Microbiota Depletion Impairs Thermogenesis of Brown Adipose Tissue and Browning of White Adipose Tissue

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The Hormone FGF21 Stimulates Water Drinking in Response to Ketogenic Diet and Alcohol

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Interplay between Obesity-Induced Inflammation and cGMP Signaling in White Adipose Tissue

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Fgf21 Impairs Adipocyte Insulin Sensitivity in Mice Fed a Low-Carbohydrate,High-Fat Ketogenic Diet

Background

A low-carbohydrate, high-fat ketogenic diet (KD) induces hepatic ketogenesis and is believed to affect energy metabolism in mice. As hepatic Fgf21 expression was markedly induced in mice fed KD, we examined the effects of KD feeding on metabolism and the roles of Fgf21 in metabolism in mice fed KD using Fgf21 knockout mice.

Methodology/Principal Findings

We examined C57BL/6 mice fed KD for 6 or 14 days. Blood β-hydroxybutyrate levels were greatly increased at 6 days, indicating that hepatic ketogenesis was induced effectively by KD feeding for 6 days. KD feeding for 6 and 14 days impaired glucose tolerance and insulin sensitivity, although it did not affect body weight, blood NEFA, and triglyceride levels. Hepatic Fgf21 expression and blood Fgf21 levels were markedly increased in mice fed KD for 6 days. Blood β-hydroxybutyrate levels in the knockout mice fed KD for 6 days were comparable to those in wild-type mice fed KD, indicating that Fgf21 is not required for ketogenesis. However, the impaired glucose tolerance and insulin sensitivity caused by KD feeding were improved in the knockout mice. Insulin-stimulated Akt phosphorylation was significantly decreased in the white adipose tissue in wild-type mice fed KD compared with those fed normal chow, but not in the muscle and liver. Its phosphorylation in the white adipose tissue was significantly increased in the knockout mice fed KD compared with wild-type mice fed KD. In contrast, hepatic gluconeogenic gene expression in Fgf21 knockout mice fed KD was comparable to those in the wild-type mice fed KD.

Conclusions/Significance

The present findings indicate that KD feeding impairs insulin sensitivity in mice due to insulin resistance in white adipose tissue. In addition, our findings indicate that Fgf21 induced to express by KD is a negative regulator of adipocyte insulin sensitivity in adaptation to a low-carbohydrate malnutritional state.     

Dll4蛋白在高脂饮食喂养大鼠脂肪组织炎症中的作用

目的 探讨Delta-like ligand 4（Dll4）蛋白在高脂饮食喂养大鼠脂肪组织中的表达及其与脂肪组织炎症的关系.方法 将20只SPF级雄性Sprague-Dawley大鼠随机分为正常饮食组（SD,n=10）和高脂饮食组（HFD,n=10）喂养16w后,应用免疫组化及Western blot方法检测脂肪组织中Dll4及炎症通路NF-κB磷酸化、IL-6的表达.结果 免疫组化结果显示,HFD组Dll4表达量显著升高（P〈0.001）;Western blot结果与免疫组化结果相一致,Dll4蛋白表达量是SD组的1.34倍（P〈0.01）;磷酸化核转录因子NF-κB表达水平升高,HFD组为SD组的2.03倍（P〈0.01）;HFD组炎症细胞因子IL-6水平明显升高,为SD组的3.02倍（P〈0.01）.结论 高脂饮食可增加脂肪组织中Dll4蛋白表达,促进了脂肪组织中炎症的发生.     

免疫细胞在棕色脂肪产热及白色脂肪棕色化过程中的功能研究进展

肥胖已经成为威胁人类健康的全球性问题,棕色脂肪(Brown adipose tissue,BAT)及米色脂肪因其能够通过产热作用增加能量消耗这一特性,已成为一种备受关注的潜在肥胖治疗方法。近年来的研究发现M2型巨噬细胞(Alternatively activated macrophages,M2 type)能够促进BAT产热和白色脂肪(White adipose tissue,WAT)的棕色化(即米色脂肪的形成过程),但随后的一些研究却得到了相反的结论。到目前为止,M2型巨噬细胞是否参与促进WAT的棕色化过程仍是一个备受争议的话题。主要对M2型巨噬细胞、II型固有淋巴细胞(Type 2 Innate Lymphoid Cells,ILC2s)和嗜酸性粒细胞(Eosinophils)对BAT产热和WAT的棕色化的促进作用,以及M2型巨噬细胞不参与/抑制WAT棕色化这两个方面的研究状况做一综述。     

Differential Effects of Abdominal Adipose Tissue Distribution on Insulin Sensitivity in Black and White South African Women

Black South African women are more insulin resistant than BMI‐matched white women. The objective of the study was to characterize the determinants of insulin sensitivity in black and white South African women matched for BMI. A total of 57 normal‐weight (BMI 18–25 kg/m²) and obese (BMI > 30 kg/m²) black and white premenopausal South African women underwent the following measurements: body composition (dual‐energy X‐ray absorptiometry), body fat distribution (computerized tomography (CT)), insulin sensitivity (S_I, frequently sampled intravenous glucose tolerance test), dietary intake (food frequency questionnaire), physical activity (Global Physical Activity Questionnaire), and socioeconomic status (SES, demographic questionnaire). Black women were less insulin sensitive (4.4 ± 0.8 vs. 9.5 ± 0.8 and 3.0 ± 0.8 vs. 6.0 ± 0.8 × 10^?5/min/(pmol/l), for normal‐weight and obese women, respectively, P < 0.001), but had less visceral adipose tissue (VAT) (P = 0.051), more abdominal superficial subcutaneous adipose tissue (SAT) (P = 0.003), lower SES (P < 0.001), and higher dietary fat intake (P = 0.001) than white women matched for BMI. S_I correlated with deep and superficial SAT in both black (R = ?0.594, P = 0.002 and R = 0.495, P = 0.012) and white women (R = ?0.554, P = 0.005 and R = ?0.546, P = 0.004), but with VAT in white women only (R = ?0.534, P = 0.005). In conclusion, body fat distribution is differentially associated with insulin sensitivity in black and white women. Therefore, the different abdominal fat depots may have varying metabolic consequences in women of different ethnic origins.     

Bariatric Surgery Induces Disruption in Inflammatory Signaling Pathways Mediated by Immune Cells in Adipose Tissue: A RNA-Seq Study

BackgroundBariatric surgery is associated to improvements in obesity-associated comorbidities thought to be mediated by a decrease of adipose inflammation. However, the molecular mechanisms behind these beneficial effects are poorly understood.Conclusions/SignificanceThese results suggest that improvements of the inflammatory state following surgery might be explained by a disruption of immuno-inflammatory cascades involving a few crucial molecules which could serve as potential therapeutic targets.     

High‐fat Diet Followed by Fasting Disrupts Circadian Expression of Adiponectin Signaling Pathway in Muscle and Adipose Tissue

The circadian clock controls energy homeostasis by regulating circadian expression of proteins involved in metabolism. Disruption of circadian rhythms leads to obesity and metabolic disorders. Little is known regarding the control of the biological clock over adiponectin signaling pathway in adipose tissue, the adiponectin producer, and muscle, an adiponectin target tissue under fasting, low‐fat (LF), or high‐fat (HF) diet. Mice were fed LF or HF diet for 7 weeks and fasted on the last day. The circadian mRNA expression of clock genes and components of adiponectin metabolic pathway (mAdipoR1, mAdipoR2, mPparα, mPparγ, mAmpk, and mAcc) in the muscle and adipose tissue were tested. Using average daily levels of multiple time points around the circadian cycle, we assessed mRNA levels of the different adiponectin signaling components. In addition, serum glucose, adiponectin, and insulin were measured. Under LF diet, adiponectin signaling pathway components exhibited circadian rhythmicity at the mRNA levels. Fasting and HF diet followed by fasting disrupted this circadian expression causing a phase advance or delay, respectively. Changes were also found in the expression levels of adiponectin receptor, mAmpk, mAcc, mPparα, and mPparγ reflecting a defect in adiponectin signaling. As both peroxisome proliferator‐activated receptor α (PPARα) and mAMPK are linked to the core clock mechanism, they could mediate the disruptions seen in clock gene expression under HF diet. In turn, the circadian clock affects the daily rhythm of these adiponectin signaling components.     

抗阻运动对高脂饮食诱导的肥胖大鼠脂肪组织自噬和炎症因子的影响

为探讨运动对肥胖患者自噬活性和内脏脂肪组织炎症反应的影响,本研究将60只肥胖小鼠随机分为高脂饮食组(B)、正常饮食组(C)、正常饮食加耐力运动干预组(D)、正常饮食加耐力运动干预组(E)。D组和E组分别进行10周的耐力和抗阻运动,然后用RT-PCR检测自噬、炎症的基因和蛋白表达。结果显示,三个干预组的Lee指数和BFI均显著降低,2个运动组的Lee指数和BFI均显著降低,但差异无显著性;D组和E组Beclin 1表达较C组显著降低,p62表达明显升高;与C组相比,D组p62显著升高,E组无明显升高;与D组相比,E组Beclin 1基因表达增加,p62蛋白表达降低;与C组相比,D组和E组IL-6和IL-0蛋白表达均显著升高;10周不同运动干预对大鼠减脂效果无差异。运动后内脏脂肪组织的自噬活性受到抑制,尤其是无氧运动;肥胖患者运动干预前后内脏脂肪组织自噬和炎症的变化趋势一致,其中IL-10的变化最为明显。     

Evidences of Basal Lactate Production in the Main White Adipose Tissue Sites of Rats. Effects of Sex and a Cafeteria Diet

Female and male adult Wistar rats were fed standard chow or a simplified cafeteria diet for one month. Then, the rats were killed and the white adipose tissue (WAT) in four sites: perigonadal, retroperitoneal, mesenteric and subcutaneous (inguinal) were sampled and frozen. The complete WAT weight in each site was measured. Gene expression analysis of key lipid and glucose metabolism enzymes were analyzed, as well as tissue and plasma lactate and the activity of lactate dehydrogenase. Lactate gradients between WAT and plasma were estimated. The influence of sex and diet (and indirectly WAT mass) on lactate levels and their relationships with lactate dehydrogenase activity and gene expressions were also measured. A main conclusion is the high production of lactate by WAT, practically irrespective of site, diet or sex. Lactate production is a direct correlate of lactate dehydrogenase activity in the tissue. Furthermore, lactate dehydrogenase activity is again directly correlated with the expression of the genes Ldha and Ldhb for this enzyme. In sum, the ability to produce lactate by WAT is not directly dependent of WAT metabolic state. We postulate that, in WAT, a main function of the lactate dehydrogenase path may be that of converting excess available glucose to 3C fragments, as a way to limit tissue self-utilization as substrate, to help control glycaemia and/or providing short chain substrates for use as energy source elsewhere. More information must be gathered before a conclusive role of WAT in the control of glycaemia, and the full existence of a renewed glucose-lactate-fatty acid cycle is definitely established.     

Fatty Acid Composition of Porcine Muscle and Adipose Tissue Lipids as Affected by Anatomical Location and Cod Liver Oil Supplementation of the Diet

In pigs fed a standard pig mash the contents of polyunsaturated fatty acids (PUFAs) of both the n-6 and n-3 series were significantly higher in the dark red mm adductores compared to the light coloured m longissimus lumborum. Perirenal fat had a higher concentration of saturated fatty acids (14:0,16:0, 18:0) than backfat, and a lower concentration of monounsaturated fatty acids, such as 16:ln-7 and 18:ln-9. Daily supplementation of 50 ml cod liver oil, rich in n-3 PUFAs, during the fourth and third week before slaughter led to a 1.4 to 1.7 times increase in the contents of n-3 PUFAs in muscles and fat depots. There was no difference between the incorporation of n-3 PUFAs in dark and light muscles. Perirenal fat contained more 20:5n-3 (EPA) and 22:6n-3 (DHA), but less 20:ln-9 (eicosenoic acid) than the backfat, after cod liver oil supplementation rich in these 3 fatty acids. Supplementation of cod liver oil reduced the n-6/n-3 fatty acid ratio in all anatomical locations examined.     

MicroRNA-21可促进金华猪胚胎肝脏生长

microRNAs是一种小分子非编码RNA,广泛参与细胞的生长发育、分化和凋亡等生物学过程. microRNA-21(miR-21)是一个在实体肿瘤中高表达的miRNA,可促进癌细胞增殖. 为了研究miR-21在金华猪生长过程中的作用,本试验选取了金华猪80日龄胚胎的心、肝、脾、肺、肾、小肠、胰脏、皮脂组织,进行miR-21组织表达谱研究,结果发现miR-21在肝脏中的表达最高. 进一步以肝脏为对象,研究miR-21在金华猪不同生长阶段中的表达,结果显示胚胎80日龄的miR-21表达量最高（P<0.01）,其次是胚胎期的60日龄和105日龄,出生后1至120日龄miR-21的表达量均维持在较低的水平且相互之间差异不显著(P>0.05). 利用KEGG软件对miR-21预测的靶基因进行通路归类分析表明miR-21参与细胞代谢、生长等过程,从中选择两个抑制细胞增殖的靶基因,增强子结合蛋白（CCAAT/enhancer binding protein,Cebpa) 和原肌球蛋白1基因（tropomyosin 1,Tpm1),qRT-PCR检测二者在不同生长阶段的mRNA表达量,结果其表达趋势与miR-21相反,其中胚胎期80天表达量最低(P<0.05). 综上表明miR-21可能具有促进胚胎肝脏生长的作用.     

Visceral Adipose Tissue and Markers of the Insulin Resistance Syndrome in Obese Black and White Teenagers

Objective: To determine the relationships between visceral and general adiposity, cardiovascular fitness, and markers of the insulin resistance syndrome in obese black and white teenagers. Research Methods and Procedures: Cross‐sectional survey of 81 obese 13‐ to 16‐year‐old youths. Visceral adipose tissue was measured with magnetic resonance imaging, and percentage body fat was measured with dual‐energy X‐ray absorptiometry. Cardiovascular fitness was assessed with a submaximal treadmill test. Fasting blood samples were analyzed for lipids/lipoproteins and insulin. Resting blood pressure was obtained using an automated cuff. Results: Visceral adipose tissue was significantly correlated with unfavorable levels of: triacylglycerol (r = 0.27, p < 0.05), total cholesterol (r = 0.27, p < 0.05), high‐density lipoprotein cholesterol (r = ?0.26, p < 0.05), the ratio of total cholesterol/high‐density lipoprotein cholesterol (r = 0.42, p < 0.01), low‐density lipoprotein cholesterol (r = 0.27, p < 0.05), apolipoprotein B (r = 0.38, p < 0.01), and systolic blood pressure (r = 0.30, p < 0.01). Multiple regression analyses revealed that visceral adipose tissue was more powerful than percentage body fat for explaining variance in lipoproteins (e.g., for the ratio of total cholesterol/high‐density lipoprotein cholesterol, r² = 0.13, p < 0.01, and for systolic blood pressure, r² = 0.07, p < 0.05). Ethnicity was the most powerful of the demographic predictors for blood lipids (r² = 0.15 for triacylglycerol with lower levels in blacks; r² = 0.10 for high‐density lipoprotein cholesterol with higher levels in blacks; r² = 0.06 for the ratio of total cholesterol/high‐density lipoprotein cholesterol with lower levels in blacks). Cardiovascular fitness was not retained as a significant predictor of markers of the insulin resistance syndrome. Discussion: Some of the deleterious relationships between visceral adiposity and markers for the insulin resistance syndrome seen in adults were already present in these obese young people.     

Gender Effects on Adrenergic Receptor Expression and Lipolysis in White Adipose Tissue of Rats

Objective: To investigate the effects of short‐term (15 days) cafeteria‐diet feeding on the expression of α‐ and β‐adrenergic receptors (AR) and its association with lipolytic stimulation in isolated retroperitoneal white adipocytes. Research Methods and Procedures: Six female and 6 male Wistar rats (4 weeks old) were fed a cafeteria diet plus standard diet for 15 days. The remaining 12 age‐ and sex‐matched rats received a standard diet only. White retroperitoneal adipose tissue was isolated and used for the determination of both α₂ and β‐AR expression and for in vitro studies of lipolytic activity. Results: In female control rats, we found higher lipolytic capacities located at the postreceptor level and a lower α₂/β₃‐AR ratio than male rats. Cafeteria‐diet feeding for 15 days decreased lipolytic activity in both male and female rats and altered the α_2A‐ and β₃‐AR protein levels with an increase of α_2A‐AR in males and a β₃‐AR decrease in females. Discussion: Our results indicate that a 15‐day cafeteria‐diet feeding induced an increase in the α₂/β₃‐AR balance and impaired adipose tissue lipolytic activity, which was higher in males and may contribute to the development of increased fat mass. The higher functionality of α₂‐AR, together with the minor role developed by β₃‐AR and lower lipolytic capacities located at the postreceptor level in cafeteria‐diet‐fed male rats compared with female rats, may be responsible for the gender‐dependent differences observed in this study.     

Early B Cell Factor 1 Regulates Adipocyte Morphology and Lipolysis in White Adipose Tissue

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