Fasting regulates fsp27 expression in the liver 1

Journal of Lipid Research

Volumn 54, Issue 3, 2013, Pages 569-570

  Puri, Vishwajeet ^a  

^a BOSTON UNIVERSITY SCHOOL OF MEDICINE   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CREB REGULATED TRANSCRIPT COACTIVATOR 2; CYCLIC AMP RESPONSIVE ELEMENT BINDING PROTEIN; FAT DROPLET; FATTY ACID; LIPID BINDING PROTEIN; MEMBRANE PROTEIN; NICOTINAMIDE ADENINE DINUCLEOTIDE; PEROXISOME PROLIFERATOR ACTIVATED RECEPTOR ALPHA; PEROXISOME PROLIFERATOR ACTIVATED RECEPTOR GAMMA; PROTEIN FSP27; REDUCED NICOTINAMIDE ADENINE DINUCLEOTIDE; SIRTUIN 1; TRIACYLGLYCEROL; UNCLASSIFIED DRUG;

ADIPOCYTE; BROWN ADIPOSE TISSUE; CELL DIFFERENTIATION; DIET RESTRICTION; ENERGY EXPENDITURE; FATTY ACID OXIDATION; FATTY LIVER; HUMAN; INSULIN SENSITIVITY; LIPID DIET; LIPID LIVER LEVEL; LIPID METABOLISM; LIPID STORAGE; LIPOLYSIS; LIVER; MITOCHONDRIAL RESPIRATION; NONHUMAN; NOTE; PRIORITY JOURNAL; PROTEIN ANALYSIS; PROTEIN EXPRESSION; PROTEIN FUNCTION; TRANSCRIPTION REGULATION; UPREGULATION; WHITE ADIPOSE TISSUE;

ANIMALS; FASTING; FATTY ACIDS; HUMANS; LIVER; MALE; PROTEINS;

EID: 84874054093     PISSN: 00222275     EISSN: 15397262     Source Type: Journal    
DOI: 10.1194/jlr.E036020     Document Type: Note

References (20)

1. Puri, V., S. Konda, S. Ranjit, M. Aouadi, A. Chawla, M. Chouinard, A. Chakladar, and M. P. Czech. 2007. Fat-specifi c protein 27, a novel lipid droplet protein that enhances triglyceride storage. J. Biol. Chem. 282 : 34213-34218.
2. Keller, P., J. T. Petrie, P. De Rose, I. Gerin, W. S. Wright, S. H. Chiang, A. R. Nielsen, C. P. Fischer, B. K. Pedersen, and O. A. MacDougald. 2008. Fat-specifi c protein 27 regulates storage of triacylglycerol. J. Biol. Chem. 283 : 14355-14365.
3. Nishino, N., Y. Tamori, S. Tateya, T. Kawaguchi, T. Shibakusa, W. Mizunoya, K. Inoue, R. Kitazawa, S. Kitazawa, and Y. Matsuki, et al. 2008. FSP27 contributes to effi cient energy storage in murine white adipocytes by promoting the formation of unilocular lipid droplets. J. Clin. Invest. 118 : 2808-2821.
4. Danesch, U., W. Hoeck, and G. M. Ringold. 1992. Cloning and transcriptional regulation of a novel adipocyte-specific gene, FSP27. CAAT-enhancer-binding protein (C/EBP) and C/EBP-like proteins interact with sequences required for differentiation-dependent expression. J. Biol. Chem. 267 : 7185-7193.
5. Su, A. I., M. P. Cooke, K. A. Ching, Y. Hakak, J. R. Walker, T. Wiltshire, A. P. Orth, R. G. Vega, L. M. Sapinoso, and A. Moqrich, et al. 2002. Large-scale analysis of the human and mouse transcriptomes. Proc. Natl. Acad. Sci. USA. 99 : 4465-4470.
6. Williams, P. M., D. J. Chang, U. Danesch, G. M. Ringold, and R. A. Heller. 1992. CCAAT/enhancer binding protein expression is rapidly extinguished in TA1 adipocyte cells treated with tumor necrosis factor. Mol. Endocrinol. 6 : 1135-1141.
7. Yu, S., K. Matsusue, P. Kashireddy, W. Q. Cao, V. Yeldandi, A. V. Yeldandi, M. S. Rao, F. J. Gonzalez, and J. K. Reddy. 2003. Adipocytespecifi c gene expression and adipogenic steatosis in the mouse liver due to peroxisome proliferator-activated receptor gamma1 (PPARgamma1) overexpression. J. Biol. Chem. 278 : 498-505.
8. Kim, J. Y., K. Liu, S. Zhou, K. Tillison, Y. Wu, and C. M. Smas. 2008. Assessment of fat-specifi c protein 27 in the adipocyte lineage suggests a dual role for FSP27 in adipocyte metabolism and cell death. Am. J. Physiol. Endocrinol. Metab. 294 : E654-E667.
9. Rubio-Cabezas, O., V. Puri, I. Murano, V. Saudek, R. K. Semple, S. Dash, C. S. Hyden, W. Bottomley, C. Vigouroux, and J. Magre, et al. 2009. Partial lipodystrophy and insulin resistant diabetes in a patient with a homozygous nonsense mutation in CIDEC. EMBO Mol. Med. 1 : 280-287.
10. Puri, V., S. Ranjit, S. Konda, S. M. Nicoloro, J. Straubhaar, A. Chawla, M. Chouinard, C. Lin, A. Burkart, and S. Corvera, et al. 2008. Cidea is associated with lipid droplets and insulin sensitivity in humans. Proc. Natl. Acad. Sci. USA. 105 : 7833-7838.
11. Toh, S. Y., J. Gong, G. Du, J. Z. Li, S. Yang, J. Ye, H. Yao, Y. Zhang, B. Xue, and Q. Li, et al. 2008. Up-regulation of mitochondrial activity and acquirement of brown adipose tissue-like property in the white adipose tissue of fsp27 defi cient mice. PLoS ONE. 3 : e2890.
12. Gong, J., Z. Sun, L. Wu, W. Xu, N. Schieber, D. Xu, G. Shui, H. Yang, R. G. Parton, and P. Li. 2011. Fsp27 promotes lipid droplet growth by lipid exchange and transfer at lipid droplet contact sites. J. Cell Biol. 195 : 953-963.
13. Jambunathan, S., J. Yin, W. Khan, Y. Tamori, and V. Puri. 2011. FSP27 Promotes Lipid Droplet Clustering and Then Fusion to Regulate Triglyceride Accumulation. PLoS ONE. 6 : e28614.
14. Puri, V., J. V. Virbasius, A. Guilherme, and M. P. Czech. 2008. RNAi screens reveal novel metabolic regulators: RIP140, MAP4k4 and the lipid droplet associated fat specifi c protein (FSP) 27. Acta Physiol. (Oxf.). 192 : 103-115.
15. Matsusue, K., T. Kusakabe, T. Noguchi, S. Takiguchi, T. Suzuki, S. Yamano, and F. J. Gonzalez. 2008. Hepatic steatosis in leptindefi cient mice is promoted by the PPARgamma target gene Fsp27. Cell Metab. 7 : 302-311.
16. Flach, R. J., H. Qin, L. Zhang, and A. M. Bennett. 2011. Loss of mitogen-activated protein kinase phosphatase-1 protects from hepatic steatosis by repression of cell death-inducing DNA fragmentation factor A (DFFA)-like effector C (CIDEC)/fat-specifi c protein 27. J. Biol. Chem. 286 : 22195-22202.
17. Karbowska, J., and Z. Kochan. 2012. Intermittent fasting upregulates Fsp27/Cidec gene expression in white adipose tissue. Nutrition. 28 : 294-299.
18. Vila-Brau, A., A. L. De Sousa-Coelho, J. F. Goncalves, D. Haro, and P. F. Marrero. Fs12p27/CIDEC is a CREB target gene induced during early fasting in liver and regulated by fatty acid oxidation rate. J. Lipid Res. 54 : 592-601.
19. Le Lay, J., G. Tuteja, P. White, R. Dhir, R. Ahima, and K. H. Kaestner. 2009. CRTC2 (TORC2) contributes to the transcriptional response to fasting in the liver but is not required for the maintenance of glucose homeostasis. Cell Metab. 10 : 55-62.
20. Liu, Y., R. Dentin, D. Chen, S. Hedrick, K. Ravnskjaer, S. Schenk, J. Milne, D. J. Meyers, P. Cole, and J. Yates, 3rd, et al. 2008. A fasting inducible switch modulates gluconeogenesis via activator/coactivator exchange. Nature. 456 : 269-273.