冷环境中解偶联蛋白对动物体温的调节作用

解偶联蛋白属线粒体内膜载体蛋白,存在动物体的棕色脂肪组织（brown adipose tissue,BAT）、白色脂肪组织（white adipose tissue,WAT）、骨胳肌以及各种器官中。这些组织器官是哺乳动物及禽类非颤抖产热（NST）及其它产热作用的主要点位,对动物的体温维持和能量平衡调节起重要作用。     

Triiodothyronine differentially regulates key metabolic factors in lean and obese cats

The effect of a 2-week administration of 75microg triiodothyronine (T3) on substrate oxidation, heat production, non-esterified fatty acids, and leptin was evaluated in eight lean (three females and five males) and eight obese (five females and three males) age-matched adult neutered cats. In addition, using real-time RT-PCR, expression of muscle and adipose tissue uncoupling proteins (UCP2 and UCP3), deiodinase 1 and 2 (D1; D2), and peroxisome proliferator-activated receptor (PPAR) alpha and gamma and peroxisome-proliferator-activator receptor-gamma co-activator 1alpha (PGC1) was examined. Compared to lean cats, obese cats had increased NEFA, leptin, UCP2, and D1mRNA in muscle and UCP3mRNA levels in fat, but lower heat production, and fat PPARs and PGC1. T3 administration increased thermogenesis and NEFA in lean and obese cats, and adipose tissue PPARgamma in lean cats. It also increased muscle D1 in lean and D2 in obese cats. The increase in muscle D2 was interpreted to be reflective of the reduced serum total T4 concentration following T3 suppression of the pituitary. No effect was seen on leptin, or UCP2 and 3. This shows that T3 regulates thermogenesis but not through changes in uncoupling protein expression. It also indicates that PPARs have an important role in the pathogenesis of obesity in cats.     

解偶联蛋白与动物的冷适应

动物的脂肪组织为棕色脂肪组织(brow n ad ipose tissue,BAT)和白色脂肪组织(w h ite ad ipose tissue,W AT)。棕色脂肪组织中含有大量线粒体,是哺乳动物非颤抖产热的主要器官,对动物的体温控制和能量平衡调节起重要作用,位于线粒体内膜的解偶联蛋白(uncoup ling prote in,UCP)的含量和活性是决定其功能的关键因素。作者综述了UCP的结构、UCP基因的多态性及其与肥胖的关系、影响UCPmRNA表达的因素,并对UCP进行了讨论与展望。     

Beta 3-adrenergic agonist up-regulates uncoupling proteins 2 and 3 in skeletal muscle of the mouse

Chronic stimulation of the beta3-adrenergic receptor (AR) in obese animals resulted in a reduced adiposity associated with an increased expression of thermogenic uncoupling protein (UCP)1 in adipose tissues. In this study, the mRNA expression of newly cloned UCP isoforms (UCP2 and UCP3) were examined in obese yellow KK and C57BL control mice. UCP2 mRNA was found in all tissues examined, with higher levels in adipose tissues and skeletal muscle of the obese mice. UCP3 mRNA was expressed in skeletal muscle, heart and brown adipose tissue similarly in the two mouse strains. Daily injection of a selective beta3-adrenergic agonist, CL316,243 (0.1 mg/kg), for 10 days resulted in a marked reduction of white fat pad weight and 1.8-4.8-fold increase in the mRNA levels of UCP2 and UCP3 in skeletal muscle of obese mice. No noticeable change in the UCP2 and 3 mRNA levels was found in brown and white adipose tissues. It was also found that CL316,243 injection produced a marked and sustained elevation of the plasma free fatty acid level. These results, together with our previous findings of the fatty acid-induced UCP expression in a myocyte cell line in vitro, suggest that the beta3-AR agonist-induced UCP expression in skeletal muscle may be mediated through the elevated plasma free fatty acids. It was also suggested that anti-obesity effect of beta3-AR agonists is attributable to increased thermogenesis not only by UCP1 but also by UCP2 and UCP3.     

Role of uncoupling protein 1 in the anti-obesity effect of beta3-adrenergic agonist in the dog

We have reported that chronic treatment with beta3-adrenoceptor agonists reduces body fat content and induces the expression of mitochondrial thermogenic uncoupling protein 1 (UCP1) in adipose tissue in the dog. To evaluate the role of UCP1 in the anti-obesity effect of the agonists, we isolated adipocytes from subcutaneous fat pad of beagles before and after a 2-week treatment with AJ-9677, a specific beta3-adrenoceptor agonist, and examined their thermogenic activity in vitro. Histological and protein analysis revealed that adipose tissues before the treatment were composed of unilocular cells filled with a single large droplet, while the tissues after the treatment contained many smaller and some multilocular adipocytes expressing UCP1 and abundant mitochondrial proteins. Before the treatment, oxygen consumption rate was very low and did not change even when the cells were stimulated by AJ-9677. Two-week AJ-9677 treatment increased basal oxygen consumption rate by 7-fold, and produced a clear responsiveness to AJ-9677 stimulation. Thus, chronic treatment with AJ-9677 induced UCP1 in adipocytes, where oxygen consumption increased in response to AJ-9677 stimulation. It was suggested that UCP1-dependent energy expenditure in adipose tissue contributes to the anti-obesity effect of beta3-adrenoceptor agonist in dogs.     

Ontogenic development of brown adipose tissue in Angus and Brahman fetal calves

Brahman calves experience greater neonatal mortality than Angus calves if cold-stressed. To establish a developmental basis for this, three fetuses of each breed type were taken at 96, 48, 24, 14, and 6 d before expected parturition, and at parturition. Overall fetal BW tended (P = 0.08) to be greater for Angus than for Brahman fetuses. There was no difference between breed types in total brown adipose tissue (BAT) mass or grams of BAT/kg BW. Brown adipocyte density decreased 56%, whereas lipogenesis from acetate and glucose in vitro decreased 97% during the last 96 d of gestation in both breed types. Glycerolipid synthesis from palmitate declined by 85% during the last trimester but still contributed 98% to total lipid synthesis at birth. The fetal age x breed interaction was significant for lipogenesis from glucose (P = 0.05) and palmitate (P = 0.005); rates were higher at 96 d before birth in Brahman BAT but declined to similar rates by birth. Uncoupling protein-1 (UCP1) mRNA tripled during gestation in both breed types (P = 0.002), whereas mitochondrial cross-sectional area did not change (P = 0.14) during gestation. Neither the breed nor the age x breed effect was significant (P > or = 0.24) for UCP1 mRNA concentration or mitochondrial cross-sectional area. In both breed types, a marked decrease in BAT UCP1 mRNA between 24 and 14 d prepartum was associated with a similar reduction in lipogenesis from palmitate and a noticeable change in BAT mitochondrial morphology, as the mitochondria became more elongated and the cristae became more elaborate. Uncoupling protein-1 mRNA initially was elevated in Angus tailhead s.c. adipose tissue, but was barely detectable by birth, and tended to be greater overall (P = 0.09) in Angus than in Brahman BAT. If uncoupling protein activity in s.c. adipose tissue persists after birth, then s.c. adipose tissue may contribute more to thermogenesis in Angus newborn calves than in Brahman calves. In contrast, we did not observe differences in ontogenic development of perirenal BAT that could explain the documented differences in thermogenic capacity between Angus and Brahman newborn calves.     

UCPs基因多态性与脂肪代谢的相关性研究

解偶联蛋白(uncoupling protein,UCPs)是线粒体内膜上具有调节质子跨膜转运作用的载体蛋白,在调节动物能量代谢、脂肪沉积及脂肪酸氧化等方面起着重要作用。到目前为止,至少有5种(UCP1、UCP2、UCP3、UCP4和UCP5)这个家族的蛋白质已经在人类、哺乳动物、禽类、鱼甚至在植物的不同组织线粒体的内膜上被发现。UCPs在能量代谢动态平衡中、机体生热作用、肥胖、糖尿病及自由基代谢中起到重要的作用,解偶联蛋白基因已经被列为参与能量代谢和体温调节的候选基因。大量的研究报道了人类UCPs基因突变对脂肪代谢、糖尿病及其并发症、肥胖症的影响。作者从UCP1、UCP2及UCP3基因的定位、结构、分布、基因的多态突变与脂肪代谢、糖尿病及肥胖症之间的相关性研究进行了综述。     

影响棕色脂肪组织产热活性因素的研究进展

全球性肥胖流行问题愈发严峻,而脂肪组织本身可能是解决这个问题的关键。人和哺乳动物体内存在两种脂肪组织,发挥着截然相反的作用。与白色脂肪组织存储机体过剩的能量不同,棕色脂肪组织中存在独特的解偶联蛋白,能将脂肪酸氧化磷酸化,释放热能,增加能量消耗。因此,通过激活棕色脂肪组织产热,加速体内储存的脂质氧化磷酸化,成为了一种新的预防和治疗肥胖的手段。论文阐述影响棕色脂肪产热活性的因素以及相关机制,旨在为肥胖的治疗提供新的思路和方向。     

动物解耦联蛋白基因的同源性分析及对能量代谢的作用

文中分析比较11种物种解耦联蛋白(UCPs)基因核苷酸序列同源性,综述了UCPs产热机制和UCPs基因在脂肪和肌肉组织中的表达调控。为深入开展UCPs对能量代谢调控方面的研究奠定基础。     

Uncoupling proteins and energy expenditure in mice divergently selected for heat loss

The objective of this study was to determine whether variation in energy expenditure created by selection on heat loss is mediated by uncoupling protein-1 (UCP1) in brown adipose tissue. Divergent selection for heat loss developed lines of mice with high (MH) and low (ML) maintenance energy expenditure. Concentration of UCP1 mRNA in brown adipose tissue (BAT) was 93% greater in ML than in MH mice (P < 0.02). Two new lines of mice, KH and KL, were bred by backcrossing a UCP1 knockout gene into the MH and ML lines, respectively; KH and KL with both knock-out (-/-) and wild type (+/+) UCP1 genotypes were generated. At 13 wk of age, KH mice exhibited greater heat loss (166 kcal x kg(0.75) x d(-1)) than KL mice (126.4 kcalkg(0.75) x d(-1)) regardless of the UCP1 knockout (P < 0.0001). Concentration of UCP2 mRNA in BAT was 74% greater in UCP1 knockout mice (-/-) than in wild type (+/+; P = 0.0001). We conclude that response to selection for increased energy expenditure was not mediated by increased expression or function of UCP1.     

日粮鱼油对高脂日粮饲喂小鼠发情周期和机体产热的影响

本研究旨在探讨鱼油对高脂日粮饲喂小鼠发情周期和机体代谢产热的影响。试验选用36只4周龄C57BL/6 J雌性小鼠,随机分成3组（n=12）：对照组、高脂组和高脂+鱼油组。对照组饲喂标准啮齿动物饲料（AIN-93G）,高脂组和高脂+鱼油组分别饲喂高脂日粮（脂肪提供60%能量）和添加5%鱼油（等能替代猪油）的高脂日粮。试验期间,对小鼠体组成（12周龄）、整体代谢（16周龄）、褐色脂肪温度（18周龄）、体核温度（直肠温度,18周龄）和发情周期（20周龄）等进行检测。试验结束后,眼球采血分离血清,检测促卵泡激素（follicle-stimulating hormone,FSH）和雌二醇（estradiol,E2）的水平。此外,采集皮下脂肪、腹部脂肪和肩胛间褐色脂肪,称重并使用Western blot检测脂肪组织中产热相关基因的蛋白表达（UCP1、Cyto C）,使用实时荧光定量PCR检测褐色脂肪组织中产热基因的mRNA表达（UCP1, PRDM16,PGC1α,Cidea,Elovl3）。结果显示,与对照组相比,高脂日粮显著增加了小鼠的体脂含量（12周龄）及皮下和腹部脂肪的沉积量（21周龄）（P<0.05）,而添加鱼油显著降低了高脂饮食引起的体脂含量增加（P<0.05）。另外,高脂日粮导致小鼠的发情周期紊乱,伴随着周期延长、发情期缩短,以及血清中FSH和E2的水平降低（P<0.05）,而添加鱼油可缓解高脂日粮导致的小鼠发情周期紊乱,提高血清中FSH和E2的水平（P<0.05）。同时,添加鱼油可增加高脂饲喂小鼠肩胛间褐色脂肪（interscapular brown adipose tissue,iBAT）和腹股沟白色脂肪（inguinal white adipose tissue,iWAT）中产热相关基因的表达（P<0.05）,进而促进iBAT激活/产热和iWAT褐色化。结果提示,日粮鱼油可缓解高脂日粮导致的发情周期紊乱,可能与BAT激活和WAT褐色化造成的机体代谢产热增强有关。     

IGF-I,GHR and UCP mRNA expression in the liver and muscle of high- and low-feed-efficiency laying Japanese quail at different environmental temperatures

In this study, we analyzed insulin-like growth factor I (IGF-I), growth hormone receptor (GHR) and uncoupling protein (UCP) mRNA expression in the muscle and liver of high- (0.23 g/g) and low- (0.17 g/g) feed-efficiency (FE) Japanese quail at three different air temperatures: comfortable (25 °C), heat stress (38 °C) for 12 h or cold stress (10 °C) for 12 h. Total RNA was extracted from the liver and breast muscle of each quail, and cDNA was amplified using specific primers for the target genes. Expression was analyzed using quantitative real-time PCR (qRT-PCR). IGF-I mRNA expression was higher in the livers of high-FE quail than in the livers of low-FE quail under both heat and cold stress conditions. High-FE birds also showed higher GHR mRNA expression independent of temperature. UCP mRNA expression in the liver was lower in high-FE birds and higher under heat stress compared with the other conditions. IGF-I mRNA expression was higher in the muscle of high-FE quail under the three conditions tested, and UCP mRNA expression was higher under cold stress. Our results suggest that air temperature affects the expression of genes related to growth and mitochondrial energy production, and quail with different feed efficiencies respond differently to environmental stimuli.     

冷刺激小鼠脂肪组织差异表达长链非编码RNA的初步研究

脂肪组织主要有白色脂肪组织(WAT)和褐色脂肪组织(BAT)两种类型;WAT储存能量,BAT通过特异性表达解耦联蛋白1(uncoupling protein 1,UCP1)消耗能量产热。与BAT不同,WAT具有很强的可塑性,在寒冷刺激下,呈现褐色脂肪表型、获得褐色脂肪的产热活性("褐色化")。根据对冷刺激组(6℃)和对照组(28℃)小鼠的肩胛区褐色脂肪组织(iBAT)和皮下白色脂肪组织(sWAT)的RNA转录组测序分析结果,初步筛选出1个差异明显的长链非编码RNA (lncRNA-6030408B16Rik)。通过qRT-PCR检测lncRNA-6030408B16Rik在野生型小鼠的脾脏、肌肉、肾脏、十二指肠、大脑、肝脏、sWAT和iBAT中的表达;24只雄性C57BL/6野生型小鼠随机分成冷刺激组(6℃)和对照组(28℃),两组小鼠分别在6和28℃环境下处理10 d,分别采集两组的iBAT和sWAT;并分离出生1 d的野生型小鼠褐色前脂肪细胞,诱导分化后,收集0、1、3、5 d的细胞,检测UCP1基因和lncRNA-6030408B16Rik在分化过程中的时空表达。qRT-PCR结果显示iBAT和sWAT中lncRNA-6030408B16Rik的表达量均明显高于其他组织;与对照组相比,冷刺激组iBAT中lncRNA-6030408B16Rik的表达量极显著上调(P<0.01),冷刺激组sWAT中lncRNA-6030408B16Rik的表达量显著上调(P<0.05);前脂肪细胞诱导分化的过程中,lncRNA-6030408B16Rik的表达量呈先上调后下调的趋势。lncRNA-6030408B16Rik在脂肪组织中特异性高表达。lncRNA-6030408B16Rik可能对白色脂肪组织"褐色化"及褐色前脂肪细胞的分化具有重要的调控作用。     

Association of single nucleotide polymorphism of chicken uncoupling protein gene with muscle and fatness traits

Uncoupling proteins (UCPs) are in the mitochondrial inner membrane and belong to the transporter family. The biological function of UCPs is regulating discharge of proton gradient generated by the respiratory chain. As a result, the production of ATP is diminished, and dissipative heat is yielded. The present study was designed to investigate the association of UCP gene with chicken growth and body composition traits. The ninth generation of the broiler lines divergently selected for abdominal fat was used as a research population. Primers for UCP gene were designed from chicken genomic sequence. A single-nucleotide polymorphism, in the exon3 (T1316C) of UCP gene was detected by the polymerase chain reaction and restriction fragment polymorphism (PCR-RFLP) method. The UCP polymorphism was associated with muscle and fatness traits, such as pectoralis minor weight and abdominal fat weight. The results indicated that UCP gene could be a candidate locus or linked to a major gene which affects muscle and fatness traits in chicken.     

PRDM16——控制BAT和WAT发育的分子开关

棕色脂肪组织通过大量表达解偶联蛋白-1(UCP-1)以加强线粒体呼吸作用的解偶联,使能量以热量形式散失,从而抵御肥胖和相关疾病.研究发现,PRDM16是调节棕色脂肪细胞形成的关键转录因子,是控制棕色和白色脂肪细胞特异基因表达程序的分子开关,其机制是C末端结合蛋白和过氧化物酶体增殖剂活性受体γ辅助激活子1 (PPARγ-coactivator-1α and β,PGC-1α/β) 竞争性结合PRDM16,分别形成PRDM16/CtBPs和PRDM16/PGC-1s转录复合物,前者可激活棕色脂肪特异基因的表达,后者则抑制白色脂肪特异基因的表达.论文通过对PRDM16的结构、功能及其作用机制的介绍,有助于研究者了解棕色脂肪组织发育的调控系统,为肥胖和相关疾病的治疗提供新思路.     

解偶联蛋白及其基因多态性与能量代谢

解偶联蛋白（uncoupling proteins,UCPs）是线粒体内膜蛋白质, 目前已至少发现有5种（UCP1、UCP2、UCP3、UCP4和UCP5）,这个家族的蛋白质已经在人类、哺乳动物、禽类、鱼,甚至在植物的不同组织线粒体的内膜上被发现。UCPs 具有调节能量代谢, 促进脂肪酸的氧化作用,UCPs的基因多态性与脂肪代谢相关。     

Metabolism and morphology of brown adipose tissue from Brahman and Angus newborn calves

The objective of this study was to compare adipocyte morphology and lipogenesis between breed types (Angus vs Brahman) in brown adipose tissue (BAT) and white adipose tissue (WAT) from newborn calves. The Brahman calves (n = 7) were born during the fall season, whereas the Angus calves were born in fall (n = 6) or the following spring (n = 4). At parturition, Brahman cows were lighter than fall Angus cows, but were heavier than spring Angus cows (P < .05). Birth weights and perirenal BAT weights were greater in spring-born, but not in fall-born Angus calves, than in Brahman calves (P < .05). Fall-born Angus BAT contained 63% more (P < .05) adipocytes/100 mg tissue and contained a greater proportion (P < .05) of adipocytes with mean diameters of 40 to 50 microm, and fewer adipocytes with diameters of 60 microm or greater, than Brahman BAT. Brahman BAT contained two-to-three times as many beta-receptors as Angus BAT (P < .05), although the dissociation constant (Kd) was not different between breed types. Mitochondria in Brahman BAT were primarily spherical, whereas Angus BAT mitochondria were elongated, and mitochondrial cross-sectional area tended (P = .08) to be greater in Brahman BAT than in Angus BAT. The mitochondrial uncoupling protein (UCP) mRNA concentration (per 10(6) cells) was greater in Brahman BAT than in BAT from fall-born Angus calves. Lipogenesis from acetate was greater in Angus BAT than in Brahman BAT (P < .05), and glucose and palmitate contributed a greater proportion of carbon to lipogenesis in Brahman BAT than in Angus BAT. These differences in lipogenesis between breed types were not observed in s.c. WAT. The WAT from both breed types contained adipocytes with distinct brown adipocyte morphology, suggesting an involution of BAT to WAT in utero. We conclude that differences in UCP gene expression cannot cause the greater peak thermogenesis of Angus calves; however, differences between breed types in lipid metabolism and(or) mitochondrial morphology may contribute to this phenomenon.