Department of Pediatrics, Wayne State University School of Medicine Detroit, MI, USA.
Front Endocrinol (Lausanne). 2012 Feb 8;3:15. doi: 10.3389/fendo.2012.00015. eCollection 2012.
Although it has been believed that brown adipose tissue (BAT) depots disappear shortly after the perinatal period in humans, positron emission tomography (PET) imaging using the glucose analog ¹⁸F-deoxy-d-glucose (FDG) has shown unequivocally the existence of functional BAT in humans, suggesting that most humans have some functional BAT. The objective of this study was to determine, using dynamic oxygen-15 (¹⁵O) PET imaging, to what extent BAT thermogenesis is activated in adults during cold stress and to establish the relationship between BAT oxidative metabolism and FDG tracer uptake.
Fourteen adult normal subjects (9F/5M, 30 ± 7 years) underwent triple oxygen scans (H₂¹⁵O, C¹⁵O, ¹⁵O₂) as well as indirect calorimetric measurements at both rest and following exposure to mild cold (16°C). Subjects were divided into two groups (BAT+ and BAT-) based on the presence or absence of FDG tracer uptake (SUV > 2) in cervical-supraclavicular BAT. Blood flow and oxygen extraction fraction (OEF) was calculated from dynamic PET scans at the location of BAT, muscle, and white adipose tissue (WAT). The metabolic rate of oxygen (MRO₂) in BAT was determined and used to calculate the contribution of activated BAT to daily energy expenditure (DEE).
The median mass of activated BAT in the BAT+ group (5F, age 31 ± 8) was 52.4 g (range 14-68 g) and was 1.7 g (range 0-6.3 g) in the BAT - group (5M/4F, age 29 ± 6). Corresponding SUV values were significantly higher in the BAT+ as compared to the BAT- group (7.4 ± 3.7 vs. 1.9 ± 0.9; p = 0.03). Blood flow values in BAT were significantly higher in the BAT+ group as compared to the BAT- group (13.1 ± 4.4 vs. 5.7 ± 1.1 ml/100 g/min, p = 0.03), but were similar in WAT (4.1 ± 1.6 vs. 4.2 ± 1.8 ml/100 g/min) and muscle (3.7 ± 0.8 vs. 3.3 ± 1.2 ml/100 g/min). Moreover, OEF in BAT was similar in the two groups (0.56 ± 0.18 in BAT+ vs. 0.46 ± 0.19 in BAT-, p = 0.39). Calculated MRO(2) values in BAT increased from 0.95 ± 0.74 to 1.62 ± 0.82 ml/100 g/min in the BAT+ group and were significantly higher than those determined in the BAT- group (0.43 ± 0.27 vs. 0.56 ± 0.24, p = 0.67). The DEE associated with BAT oxidative metabolism was highly variable in the BAT+ group, with an average of 5.5 ± 6.4 kcal/day (range 0.57-15.3 kcal/day).
BAT thermogenesis in humans accounts for less than 20 kcal/day during moderate cold stress, even in subjects with relatively large BAT depots. Furthermore, due to the large differences in blood flow and glucose metabolic rates in BAT between humans and rodents, the application of rodent data to humans is problematic and needs careful evaluation.
尽管人们一直认为棕色脂肪组织 (BAT) 在人类围产期后不久就会消失,但使用葡萄糖类似物 ¹⁸F-脱氧-d-葡萄糖 (FDG) 的正电子发射断层扫描 (PET) 成像已明确显示人类存在功能性 BAT,表明大多数人都有一定程度的功能性 BAT。本研究的目的是使用动态氧-15 (¹⁵O) PET 成像来确定在冷应激期间成年人 BAT 产热在多大程度上被激活,并确定 BAT 氧化代谢与 FDG 示踪剂摄取之间的关系。
14 名成年正常受试者(9 女/5 男,30±7 岁)在静息和暴露于轻度寒冷(16°C)时分别进行了三次氧扫描(H₂¹⁵O、C¹⁵O、¹⁵O₂)和间接热量测量。根据颈锁骨上 BAT 中是否存在 FDG 示踪剂摄取(SUV>2),将受试者分为 BAT+和 BAT-两组。从 BAT、肌肉和白色脂肪组织(WAT)的位置的动态 PET 扫描中计算血流量和氧提取分数(OEF)。测定 BAT 的耗氧量(MRO₂)并用于计算激活的 BAT 对每日能量消耗(DEE)的贡献。
BAT+组(5 女,年龄 31±8)中激活的 BAT 质量中位数为 52.4g(范围 14-68g),BAT-组(5 男/4 女,年龄 29±6)为 1.7g(范围 0-6.3g)。与 BAT-组相比,BAT+组的 SUV 值明显更高(7.4±3.7 vs. 1.9±0.9;p=0.03)。BAT 中的血流量值在 BAT+组中明显高于 BAT-组(13.1±4.4 与 5.7±1.1ml/100g/min,p=0.03),但在 WAT(4.1±1.6 与 4.2±1.8ml/100g/min)和肌肉(3.7±0.8 与 3.3±1.2ml/100g/min)中相似。此外,两组的 OEF 相似(BAT+组为 0.56±0.18,BAT-组为 0.46±0.19,p=0.39)。BAT 中的计算 MRO(2) 值从 BAT+组的 0.95±0.74 增加到 1.62±0.82ml/100g/min,明显高于 BAT-组(0.43±0.27 与 0.56±0.24,p=0.67)。BAT 氧化代谢相关的 DEE 在 BAT+组中变化很大,平均为 5.5±6.4kcal/天(范围 0.57-15.3kcal/天)。
在中度冷应激期间,人类的 BAT 产热不到 20kcal/天,即使在 BAT 储备相对较大的受试者中也是如此。此外,由于人类和啮齿动物之间 BAT 血流量和葡萄糖代谢率存在较大差异,因此将啮齿动物数据应用于人类存在问题,需要仔细评估。
