高果糖/葡萄糖对Nlrp3/Il1ß炎症通路的影响

E. Araoye, K. Ckless
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Larsen et al.’s experimental results (2007) showed that blockade of IL-1β expression in patients with type 2 diabetes improved β-cell function and promoted glycemic control while Goa et al.’s results (2014) showed that IL-1β presence in human adipocytes significantly reduced the gene expression of insulin signaling molecules and its absence improved insulin sensitivity. The secretion of IL-1β is regulated by the Nod-Like Receptor protein 3 (NLRP3) inflammasome. IL-1β secretion is carried out in two steps. The first signal, also known as the priming step, consists of activation of Nod-Like Receptor protein 3 (NLRP3) coupled with accumulation of proIL-1β the inactivated precursor protein for IL-1β. Upon accumulation of the precursor, a second signal is needed to recruit the NLRP3 inflammasome complex, consisting of (NLRP3), adaptor protein apoptosis speck-like Protein (ASC) and activated caspase 1, consequently responsible for cleavage of pro-IL-1β to secretion as Il-1β (Figure 1). 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引用次数: 1

摘要

动脉疾病、高血压、代谢综合征、胆囊疾病、癌症、骨关节炎和2型糖尿病(Rodriguez-Hernandez, simmental - mendia, Rodriguez-Ramirez, & Reyes-Romero, 2013)。在肥胖相关疾病中,2型糖尿病最近被归类为一种通过NLRP3激活引起炎症的自身免疫性疾病(Bray, 2004;Gunter & Leitzmann, 2006;Hajer, Haeften, & Visseren 2008)。有研究调查了2型糖尿病、胰岛素抵抗和il - 1β表达之间的关系(Gao et al ., 2014;Larsen et al, 2007)。Larsen等(2007)的实验结果表明,阻断2型糖尿病患者IL-1β的表达可改善β细胞功能,促进血糖控制。Goa等(2014)的研究结果表明,人脂肪细胞中IL-1β的存在可显著降低胰岛素信号分子的基因表达,IL-1β的缺失可改善胰岛素敏感性。IL-1β的分泌受nod样受体蛋白3 (NLRP3)炎性体的调节。IL-1β的分泌分两步进行。第一个信号,也被称为启动步骤,包括nod样受体蛋白3 (NLRP3)的激活以及IL-1β (IL-1β的失活前体蛋白)的积累。在前体积累后,需要第二个信号来招募NLRP3炎性小体复合物,该复合物由NLRP3、接头蛋白凋亡斑点样蛋白(ASC)和活化的caspase 1组成,因此负责切割Il-1β前体并以Il-1β的形式分泌(图1)。当NLRP3/ Il-1β途径被激活时,也可以观察到ROS的产生(Jo, Kim, Shin, & Sasakawa等,2016)。一篇文章(Tschopp & Schroder, 2010)认为线粒体ROS不仅与NLRP3激活相关,还参与了NLRP3炎性体复合物的组装。线粒体被认为是活性氧的主要来源。西方文化已经采用了富含能量的碳水化合物的饮食。高能量食物的消费增加伴随着对机械技术的依赖来完成工作,减少了必要的身体活动(Popkin, 2001)。消耗的能量和消耗的能量的比例是不平衡的,有利于消耗,这导致脂肪细胞作为脂肪组织储存,脂肪不受控制的沉积可能导致个体携带过量的体重,被称为超重或肥胖。这种情况可以用个体的身体质量指数(BMI)来定义(Finucane et al, 2011)。较高的bmi与超重和肥胖相对应。研究(Finucane et al, 2011)表明,多年来,全球平均体重指数有所上升,肥胖率也有所上升。2008年,全世界有超过5亿人被认为肥胖,约14.6亿人超重(Finucane et al, 2011)。在肥胖个体中,增大的脂肪细胞分泌脂肪酸和肿瘤坏死因子-α (TNF-α)等细胞因子,能够引起广泛的下游效应,如冠状动脉等多种疾病的高风险
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Effects of High Fructose/Glucose on Nlrp3/Il1ß Inflammatory Pathway
artery disease, hypertension, metabolic syndrome, gall bladder disease, cancer, osteoarthritis and type 2 diabetes (Rodriguez-Hernandez, Simental-Mendia, Rodriguez-Ramirez, & Reyes-Romero, 2013). Among the obesity related diseases, type 2 diabetes has recently been classified an autoimmune disease involving inflammation through NLRP3 activation (Bray, 2004; Gunter & Leitzmann, 2006; Hajer, Haeften, & Visseren 2008). Studies have investigated the relationship between type 2 diabetes, insulin resistance and IL1β expression (Gao et al, 2014; Larsen et al, 2007). Larsen et al.’s experimental results (2007) showed that blockade of IL-1β expression in patients with type 2 diabetes improved β-cell function and promoted glycemic control while Goa et al.’s results (2014) showed that IL-1β presence in human adipocytes significantly reduced the gene expression of insulin signaling molecules and its absence improved insulin sensitivity. The secretion of IL-1β is regulated by the Nod-Like Receptor protein 3 (NLRP3) inflammasome. IL-1β secretion is carried out in two steps. The first signal, also known as the priming step, consists of activation of Nod-Like Receptor protein 3 (NLRP3) coupled with accumulation of proIL-1β the inactivated precursor protein for IL-1β. Upon accumulation of the precursor, a second signal is needed to recruit the NLRP3 inflammasome complex, consisting of (NLRP3), adaptor protein apoptosis speck-like Protein (ASC) and activated caspase 1, consequently responsible for cleavage of pro-IL-1β to secretion as Il-1β (Figure 1). When NLRP3/IL-1β pathway is activated, ROS production is also observed (Jo, Kim, Shin, & Sasakawa et al, 2016). An article (Tschopp & Schroder, 2010) suggested that mitochondrial ROS is not only correlated with NLRP3 activation, but is involved in assembling the NLRP3 inflammasome complex. Mitochondria are considered the main source of ROS in INTRODUCTION Western culture has adopted a diet rich in energy-loaded carbohydrates. This increased consumption of high-energy foods has been accompanied by reliance on mechanical technology to do work, reducing necessary physical activity (Popkin, 2001). The ratio of energy consumed to energy spent is imbalanced in favor of consumption, which results in storage of fat cells as adipose tissue and uncontrolled deposition of fats could lead to an individual carrying an excess amount of weight, referred to as being overweight or obese. This condition can be defined using the body mass index (BMI) of an individual (Finucane et al, 2011). Higher BMIs correspond to excess weight and obesity. Studies (Finucane et al, 2011) show that the mean BMI worldwide has increased over the years and so has the rate of obesity. In 2008, over 500 million people worldwide were considered obese and about 1.46 billion were overweight (Finucane et al, 2011). In obese individuals, enlarged fat cells secrete fatty acids and cytokine factors such as tumor necrosis factor-α (TNF-α), that are capable of causing a wide range of downstream effects such as having higher risks for a variety of diseases including coronary Effects of High Fructose/Glucose on Nlrp3/Il1ß Inflammatory Pathway
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