BAT has shown beneficial effects on glucose tolerance, lipid metabolism, and body weight in pre-clinical studies. Unlike white fat cells, which store the body's surplus energy as fat, brown fat cells in BAT can convert some of this energy (lipids and glucose) into large amounts of heat when the body is exposed to cold, thus burning the energy surplus rather than storing it. Estimates suggest that fully activated BAT contributes up to 20% of total energy expenditure. Earlier studies have shown that BAT activity is reduced in obese adults.
South Asians have a much greater risk of developing type 2 diabetes than do white Caucasians. Moreover, in south Asians, type 2 diabetes develops at a far younger age, and at much lower body mass index (BMI). But, until now, little was known about the causes underlying these differences.
In this study, researchers from the Netherlands compared resting energy expenditure and BAT volume and activity in 12 healthy lean south Asian men (aged about 25 years) and 12 matched white Caucasian men after exposure to cold using 18F-fluorodeoxyglucose positron emission tomography and computed tomography (18F-FDG-PET-CT) scans*. The effect of cold exposure on non-shivering thermogenesis and plasma lipid levels was also measured.
Strikingly, results showed that resting energy expenditure was markedly lower (-32%) in south Asian participants than in Caucasians, as was the volume of metabolically active BAT (-34%). These findings were in line with the significantly higher shiver temperature noted in south Asians (10.9°C vs 8.9°C) upon cold exposure, despite their higher total fat mass. South Asians also had lower cold-induced non-shivering thermogenesis compared with Caucasians.
According to lead authors Mariëtte Boon and Patrick Rensen from Leiden University Medical Center in the Netherlands, "Our findings suggest that making more BAT or increasing its activity could have great therapeutic potential in south Asians, helping them increase the clearance of glucose and fatty acids and converting surplus white fat into heat, potentially lessening the risk of diabetes."**
They add, "It has recently been shown that BAT can be recruited in humans following 10 days of cold intervention. Future studies should be directed towards the efficacy of this strategy, as well as other options, such as medication, to increase BAT activity. These strategies might finally be used to improve the metabolic phenotype in south Asians."**
Writing in a linked Comment, Michael Symonds from The University of Nottingham in the UK points out, "As south Asians are much more susceptible to metabolic disturbances such as obesity and diabetes, it is important to establish whether these individuals are resistant to established stimulators of BAT thermogenesis such as chronic cold exposure or dietary stimulants like capsaicin.10 This group is now the ideal target for new pharmacological interventions that might offer proof-of-principle that enhanced BAT volume or function can have long-term health benefits against metabolic disease."
NOTES TO EDITORS:
*The uptake of 18F-FDG by tissues is a marker for the tissue uptake of glucose, which in turn is closely correlated with certain types of tissue metabolism. After 18F-FDG is injected into a patient, a PET-CT scanner can form two dimensional or three dimensional images of the distribution of 18F-FDG within the body.
**Quote direct from author and cannot be found in text of Article.
Journal
The Lancet Diabetes & Endocrinology