B Lymphocyte Stimulator (BLyS) Is Expressed in Human Adipocytes In Vivo and Is Related to Obesity but Not to Insulin Resistance

Inflammation and metabolism have been shown to be evolutionary linked and increasing evidence exists that pro-inflammatory factors are involved in the pathogenesis of obesity and type 2 diabetes. Until now, most data suggest that within adipose tissue these factors are secreted by cells of the innate immune system, e. g. macrophages. In the present study we demonstrate that B lymphocyte stimulator (BLyS) is increased in human obesity. In contrast to several pro-inflammatory factors, we found the source of BLyS in human adipose tissue to be the adipocytes rather than immune cells. In grade 3 obese human subjects, expression of BLyS in vivo in adipose tissue is significantly increased (p<0.001). Furthermore, BLyS serum levels are elevated in grade 3 human obesity (862.5+222.0 pg/ml vs. 543.7+60.7 pg/ml in lean controls, p<0.001) and are positively correlated to the BMI (r = 0.43, p<0.0002). In the present study, bariatric surgery significantly altered serum BLyS concentrations. In contrast, weight loss due to a very-low-calorie-formula-diet (800 kcal/d) had no such effect. To examine metabolic activity of BLyS, in a translational research approach, insulin sensitivity was measured in human subjects in vivo before and after treatment with the human recombinant anti-BLyS antibody belimumab. Since BLyS is known to promote B-cell proliferation and immunoglobulin secretion, the present data suggest that adipocytes of grade 3 obese human subjects are able to activate the adaptive immune system, suggesting that in metabolic inflammation in humans both, innate and adaptive immunity, are of pathophysiological relevance.     

葡萄糖与胰岛素对3T3-F442A脂肪细胞中Leptin表达的调节

为了解葡萄糖与胰岛素对３Ｔ３Ｆ４４２Ａ脂肪细胞中Ｌｅｐｔｉｎ表达的调节,应用ＲＴＰＣＲ方法以ｂｅｔａａｃｔｉｎ为内对照对不同葡萄糖和／或胰岛素浓度培养条件下３Ｔ３Ｆ４４２Ａ脂肪细胞中ＬｅｐｔｉｎｍＲＮＡ表达水平进行相对定量分析。结果表明葡萄糖与胰岛素对３Ｔ３Ｆ４４２Ａ脂肪细胞中Ｌｅｐｔｉｎ表达有促进作用,过高浓度的葡萄糖抑制Ｌｅｐｔｉｎ的表达及胰岛素对Ｌｅｐｔｉｎ表达的促进。葡萄糖和胰岛素对Ｌｅｐｔｉｎ表达的促进作用无协同效应,且这种促进作用表现出饱和性特点。葡萄糖浓度的变化对脂肪细胞中Ｌｅｐｔｉｎ的表达与调控具有十分重要的影响。     

嗜中性粒细胞是人抵抗素表达的主要细胞

抵抗素(resistin)是小鼠白色脂肪组织大量表达的富含半胱氨酸的 分泌型蛋白.近年研究发现,人与啮齿类动物的抵抗素组织表达分布存在很 大差异．小鼠抵抗素主要在白色脂肪组织表达,而人抵抗素主要在单核细 胞/巨噬细胞表达,且在骨髓组织中大量表达,但目前骨髓中的细胞定位还 不清楚．本研究的目的是明确成人骨髓及外周血白细胞中抵抗素表达细胞 的类型．免疫荧光法检测骨髓中抵抗素表达细胞,结果显示,抵抗素主要表 达在细胞核呈杆状和分叶核状的成熟粒细胞中,其中杆状核粒细胞表达较 高,分叶核粒细胞表达减弱．Anti-hresistin IgG-Biotin-PE单色荧光流 式细胞术分选外周血白细胞中抵抗素表达细胞后经瑞氏化学染色,结果显 示,抵抗素表达细胞主要为杆状和分叶核状的嗜中性粒细胞,还有少量嗜酸 性粒细胞,且抵抗素蛋白分布在细胞质中. RT-qPCR结果在RNA水平上证明, 人抵抗素在嗜中性粒细胞中大量表达．Anti-hresistin IgG-FITC和anti- HNL IgG-Biotin-PE 双色荧光流式细胞术进一步证明,抵抗素的主要表达细 胞为成熟的嗜中性粒细胞．嗜中性粒细胞在机体免疫防御中起重要作用, 人骨髓及外周血中抵抗素主要在成熟嗜中性粒细胞中表达,这一研究结论 为人抵抗素与炎症反应的关联性及其功能的进一步研究奠定了基础.     

Correlation between Serum Resistin Level and Adiposity in Obese Individuals

Objective: Resistin is associated with insulin resistance in mice and may play a similar role in humans. The aim of our study was to examine the relationship of serum resistin level to body composition, insulin resistance, and related obesity phenotypes in humans. Research Methods and Procedures: Sixty‐four young (age 32 ± 10 years), obese (BMI 32.9 ± 5.6), nondiabetic subjects taking no medication, and 15 lean (BMI 21.1 ± 1.3) volunteers were studied cross‐sectionally. Thirty‐five of the subjects were also reevaluated after 1.5 years on a weight reduction program entailing dieting and exercise; changes of serum resistin were compared with changes of BMI, body composition, fat distribution, and several indices of insulin sensitivity derived from plasma glucose and serum insulin levels measured during 75‐g oral glucose tolerance test. Results: In a cross‐sectional analysis, serum resistin was significantly higher in obese subjects than in lean volunteers (24.58 ± 12.93 ng/mL; n = 64 vs. 12.83 ± 8.30 ng/mL; n = 15; p < 0.01), and there was a correlation between resistin level and BMI, when the two groups were combined (ρ = 0.35, p < 0.01). Although cross‐sectional analysis in obese subjects revealed no correlation between serum resistin and parameters related to adiposity or insulin resistance, longitudinal analysis revealed change in serum resistin to be positively correlated with changes in BMI, body fat, fat mass, visceral fat area, and mean glucose and insulin (ρ = 0.39, 0.40, 0.44, 0.50, 0.40, and 0.50; p = 0.02, 0.03, 0.02, <0.01, 0.02, and <0.01, respectively). Discussion: Resistin appears to be related to human adiposity and to be a possible candidate factor in human insulin resistance.     

成纤维细胞生长因子21在抵抗素引发胰岛素抵抗的肝细胞模型中的糖代谢调节作用

抵抗素是2001年Steppan等发现的一种与胰岛素抵抗有密切联系的细胞因子．本研究探讨了成纤维细胞生长因子21(FGF-21)在抵抗素过表达导致胰岛素抵抗的肝细胞中的糖代谢调节作用．构建人抵抗素真核表达载体,转染HepG2细胞,利用流式细胞仪筛选出过表达抵抗素的HepG2模型细胞,分别用不同浓度的胰岛素和FGF-21刺激细胞,用GOD-POD法检测细胞的葡萄糖摄取情况,利用实时荧光定量PCR方法检测抵抗素转染后及FGF-21处理后细胞GLUT1、PPAR-γ mRNA表达的变化．PCR鉴定结果表明过表达抵抗素的HepG2模型细胞构建成功．GOD-POD法检测结果证明,模型细胞对胰岛素敏感性降低,但FGF-21仍能有效调节模型细胞的葡萄糖摄取,且呈现剂量依赖关系．实时荧光定量PCR方法检测发现,抵抗素转染后HepG2细胞GLUT1 mRNA表达增加,经FGF-21刺激后模型细胞与对照细胞相比GLUT1 mRNA的表达仍有上升趋势,PPAR-γ的变化不显著．上述结果表明,抵抗素过表达的肝细胞,对胰岛素敏感性降低,产生胰岛素抵抗,但FGF-21仍能有效调节其葡萄糖代谢．     

No Decrease in Free IGF‐I with Increasing Insulin in Obesity‐Related Insulin Resistance

Objective: Different facts suggest that the insulin growth factor (IGF)/ insulin growth factor‐binding protein (IGFBP) system may be regulated by factors other than growth hormone. It has been proposed that, in healthy subjects, free IGF‐I plays a role in glucose metabolism. The role of free IGF‐I in glucose homeostasis in insulin resistance is poorly understood. This study was undertaken to evaluate the effects of acute changes in plasma glucose and insulin levels on free IGF‐I and IGFBP‐1 in obese and non‐obese subjects. Research Methods and Procedures: Nineteen lean and 24 obese subjects were investigated. A frequently sampled intravenous glucose tolerance test was performed. Free IGF‐I and IGFBP‐1 were determined at 0, 19, 22, 50, 100, and 180 minutes. Results: Basal free IGF‐I levels tended to be higher and IGFBP‐1 lower in obese than in lean subjects. IGFBP‐1 levels inversely correlated with basal insulin concentration. To determine the effects of insulin on the availability of free IGF‐I and IGFBP‐1, changes in their plasma concentrations were measured during a frequently sampled intravenous glucose tolerance test. After insulin administration, a significant suppression of free IGF‐I at 22% was observed in lean subjects. In contrast, plasma‐free IGF‐I levels remained essentially unchanged in the obese group. The differences between both groups were statistically significant at 100 minutes (p < 0.01) and 180 minutes (p < 0.05). Serum IGFBP‐1 was suppressed to a similar extent in both groups. Discussion: These data suggest that the concentrations of free IGF‐I and IGFBP‐1 are differentially regulated by obesity. Obesity‐related insulin resistance leads to unsuppressed free IGF‐I levels.     

人胰岛素基因在体内外表达的研究

利用定点突变人胰岛素基因,以脂质体载体和质粒不同比例形成的复合物进行体内外转染。体外转染鼠肝细胞,G418进行筛选,利用放免法测定培养液中胰岛素含量;体内通过肝门脉注射,测定模型鼠血糖及转染后7天时血液中胰岛素的含量,结果显示目的基因已转入肝细胞,且体内外转染都有一定量的成熟胰岛素表达,体外转染中粒与脂质体比为1:6转染后24h表达量最高为10.45μIU/ml,体内转染使模型鼠的糖尿病症状明显改善,血糖最高降幅达55％。     

Selective Insulin Resistance in Adipocytes

Aside from glucose metabolism, insulin regulates a variety of pathways in peripheral tissues. Under insulin-resistant conditions, it is well known that insulin-stimulated glucose uptake is impaired, and many studies attribute this to a defect in Akt signaling. Here we make use of several insulin resistance models, including insulin-resistant 3T3-L1 adipocytes and fat explants prepared from high fat-fed C57BL/6J and ob/ob mice, to comprehensively distinguish defective from unaffected aspects of insulin signaling and its downstream consequences in adipocytes. Defective regulation of glucose uptake was observed in all models of insulin resistance, whereas other major actions of insulin such as protein synthesis and anti-lipolysis were normal. This defect corresponded to a reduction in the maximum response to insulin. The pattern of change observed for phosphorylation in the Akt pathway was inconsistent with a simple defect at the level of Akt. The only Akt substrate that showed consistently reduced phosphorylation was the RabGAP AS160 that regulates GLUT4 translocation. We conclude that insulin resistance in adipose tissue is highly selective for glucose metabolism and likely involves a defect in one of the components regulating GLUT4 translocation to the cell surface in response to insulin.     

脂联素基因单核苷酸多态性与Ⅱ型糖尿病合并肥胖及胰岛素抵抗相关联

脂联素是近年新发现的脂肪组织特异性的细胞因子,其mRNA是脂肪组织中含量最丰富的基因转录产物,该因子可通过多种途径影响个体对胰岛素的敏感性。脂联素基因多态性与肥胖、胰岛素抵抗和2型糖尿病密切相关,而与冠心病相关性研究的报道较少。本研究以中国汉族人群1,098例为对象,其中304例冠心病(CHD)患者,389例糖尿病患者(T2DM),及405例性别年龄相匹配的正常对照,采用PCR-RFLP技术对脂联素基因-4522C/T进行基因分型,并分别对血脂水平、胰岛素抵抗、体重指数等临床数据进行分析比较。研究结果显示,脂联素基因-4522C/T各基因型及等位基因在CHD组与对照组、T2DM组与对照组中的分布差异无显著性;经分组分析发现,T2DM合并肥胖患者BMI≥25kg/m2TT基因型及T等位基因明显多于对照组,差异有显著性,P=0.014和P=0.034;TT基因型T2DM患者胰岛素抵抗指数(HOMA-IR)显著高于携带有C等位基因的T2DM患者,P=0.0069。本研究提示脂联素基因-4522C/T与中国汉族人群T2DM合并肥胖的发生及T2DM患者胰岛素抵抗相关,是引发糖尿病患者肥胖和胰岛素抵抗的重要候选基因,而与冠心病的发生无关联。     

Human Bone Marrow Is Comprised of Adipocytes with Specific Lipid Metabolism

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肥胖诱发胰岛素抵抗的炎性机制

肥胖可诱发一系列慢性代谢性疾病,如2型糖尿病、血脂障碍、高血压和非酒精性脂肪肝等.这些疾病构成了当今世界人类健康的极大威胁.胰岛素抵抗是这些疾病的共有特征.胰岛素抵抗的发生与慢性低度系统炎性密切相关,涉及多条炎性信号通路的激活和胰岛素信号转导的缺陷.本文综述了肥胖、炎性与胰岛素抵抗之间的本质联系,以及肥胖诱发胰岛素抵抗的炎性机制,以期为肥胖相关疾病的防治提供重要参考.     

结球甘蓝抗TuMV相关基因的克隆

以结球甘蓝高抗TuMV自交不亲和系84075为材料,构建了cDNA文库。根据抗病基因保守序列（NBS－LRR）设计一对简并引物,以84075的基因组DNA和cDNA为模板,进行PCR扩增,分别扩增出一条513bp片段,扩增片段进行克隆测序。选取两个与抗病基因同源性较高的克隆片段作探针（命名Borl,Bor2）,对构建的cDNA文库进行筛选,得到一个阳性克隆（命名TuR2）,测序及序列分析表明,该基因总长为762bp,编码226个氨基酸、包含681bp的开放阅读框。与已克隆的抗病基因有不同程度的同源性。利用TuR2作探针,进行了Southern杂交、Northern杂交以及抗病性的共分离检测分析。结果表明,TuR2可能吧单拷贝形式存在,其表达是组成成型的,且无组织特异性;初步确定是一个与结球甘蓝抗TuMV相关的基因。     

Ethnic Differences in the Responsiveness of Adipocyte Lipolytic Activity to Insulin

Objective: The goal of this study was to quantify differences in lipid metabolism and insulin sensitivity in black and white subjects to explain ethnic clinicopathological differences in type 2 diabetes. Research Methods and Procedures: The in vitro lipolytic activity of adipocytes isolated from obese black and white women was measured in the presence of insulin and isoproterenol. Insulin resistance was assessed in vivo using the euglycemic hyperinsulinemic clamp technique. Results: Fasting plasma levels of insulin and nonesterified fatty acid (NEFA) in black and white women were 67 ± 5 pM vs. 152 ± 20 pM (p < 0.01) and 863 ± 93 μM vs. 412 ± 34 μM (p < 0.01), respectively. Euglycemic hyperinsulinemic clamp studies showed that obese black subjects were more insulin‐resistant than their white counterparts (glucose infusion rates: 1.3 ± 0.2 vs. 2.2 ± 0.3 mg/kg per min; p < 0.05). Isolated adipocytes from white women were more responsive to insulin than those from black women with 0.7 nM insulin causing a 55 ± 4% inhibition of isoproterenol‐stimulated lipolysis compared with 27 ± 10% in black women (p < 0.05). Discussion: The low responsiveness of adipocyte lipolytic activity to insulin in black women in the presence of a relative insulinopenia may account for the high plasma NEFA levels seen in these women, which may, in turn, account for their higher in vivo insulin resistance. High NEFA levels may also contribute to the low insulin secretory activity observed in the obese black females. These data suggest that the pathogenesis of insulin resistance and type 2 diabetes within the black obese community is strongly influenced by their adipocyte metabolism.     

Ganglioside GM1 Contributes to the State of Insulin Resistance in Senescent Human Arterial Endothelial Cells

Vascular endothelial cells (ECs) play central roles in physiologically important functions of blood vessels and contribute to the maintenance of vascular integrity. Therefore, it is considered that the impairment of EC functions leads to the development of vascular diseases. However, the molecular mechanisms of the EC dysfunctions that accompany senescence and aging have not yet been clarified. The carbohydrate antigens carried by glycoconjugates (e.g. glycoproteins, glycosphingolipids, and proteoglycans) mainly present on the cell surface serve not only as marker molecules but also as functional molecules. In this study, we have investigated the abundance and functional roles of glycosphingolipids in human ECs during senescence and aging. Among glycosphingolipids, ganglioside GM1 was highly expressed in abundance on the surface of replicatively and prematurely senescent ECs and also of ECs derived from an elderly subject. Insulin signaling, which regulates important functions of ECs, is impaired in senescent and aged ECs. Actually, by down-regulating GM1 on senescent ECs and overloading exogenous GM1 onto non-senescent ECs, we showed that an increased abundance of GM1 functionally contributes to the impairment of insulin signaling in ECs. Taken together, these findings provide the first evidence that GM1 increases in abundance on the cell surface of ECs under the conditions of cellular senescence and aging and causes insulin resistance in ECs. GM1 may be an attractive target for the detection, prevention, and therapy of insulin resistance and related vascular diseases, particularly in older people.     

The Male Obese Wistar Diabetic Fatty Rat Is a New Model of Extreme Insulin Resistance

The male obese Wistar Diabetic Fatty (WDF) rat is a genetic model of obesity and non-insulin dependent diabetes (NIDDM). The obese Zucker rat shares the same gene for obesity on a different genetic background but is not diabetic. This study evaluated the degree of insulin resistance in both obese strains by examining the binding and post binding effects of muscle insulin receptors in obese, rats exhibiting hyperinsulinemia and/or hyperglycemia. Insulin receptor binding and affinity and tyrosine kinase activity were measured in skeletal muscle from male WDF fa/fa (obese) and Fa/? (lean) and Zucker fa/fa (obese) and Fa/Fa (homozygous lean) rats. Rats were fed a high sucrose (68% of total Kcal) or Purina stock diet for 14 weeks. At 27 weeks of age, adipose depots were removed for adipose cellularity analysis and the biceps femoris muscle was removed for measurement of insulin binding and insulin-stimulated receptor kinase activity. Plasma glucose (13.9 vs. 8.4 mM) and insulin levels (14,754 vs. 7440 pmoI/L) were significantly higher in WDF obese than in Zucker obese rats. Insulin receptor number and affinity and TK activity were unaffected by diet. Insulin receptor number was significantly reduced in obese WDF rats (2.778 ± 0.617 pmol/mg protein), compared to obese Zucker rats (4.441 ± 0.913 pmol/mg potein). Both obese strains exhibited down regulation of the insulin receptor compared to their lean controls. Maximal tyrosine kinase (TK) activity was significantly reduced in obese WDF rats (505 ± 82 fmol/min/mg protein) compared to obese Zucker rats (1907 ± 610 fmol/min/mg protein). Only obese WDF rats displayed a decrease in TK activity per receptor. These observations establish the obese WDF rat as an excellent model for exploring mechanisms of extreme insulin resistance, particularly post-receptor tyrosine kinase-associated defects, in non-insulin dependent diabetes.