrad, A, Toso, CFR, Cardinali, DP, Esquifino, AI 2008. Effect of a high-fat diet on 24-h pattern of circulating levels of prolactin, luteinizing hormone, testosterone, corticosterone, thyroid-stimulating hormone and glucose, and pineal melatonin content, in rats. Endocrine 33, 118125.CrossRefGoogle ScholarPubMed
Cheon, Y, Nara, TY, Band, MR, Beever, JE, Wallig, MA, Nakamura, MT 2005. Induction of overlapping genes by fasting and a peroxisome proliferator in pigs: evidence of functional PPARα in nonproliferating species. American Journal of Physiology – Regulatory, Integrative and Comparative Physiology 288, R1525R1535.CrossRefGoogle Scholar
Heald, AH, Siddals, KW, Fraser, W, Taylor, W, Kaushal, K, Morris, J, Young, RJ, White, A, Gibson, JM 2002. Low circulating levels of insulin-like growth factor binding protein-1 (IGFBP-1) are closely associated with the presence of macrovascular disease and hypertension in type 2 diabetes. Diabetes 51, 26292636.CrossRefGoogle ScholarPubMed
Hu, S, Yin, S, Jiang, X, Huang, D, Shen, G 2009. Melatonin protects against alcoholic liver injury by attenuating oxidative stress, inflammatory response, and apoptosis. European Journal of Pharmacology 616, 287292.CrossRefGoogle ScholarPubMed
Kersten, S, Seydoux, J, Peters, JM, Gonzalez, FJ, Desvergne, B, Wahli, W 1999. Peroxisome proliferator-activated receptor α mediates the adaptive response to fasting. The Journal of Clinical Investigation 103, 14891498.CrossRefGoogle ScholarPubMed
Kim, S, Sohn, I, Ahn, JI, Lee, KH, Lee, YS 2004. Hepatic gene expression profiles in a long-term high-fat-diet-induced obesity mouse model. Gene 340, 99109.CrossRefGoogle Scholar
Matsuzaka, T, Shimano, H, Yahagi, N, Kato, T, Atsumi, A, Yamamoto, T, Inoue, N, Ishikawa, M, Okada, S, Ishigaki, N, Iwasaki, H, Iwasaki, Y, Karasawa, T, Kumadaki, S, Matsui, T, Sekiya, M, Ohashi, K, Hasty, AH, Nakagawa, Y, Takahashi, A, Suzuki, H, Yatoh, S, Sone, H, Toyoshima, H, Osuga, J, Yamada, N 2007. Crucial role of a long-chain fatty acid elongase, Elovl6, in obesity-induced insulin resistance. Nature Medicine 13, 11931202.CrossRefGoogle ScholarPubMed
Nakai, Y, Hashida, H, Kadota, K, Minami, M, Shimizu, K, Matsumoto, I, Kato, H, Abe, K 2008. Up-regulation of genes related to the ubiquitin-proteasome system in the brown adipose tissue of 24-h-fasted rats. Bioscience Biotechnology Biochemistry 72, 139148.CrossRefGoogle Scholar
Patsouris, D, Reddy, JK, Muller, M, Kersten, S 2006. Peroxisome proliferator-activated receptor α mediates the effects of high-fat diet on hepatic gene expression. Endocrinology 147, 15081516.CrossRefGoogle ScholarPubMed
Song, HW, Nara, TY, Nakamura, MT 2002. Delayed induction of delta-6 and delta-5 desaturases by a peroxisome proliferator. Biochemical and Biophysical Research Communications 299, 832838.CrossRefGoogle Scholar
Stein, EA, Myers, GL 1995. National Cholesterol Education Program recommendations for triglyceride measurement: executive summary. The National Cholesterol Education Program Working Group on Lipoprotein Measurement. Clinical Chemistry 41, 14211426.CrossRefGoogle Scholar
Sundvall, J, Laatikainen, T, Hakala, S, Leiviska, J, Alfthan, G 2008. Systematic error of serum triglyceride measurements during three decades and the effect of fasting on serum triglycerides in population studies. Clinica Chimica Acta 397, 5559.CrossRefGoogle ScholarPubMed
Tugwood, JD, Issemann, I, Anderson, RG, Bundell, KR, McPheat, WL, Green, S 1992. The mouse peroxisome proliferator-activated receptor recognizes a response element in the 5′flanking sequence of the rat acyl CoA oxidase gene. The EMBO Journal 11, 433439.CrossRefGoogle ScholarPubMed
Zech, LA, Grundy, SM, Steinberg, D, Berman, M 1979. Kinetic model for production and metabolism of very low density lipoprotein triglycerides. Evidence for a slow production pathway and results for normolipidemic subjects. The Journal of Clinical Investigation 63, 12621273.CrossRefGoogle ScholarPubMed