Obesity is an energy balance regulation dysfunction thatleads to an excessive fat deposition, which increases the riskfor cardiovascular, respiratory, and metabolic diseases, inparticular when such deposition occurs within the abdomi-nal cavity. The high prevalence of obesity and its costlyco-morbidities has significantly contributed to intensify ef-forts to understand obesity, which is currently at the fore-front of biochemical, biomolecular, and neurobiological re-search. We now confront the tremendous challenge ofpreventing obesity and developing effective treatments.In the last 15 years, research has generated many impor-tant discoveries, including those of adipose tissue-derivedhormones such as leptin and adiponectin, those of the gas-trointestinal tract hormones such as ghrelin, and the deter-mination of numerous central and peripheral circuitries in-volved in energy balance regulation. The neurobiology ofobesity represents a rapidly growing research field that hasprovedtobeessentialintheunderstandingoftheetiologyofobesity. The brain plays a major role in energy balanceregulation as it exerts controls on both food intake andenergy expenditure (Figure 1). Three brain entities are par-ticularly important in these controls, namely the hypothal-amus, the dorsal vagal complex, and the reward system,which are inter-related structures capable of controllingenergy intake as well as thermogenesis. Brain systems con-trolling energy intake and energy expenditure have beendivided into anabolic and catabolic systems, each systemcomprising different types of neurons capable of controllingenergy intake as well as energy expenditure. These neuronsrelease various molecules that include neuropeptide Y, ag-outi-related peptide, melanin-concentrating hormone, theendocannabinoids, -melanocyte-stimulating hormone, co-caine- and amphetamine-regulated transcript, corticotropin-releasing factor, thyrotropin-releasing hormone, and seroto-nin. These neurosystems are modulated by short- and long-termsignalsthatreportonthestatusoftheenergystoresandenergy fluxes. Whereas leptin and insulin are recognized asthe main long-term signals, the gastrointestinal hormonesghrelin, peptide tyrosine-tyrosine, cholecystokinin, and glu-cagon-like peptide 1 are known as short-term signals thatinform about the nutritional status. The way an organismregulates energy balance is in large part a function of itsgenes and the environment. One energy expenditure com-ponent, which is perhaps not so important in human ener-getics but which is undoubtedly relevant in laboratory ro-dents used by most neurobiologists of obesity, is brownadipose tissue thermogenesis, the activity of which dependson factors activating the sympathetic nervous system. Theextraordinary thermogenic power of brown adipose tissue isattributable to uncoupling protein 1, a mitochondrial proteinuniquely found in brown adipose tissue.It is within the mission of the Merck Frosst/CIHR Re-search Chair in Obesity to provide continuing educationabout the best possible knowledge on obesity to scientists,physicians, health professionals, as well as to the public atlarge, regarding the causes, complications, treatment, andprevention of obesity. In this regard, the purpose of theannual symposium is to summarize evidence regarding im-portant topics related to obesity and to propose novel obe-sity research directions. Since its creation in 1997, theMerck Frosst/CIHR Research Chair in Obesity has held sixinternational symposia devoted entirely to obesity research.The first symposium of the series, entitled “The UncouplingProteins and Obesity,” was held in 1998 (1). The secondsymposium, which was organized the following year, wasoriented toward “The New Biology of Adipose Tissue” (2).In 2000, the third symposium was entitled “The Pon-derostat: From Behavior to Neural Substrates” (3) and fo-cused on the mechanisms whereby energy balance is regu-lated. The fourth symposium, organized in November 2002and entitled “Complications of Obesity: The InflammatoryLink,” summarized the latest most important findings on themechanisms underlying the link between obesity and itscomplications such as diabetes and cardiovascular diseases(4). In 2003, the fifth symposium brought a comprehensiveview on the “Role of Gene Regulation in Obesity and itsComplications” (5) and, specifically, on the regulation ofperoxisome proliferator-activated receptors, prostaglandin
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