diabat

2014

Karbiener, M., Glantschnig, C., and Scheideler, M. 2014. Hunting the Needle in the Haystack: A Guide to Obtain Biologically Meaningful MicroRNA Targets. Int J Mol Sci 15(11):20266-20289

Nikolopoulou, E., papacleovoulou, G., Jean-Alphonse, F., Grimaldi, G., Parker, M.G., Hanyaloglu, A.C., and Christian, M. 2014. Arachidonic acid-dependent gene Regulation during preadipocyte differentiation controls adipocyte potential. J Lipid Res 55(12):2479-2490

Gnad, T., Scheibler, S., von Kügelgen, I, Scheele, C., Kili, A., Glöde, A., Hoffmann, L.S., Reverte-Salisa, L., Horn, P., Mutlu, S., El-Tayeb, A., Kranz, M., Deuther-Conrad W., Brust, P., Lidell, M.E., Betz, M.J., Enerbäck, S., Schrader, J., Yegutkin, G.G., Müller, C.E., and Pfeifer, A. 2014. Adenosine activates brown adipose tissue and recruits beige adipocytes via A2A receptors. Nature 516(7531): 395-399

Mössenböck, K., Vegiopoulos, A., Rose, A.J., Sijmonsma, T.P., Herzig, S., and Schafmeier, T. 2014. Browning of White Adipose Tissue Uncouples Glucose Uptake from Insulin Signaling. PLoS One 9(10):e110428

Peyrou, M., Bourgoin L., Poher, A.L., Altirriba, J., Maeder, C., Caillon, A., Fournier, M., Montet, X., Rohner-Jeanrenaud, F., and Foti, M. 2014. hepatic PTEN deficiency improves muscle Insulin sensitivity and decreases adiposity in mice. J Hepatol 62(2):421-429

Karbiener, M. and Scheideler, M. 2014. MicroRNA Functions in Brite/Brown Fat - Novel Perspectives towards Anti-Obesity Strategies. Comput Struct Biotechnol J 11(19):101-105

Hansen, I.R., Jansson, K.M., Cannon, B., and Nedergaard, J. 2014. Contrasting effects of cold acclimation versus obesogenic diets on chemerin gene Expression in Brown and brite adipose tissues. Biochim Biophys Acta 1841(12):1691-1699

van der Lans, A.A.J.J., Wierts, R., Vosselman M.J., Schrauwen, P., Brans, B., and van Marken Lichtenbelt, W. 2014. Cold-activated brown adipose tissue in human adults: methodological issues. Am J Physiol Regul Integr Comp Physiol 307(2):R103-R113

Vosselman, M.J., Vijgen, G.H.E.J., Kingma, B.R.M., Brans, B., and van Marken Lichtenbelt, W. 2014. Frequent extreme Cold exposure and Brown Fat and Cold-Induced Thermogenesis: A Study in a Monozygotic Twin. PLoS One 9(7):e101653

Lo, J.C., Ljubicic, S., Leibiger, B., Kern, M., Leibiger, I.B., Moede, T., Kelly, M.E., Bhowmick, D.C., Murano, I., Cohen, P., Banks, A.S., Khandekar, M.J., Dietrich, A., Flier, J.S., Cinti, S., Blüher, M., Danial, N.N., Berggren, P.O., and Spiegelman, B.M. 2014. Adipsin Is an Adipokine that Improves β Cell function in Diabetes. Cell 158(1):41-53

Li, Y., Bolze, F., Fromme, T., and Klingenspor, M. 2014. Intrinsic differences in BRITE adipogenesis of Primary adipocytes from two different mouse strains. Biochim Biophys Acta 1841(9):1345-1352

Fjaere, E., Aune, U.L., Roen, K., Keenan, A.H., Ma, T., Borbowski, K., Kristensen, D.M., Novotny, G.W., Mandrup-Poulsen, T., Hudson, B.D., Milligan, G., Xi, Y., Newman, J.W., Haj, F.G., Liaset, B., Kristiansen, K., and Madsen, L. 2014. Indomethacin Treatment Prevents High Fat Diet-induced Obesity and Insulin Resistance but Not Glucose Intolerance in C57BL/6J Mice. J Biol Chem 289(23):16032-16045

Carriere, A., Jeanson, Y., Berger-Muller, S., Andre, M., Chenouard, V., Arnaud, E., Barreau, C., Walther, R., Galinier, A., Wdziekonski, B., Villageois, P, Louche, K., Collas, P., Moro, C., Dani, C., Villaroya, F., and Casteilla, L. 2014. Browning of White Adipose Cells by Intermediate Metabolites: An Adaptive Mechanism to Alleviate Redox Pressure. Diabetes 63(10):3253-3265

Shabalina, I.G., Vrbacky, M., Pecinova, A., Kalinovich, A.V., Drahota, Z., Houatk, J., Mraek, T., Cannon, B., and Nedergaard, J. 2014. ROS production in brown adipose tissue mitochondria: The question of UCP1-dependence. Biochim Biophys Acta 1837(12):2017-2030

Palou, M., Priego, T., Romero, M., Szostaczuk, N., Konieczna, J., Cabrer, C., Remesar, X., Palou, A., and Pico, C. 2014. Moderate calorie restriction during gestation programs offspring for lower BAT thermogenic capacity driven by thyroid and sympathetic signaling. Int J Obes 39(2):339-345

Logan, A., Shabalina, I.G., Prime, T.A., Rogatti, S., Kalinovich, A.V., Hartley, R.C., Budd, R.C., Cannon, B., and Murphy, M.P. 2014. In vivo Levels of mitochondrial hydrogen peroxide increase with age in mtDNA mutator mice. Aging Cell 13(4): 765-768

Jilkova, Z.M., Hensler, M., Medrikova, D., Janovska, P., Horakova, O., Rossmeisl, M., Flachs, P., Sell, H., Eckel, J., and Kopecky, J. 2014. Adipose tissue-related Proteins locally associated with Resolution of Inflammation in obese mice. Int J Obes 38(2):216-223

Li, Y., Lasar, D., Fromme, T., and Klingenspor, M. 2014. White, brite, and brown adipocytes: the evolution and function of a heater organ in mammals. Can J Zool: in press

Giordano, A., Smorlesi, A., Frontini, A., Barbatelli, G., and Cinti, S. 2014. White, brown and pink adipocytes: the extraordinary plasticity of the adipose organ. Eur J Endocrinol 170(5):R159-R171

Karbiener, M., Pisani, D.F., Frontini, A., Oberreiter, L.M., Lang, E., Vegiopoulos, A., Mössenböck, K., Bernhardt, G.A., Mayr, T., Hildner, F., Grillari, J., Ailhaud, G. , Herzig, S., Cinti, S., Amri, E.Z., and Scheideler, M. 2013. MicroRNA-26 family is required for human adipogenesis and drives characteristics of brown adipocytes. Stem Cells 32(6):1578-1590

Rosell, M., Kaforou, M., Frontini, A., Okolo, A., Chan, Y.W., Nikolopoulou, E., Millership, S., Fenech, M.E., Macintyre, D., Turner, J.O., Moore, J.D., Blackburn, E., Gullick, W.J., Cinti, S., Montana, G., Parker, M.G., and Christian, M. 2014. Brown and White Adipose Tissues. Intrinsic differences in gene expression and response to cold exposure in mice. Am J Physiol Endocrinol Metab 306(8):E945-E964

Hondares, E., Gallego-Escuredo, J.M., Flachs, P., Frontini, A., Cereijo, R., Goday, A., Perugini, J., Kopecky, P., Giralt, M., Cinti, S., Kopecky, J., and Villarroya, F. 2014. Fibroblast growth factor-21 is expressed in neonatal and pheochromocytoma-induced adult human brown adipose tissue. Metabolism 63(3):312-317

Kiskinis, E., Chatzeli, L., Curry, E., Kaforou, M., Frontini, A., Cinti, S., Montana, G., Parker, M.G., and Christian, M. 2014. RIP140 represses the "brown-in-white" adipocyte program including a futile cycle of triacyclglycerol breakdown and synthesis. Mol Endocrinol 28(3):344-356

Knudsen, J.G., Murholm, M., Carey, A.L., Biensø, R.S., Basse, A.L., Allen, T.L., Hidalgo, J., Kingwell, B.A., Febbraio, M.A., Hansen, J.B., and Pilegaard, H. 2014. Role of IL-6 in Exercise Training- and Cold-Induced UCP1 Expression in Subcutaneous White Adipose Tissue. PLoS ONE 9(1):e84910

Wikstrom, J.D., Mahdaviani, K., Liesa, M., Sereda, S.B., Si, Y., Las, G., Twig, G., Petrovic, N., Zingaretti, C., Graham, A., Cinti, S., Corkey, B.E., Cannon, B., Nedergaard, J., and Shirihai, O.S. 2014. Hormone-induced mitochondrial fission is utilized by brown adipocytes as an amplification pathway for energy expenditure. EMBO J 33(5):418-436

Lahesmaa, M., Orava, J., Schalin-Jäntti, C., Soinio, M., Hannukainen, J.C., Noponen, T., Kirjavainen, A., Iida, H., Kudomi, N., Enerbäck, S., Virtanen, K.A., and Nuutila, P. 2014. Hyperthyroidism increases brown fat metabolism in humans. J Clin Endocrinol Metab 99(1):E28-35

Borga, M., Virtanen, K.A., Romu, T., Leinhard, O.D., Persson, A., Enerbäck, S., and Nuutila, P. 2014. Brown Adipose Tissue in Humans: Detection and Functional Analysis Using PET (Positron Emission Tomography), MRI (Magnetic Resonance Imaging), and DECT (Dual Energy Computed Tomography). Methods Enzymol 537:141-159

Eheim, A., Medrikova, D., and Herzig, S. 2014. Immune cells and metabolic dysfunction. Semin Immunopathol 36(1):13-25

Enerbäck, S. 2014. An Enzymatic Chromatin Switch that Directs Formation of Active Brown Fat. Cell Metab 19(1): 3-4