Abstract
Hypothalamic inflammation and dysfunction are common features of experimental obesity. An imbalance between caloric intake and energy expenditure is generated as a consequence of this inflammation, leading to the progressive increase of body adiposity. Thermogenesis, is one of the main functions affected by obesity-linked hypothalamic dysfunction and the complete characterization of the mechanisms involved in this process may offer new therapeutic perspectives for obesity. The brown adipose tissue is an important target for hypothalamic action in thermogenesis. This tissue has been thoroughly studied in rodents and hibernating mammals; however, until recently, its advocated role in human thermogenesis was neglected due to the lack of substantial evidence of its presence in adult humans. The recent demonstration of the presence of functional brown adipose tissue in adult humans has renovated the interest in this tissue. Here, we review some of the work that shows how inflammation and dysfunction of the hypothalamus can control brown adipose tissue activity and how this can impact on whole body thermogenesis and energy expenditure.
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References
Anandacoomarasamy A, Caterson I, Sambrook P, Fransen M, March L (2008) Int J Obes (Lond) 32:211–222
Araujo EP, De Souza CT, Ueno M, Cintra DE, Bertolo MB, Carvalheira JB, Saad MJ, Velloso LA (2007) Endocrinology 148:5991–5997
Araujo EP, Torsoni MA, Velloso LA (2010) Vitam Horm 82:129–143
Arruda AP, Milanski M, Romanatto T, Solon C, Coope A, Alberici LC, Festuccia WT, Hirabara SM, Ropelle E, Curi R, Carvalheira JB, Vercesi AE, Velloso LA (2010) Endocrinology 151:683–694
Arruda AP, Milanski M, Coope A, Torsoni AS, Ropelle E, Carvalho DP, Carvalheira JB, Velloso LA (2011) Low-Grade Hypothalamic inflammation leads to defective thermogenesis, insulin resistance, and impaired insulin secretion. Endocrinology, in press
Banno R, Zimmer D, De Jonghe BC, Atienza M, Rak K, Yang W, Bence KK (2010) J Clin Invest 120:720–734
Bence KK, Delibegovic M, Xue B, Gorgun CZ, Hotamisligil GS, Neel BG, Kahn BB (2006) Nat Med 12:917–924
Benoit SC, Kemp CJ, Elias CF, Abplanalp W, Herman JP, Migrenne S, Lefevre AL, Cruciani-Guglielmacci C, Magnan C, Yu F, Niswender K, Irani BG, Holland WL, Clegg DJ (2009) J Clin Invest 119:2577–2589
Carvalheira JB, Siloto RM, Ignacchitti I, Brenelli SL, Carvalho CR, Leite A, Velloso LA, Gontijo JA, Saad MJ (2001) FEBS Lett 500:119–124
Cheng A, Uetani N, Simoncic PD, Chaubey VP, Lee-Loy A, McGlade CJ, Kennedy BP, Tremblay ML (2002) Dev Cell 2:497–503
Chua SC Jr, White DW, Wu-Peng XS, Liu SM, Okada N, Kershaw EE, Chung WK, Power-Kehoe L, Chua M, Tartaglia LA, Leibel RL (1996) Diabetes 45:1141–1143
Cypess AM, Lehman S, Williams G, Tal I, Rodman D, Goldfine AB, Kuo FC, Palmer EL, Tseng YH, Doria A, Kolodny GM, Kahn CR (2009) N Engl J Med 360:1509–1517
Dandona P, Weinstock R, Thusu K, Abdel-Rahman E, Aljada A, Wadden T (1998) J Clin Endocrinol Metab 83:2907–2910
Daniels SR (2009) Int J Obes (Lond) 33(Suppl 1):S60–S65
Davis RJ (2000) Cell 103:239–252
De Souza CT, Araujo EP, Bordin S, Ashimine R, Zollner RL, Boschero AC, Saad MJ, Velloso LA (2005) Endocrinology 146:4192–4199
Elias CF, Lee C, Kelly J, Aschkenasi C, Ahima RS, Couceyro PR, Kuhar MJ, Saper CB, Elmquist JK (1998) Neuron 21:1375–1385
Gourine AV, Rudolph K, Tesfaigzi J, Kluger MJ (1998) Am J Physiol 275:R754–R761
Hainer V, Toplak H, Mitrakou A (2008) Diab Care 31(Suppl 2):S269–S277
Haslam DW, James WP (2005) Lancet 366:1197–1209
Hotamisligil GS (2010) Cell 140:900–917
Howard JK, Flier JS (2006) Trends Endocrinol Metab 17:365–371
Howard JK, Cave BJ, Oksanen LJ, Tzameli I, Bjorbaek C, Flier JS (2004) Nat Med 10:734–738
Israel A (2010) Cold Spring Harb Perspect Biol 2:a000158
Kayacan O, Karnak D, Beder S, Gullu E, Tutkak H, Senler FC, Koksal D (2006) Am J Clin Oncol 29:328–335
Kelly T, Yang W, Chen CS, Reynolds K, He J (2008) Int J Obes (Lond) 32:1431–1437
Milanski M, Degasperi G, Coope A, Morari J, Denis R, Cintra DE, Tsukumo DM, Anhe G, Amaral ME, Takahashi HK, Curi R, Oliveira HC, Carvalheira JB, Bordin S, Saad MJ, Velloso LA (2009) J Neurosci 29:359–370
Minokoshi Y, Haque MS, Shimazu T (1999) Diabetes 48:287–291
Mori H, Hanada R, Hanada T, Aki D, Mashima R, Nishinakamura H, Torisu T, Chien KR, Yasukawa H, Yoshimura A (2004) Nat Med 10:739–743
Myers MG Jr, Leibel RL, Seeley RJ, Schwartz MW (2010) Trends Endocrinol Metab 21:643–651
Neovius M, Narbro K (2008) Int J Obes (Lond) 32:1752–1763
Niswender KD, Schwartz MW (2003) Front Neuroendocrinol 24:1–10
Niswender KD, Morrison CD, Clegg DJ, Olson R, Baskin DG, Myers MG Jr, Seeley RJ, Schwartz MW (2003) Diabetes 52:227–231
Niswender KD, Baskin DG, Schwartz MW (2004) Trends Endocrinol Metab 15:362–369
Picardi PK, Calegari VC, Prada Pde O, Moraes JC, Araujo E, Marcondes MC, Ueno M, Carvalheira JB, Velloso LA, Saad MJ (2008) Endocrinology 149:3870–3880
Prada PO, Zecchin HG, Gasparetti AL, Torsoni MA, Ueno M, Hirata AE, Corezola do Amaral ME, Hoer NF, Boschero AC, Saad MJ (2005) Endocrinology 146:1576–1587
Romanatto T, Cesquini M, Amaral ME, Roman EA, Moraes JC, Torsoni MA, Cruz-Neto AP, Velloso LA (2007) Peptides 28:1050–1058
Romanatto T, Roman EA, Arruda AP, Denis RG, Solon C, Milanski M, Moraes JC, Bonfleur ML, Degasperi GR, Picardi PK, Hirabara S, Boschero AC, Curi R, Velloso LA (2009) J Biol Chem 284:36213–36222
Ross R, Bradshaw AJ (2009) Nat Rev Endocrinol 5:319–325
Shek EW, Scarpace PJ (2000) Regul Pept 92:65–71
Tartaglia LA, Dembski M, Weng X, Deng N, Culpepper J, Devos R, Richards GJ, Campfield LA, Clark FT, Deeds J, Muir C, Sanker S, Moriarty A, Moore KJ, Smutko JS, Mays GG, Wool EA, Monroe CA, Tepper RI (1995) Cell 83:1263–1271
Tice JA, Karliner L, Walsh J, Petersen AJ, Feldman MD (2008) Am J Med 121:885–893
Tsiros MD, Olds T, Buckley JD, Grimshaw P, Brennan L, Walkley J, Hills AP, Howe PR, Coates AM (2009) Int J Obes (Lond) 33:387–400
Unger EK, Piper ML, Olofsson LE, Xu AW (2010) Endocrinology 151:671–682
Vaanholt LM, Jonas I, Doornbos M, Schubert KA, Nyakas C, Garland T Jr, Visser GH, van Dijk G (2008) Int J Obes (Lond) 32:1566–1575
van Marken Lichtenbelt WD, Vanhommerig JW, Smulders NM, Drossaerts JM, Kemerink GJ, Bouvy ND, Schrauwen P, Teule GJ (2009) N Engl J Med 360:1500–1508
Virtanen KA, Lidell ME, Orava J, Heglind M, Westergren R, Niemi T, Taittonen M, Laine J, Savisto NJ, Enerback S, Nuutila P (2009) N Engl J Med 360:1518–1525
Wang Q, Bing C, Al-Barazanji K, Mossakowaska DE, Wang XM, McBay DL, Neville WA, Taddayon M, Pickavance L, Dryden S, Thomas ME, McHale MT, Gloyer IS, Wilson S, Buckingham R, Arch JR, Trayhurn P, Williams G (1997) Diabetes 46:335–341
Yang H, Wang H, Czura CJ, Tracey KJ (2005) J Leukoc Biol 78:1–8
Zabolotny JM, Bence-Hanulec KK, Stricker-Krongrad A, Haj F, Wang Y, Minokoshi Y, Kim YB, Elmquist JK, Tartaglia LA, Kahn BB, Neel BG (2002) Dev Cell 2:489–495
Zhang Y, Proenca R, Maffei M, Barone M, Leopold L, Friedman JM (1994) Nature 372:425–432
Zhang X, Zhang G, Zhang H, Karin M, Bai H, Cai D (2008) Cell 135:61–73
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Arruda, A.P., Milanski, M. & Velloso, L.A. Hypothalamic inflammation and thermogenesis: the brown adipose tissue connection. J Bioenerg Biomembr 43, 53–58 (2011). https://doi.org/10.1007/s10863-011-9325-z
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DOI: https://doi.org/10.1007/s10863-011-9325-z