PPARs调控巨噬细胞的活化与功能

巨噬细胞是先天性防御病原体的关键组分,它参与炎症的发生和消退,同时也参与了组织的修复。巨噬细胞的多种功能通过不同的活化状态完成,即从经典活化状态到替代性活化状态,再到失活状态。巨噬细胞活化的失调与代谢、炎症和免疫病变有关,调节蛋白控制巨噬细胞的活化可作为新的治疗靶点。主要综述过氧化物酶体增殖物激活受体（PPARs）调控巨噬细胞活化的作用。     

Hypoxia modulation of peroxisome proliferator-activated receptors (PPARs) in human glioblastoma stem cells. Implications for therapy

Gliobastoma (GB), the most common adult brain tumor, infiltrates normal brain area rendering impossible the complete surgical resection, resulting in a poor median survival (14–15 months), despite the aggressive multimodality treatments post‐surgery, such as radiation and chemo‐therapy. GB is characterized by hypoxic and necrotic regions due to a poorly organized tumor vascularization, leading to inadequate blood supply and consequently to hypoxic and necrotic areas. We have previously shown that, under hypoxia GB primary cells increased the expression of stemness markers as well as the expression of the nuclear receptor peroxisome proliferator‐activated receptor α (PPARα) and also the crucial role played by PPARs in mouse neural stem cells maintenance and differentiation. Due to the importance of lipid signaling in cell proliferation and differentiation, in this work, we analyzed the expression of PPARs in GB neurospheres both in normoxic and hypoxic conditions. The results obtained suggest a differential regulation of the three PPARs by hypoxia, thus indicating a possible therapeutic strategy to counteract GB recurrencies. J. Cell. Biochem. 113: 3342–3352, 2012. © 2012 Wiley Periodicals, Inc.     

益生菌在血糖调控中的作用

随着经济及生活水平的提高，营养过剩导致营养代谢疾病中2型糖尿病（type 2 diabetes mellitus，T2DM）发生率骤增。患者血糖升高及并发症严重降低生活质量，增加经济负担。现行降糖药存在局限性和副作用，而益生菌具有安全、经济和有效等特点，并且能够降血糖和减轻并发症等。益生菌在糖尿病预防、治疗和重塑肠道微生态健康方面具有良好的应用前景，逐渐成为糖尿病防治的研究热点。虽然益生菌有望攻克糖尿病，但是调控血糖的机制需要更加深入的研究。本文综述了益生菌调控血糖的应用及机制研究、发展趋势与前景及挑战，为调控血糖微生态制剂的开发提供理论基础。     

内源性甲醛与心血管疾病

内源性甲醛是甲胺由氨基脲敏感性胺氧化酶催化而生成,广泛存在于动物体内多种组织细胞。已经证实,内源性甲醛参与了神经变性病、免疫性疾病以及肿瘤等疾病的发病过程。脂肪细胞、血管内皮细胞和平滑肌细胞富含甲醛生成酶氨基脲敏感性胺氧化酶(semicarbazide-sensitive a-mine oxidase,SSAO)。甲醛具有细胞毒性,易损伤血管内皮并介导多种致病因素诱导的血管损伤过程,在动脉粥样硬化和糖尿病及其并发症的发病中都具有重要作用。     

PPARs在长链脂肪酸调控能量代谢中的作用

过氧化物酶体增殖物激活受体α(PPARα)主要在肝脏中表达,饥饿时能诱导β-氧化与生酮作用相关基因和成纤维化生长因子21(FGF21)表达,这在肝脏的饥饿代谢适应中起重要作用。饥饿与耐力训练时,骨骼肌中,过氧化物酶体增殖物激活受体δ(PPARδ)能诱导长链脂肪酸(LCFAs)氧化基因、叉头转录因子(FOXO1)及PPARδ共激活物α1(PGC1α)表达,其中,FOXO1和PGC1α能调控糖代谢与线粒体生物发生。脂肪细胞中,PPARγ能介导LCFAs调控能量代谢,活化的PPARγ能诱导与LCFAs转化为甘油三酯形式储存相关的基因表达。脂联素,PPARγ的另一靶基因,能维持脂肪细胞的胰岛素敏感性。本文就PPARs在LCFAs调控能量代谢中的作用做一综述。     

The Burmese cat as a genetic model of type 2 diabetes in humans

The recent extension of genetic tools to the domestic cat, together with the serendipitous consequences of selective breeding, have been essential to the study of the genetic diseases that affect them. Cats are increasingly presented for veterinary surveillance and share many of human's heritable diseases, allowing them to serve as natural models of these conditions. Feline diabetes mellitus is a common condition in domestic cats that bears close pathological and clinical resemblance to type 2 diabetes in humans, including pancreatic β‐cell dysfunction and peripheral insulin resistance. In Australia, New Zealand and Europe, diabetes mellitus is almost four times more common in cats of the Burmese breed than in other breeds. This geographically based breed predisposition parallels familial and population clustering of type 2 diabetes in humans. As a genetically isolated population, the Australian Burmese breed provides a spontaneous, naturally occurring genetic model of type 2 diabetes. Genetically isolated populations typically exhibit extended linkage disequilibrium and increased opportunity for deleterious variants to reach high frequencies over many generations due to genetic drift. Studying complex diseases in such populations allows for tighter control of confounding factors including environmental heterogeneity, allelic frequencies and population stratification. The homogeneous genetic background of Australian Burmese cats may provide a unique opportunity to either refine genetic signals previously associated with type 2 diabetes or identify new risk factors for this disease.     

Modest Lifestyle Intervention and Glucose Tolerance in Obese African Americans

Objective: Previous studies have demonstrated the benefit of short‐term diets on glucose tolerance in obese individuals. The purpose of this study was to evaluate the effectiveness of modest lifestyle changes in maintaining improvements in glucose tolerance induced by short‐term energy restriction in obese African Americans with impaired glucose tolerance or type 2 diabetes mellitus. Research Methods and Procedures: An intervention group (n = 45; 47 ± 1 year [mean ± SE]), 105 ± 4 kg; body mass index: 39 ± 1 kg/m²) received an energy‐restricted diet (943 ± 26 kcal/d) for 1 week, followed by a lifestyle program of reduced dietary fat (?125 kcal/d) and increased physical activity (+125 kcal/d) for 1 year. Body weight and plasma concentrations of glucose, insulin, and C‐peptide during an oral glucose tolerance test were measured at baseline, 1‐week, and 4‐month intervals. A control group (n = 24; 48 ± 1 year; 110 ± 5 kg; body mass index: 41 ± 2 kg/m²) underwent these measurements at 4‐month intervals. Results: No changes in weight or glucose tolerance were observed in the control group. The intervention group had significant (p < 0.05) improvements in body weight and glucose tolerance in response to the 1‐week diet, which persisted for 4 months (p < 0.001 vs. control for change in weight). A total of 19 subjects (42%) continued the intervention program for 1 year, with sustained improvements (weight: ?4.6 ± 1.0 kg; p < 0.001 vs. control; oral glucose tolerance test glucose area: ?103 ± 44 mM · min; p < 0.05 vs. control). Discussion: A modest lifestyle program facilitates weight loss and enables improvements in glucose tolerance to be maintained in obese individuals with abnormal glucose tolerance. However, attrition was high, despite the mild nature of the program.     

The future of protein biomarker research in type 2 diabetes mellitus

Introduction: The onset of type 2 diabetes mellitus (T2DM) is strongly associated with obesity and subsequent perturbations in immuno-metabolic responses. To understand the complexity of these systemic changes and better monitor the health status of people at risk, validated clinical biomarkers are needed. Omics technologies are increasingly applied to measure the interplay of genes, proteins and metabolites in biological systems, which is imperative in understanding molecular mechanisms of disease and selecting the best possible molecular biomarkers for clinical use.

Areas covered: This review describes the complex onset of T2DM, the contribution of obesity and adipose tissue inflammation to the T2DM disease mechanism, and the output of current biomarker strategies. A new biomarker approach is described that combines published and new self-generated data to merge multiple -omes (i.e. genome, proteome, metabolome etc.) toward understanding of mechanism of disease on the individual level and design multiparameter biomarker panels that drive significant impacts on personalized healthcare.

Expert commentary: We here propose an approach to use cross-omics analyses to contextualize published biomarker data and better understand molecular mechanisms of health and disease. This will improve the current and future innovation gaps in translation of discovered putative biomarkers to clinically applicable biomarker tests.     

p53 is required for chloroquine-induced atheroprotection but not insulin sensitization

An intact genotoxic stress response appears to be atheroprotective and insulin sensitizing. ATM, mutated in ataxia telangiectasia, is critical for the genotoxic stress response, and its deficiency is associated with accelerated atherosclerosis and insulin resistance in humans and mice. The antimalarial drug chloroquine activates ATM signaling and improves metabolic phenotypes in mice. p53 is a major effector of ATM signaling, but it is unknown if p53 is required for the beneficial effects of chloroquine. We tested the hypothesis that the cardiometabolic effects of chloroquine are p53-dependent. ApoE-null mice with or without p53 were treated with low-dose chloroquine or saline in the setting of a Western diet. After 8 weeks, there was no p53-dependent or chloroquine-specific effect on serum lipids or body weight. Chloroquine reduced plaque burden in mice wild-type for p53, but it did not decrease lesion extent in p53-null mice. However, chloroquine improved glucose tolerance, enhanced insulin sensitivity, and increased hepatic Akt signaling regardless of the p53 genotype. These results indicate that atheroprotection induced by chloroquine is p53-dependent but the insulin-sensitizing effects of this agent are not. Discrete components of the genotoxic stress response might be targeted to treat lipid-driven disorders, such as diabetes and atherosclerosis.     

在实验动物水平通过恢复和改善胰岛β细胞功能的糖尿病治疗新进展

糖尿病是一个世界性问题,在中国就有超过1.3亿人患有糖尿病.糖尿病主要分为1型糖尿病和2型糖尿病.遗憾的是,糖尿病至今尚未达成有效的预防和治愈手段.但是,近年来的一系列突破性的研究成果,让我们看到了治愈糖尿病的希望.在这里我们回顾了目前关于1型糖尿病和2型糖尿病可能的治愈途径的研究进展.这些途径包括胰岛移植和1型糖尿病...     

The Impact of obesity and diabetes mellitus on pancreatic cancer: Molecular mechanisms and clinical perspectives

The incidence of obesity and type 2 diabetes (T2DM) in the Western world has increased dramatically during the recent decades. According to the American Cancer Society, pancreatic cancer (PC) is the fourth leading cause of cancer‐related death in the United States. The relationship among obesity, T2DM and PC is complex. Due to increase in obesity, diabetes, alcohol consumption and sedentary lifestyle, the mortality due to PC is expected to rise significantly by year 2040. The underlying mechanisms by which diabetes and obesity contribute to pancreatic tumorigenesis are not well understood. Furthermore, metabolism and microenvironment within the pancreas can also modulate pancreatic carcinogenesis. The risk of PC on a population level may be reduced by modifiable lifestyle risk factors. In this review, the interactions of diabetes and obesity to PC development were summarized, and novel strategies for the prevention and treatment of diabetes and PC were discussed.     

The roles of cell-cell and organ-organ crosstalk in the type 2 diabetes mellitus associated inflammatory microenvironment

Type 2 diabetes mellitus (T2DM) is a classic metaflammatory disease, and the inflammatory states of the pancreatic islet and insulin target organs have been well confirmed. However, abundant evidence demonstrates that there are countless connections between these organs in the presence of a low degree of inflammation. In this review, we focus on cell-cell crosstalk among local cells in the islet and organ-organ crosstalk among insulin-related organs. In contrast to that in acute inflammation, macrophages are the dominant immune cells causing inflammation in the islets and insulin target organs in T2DM. In the inflammatory microenvironment (IME) of the islet, cell-cell crosstalk involving local macrophage polarization and proinflammatory cytokine production impair insulin secretion by β-cells. Furthermore, organ-organ crosstalk, including the gut-brain-pancreas axis and interactions among insulin-related organs during inflammation, reduces insulin sensitivity and induces endocrine dysfunction. Therefore, this crosstalk ultimately results in a cascade leading to β-cell dysfunction. These findings could have broad implications for therapies aimed at treating T2DM.     

脊髓自噬功能激活与大鼠2型糖尿病神经病理性疼痛的关系

目的：探讨脊髓自噬功能与大鼠2型糖尿病神经病理性疼痛（DNP）的关系。方法：雄性SD大鼠（42只）高糖高脂饲养8周,腹腔单次注射链脲佐菌素（STZ）制备大鼠2型糖尿病模型。两周后检测机械缩足阈值（MWT）和热缩足潜伏期（TWL）,降至基础值80%以下者为2型糖尿病神经病理性疼痛大鼠,记为DNP组（24只）;未降至基础值80%以下者为2型糖尿病无神经病理性疼痛大鼠,记为DA组（18只）。另取18只大鼠为对照（control,C）组,普通饲料喂养。于确定DA与DNP分组后的第3、7和14天,测定机械缩足阈值（MWT）和热缩足潜伏期（TWL）,并在行为学检测结束后各组随机取6只大鼠处死,取L4~L6脊髓膨大,采用Western blot法检测自噬特异性蛋白微管相关蛋白1（Beclin-1）、微管相关蛋白1轻链3（LC3）和P62的表达。另取6只7 d DNP组大鼠采用免疫荧光双染法检测脊髓背角P62与小胶质细胞、星形胶质细胞、神经元的共表达情况。结果：连续8周喂养高糖高脂饲料的SD大鼠的血浆胰岛素水平升高,胰岛素敏感指数下调,表明出现胰岛素抵抗;在腹腔注射STZ后,血糖升高达到2型糖尿病诊断标准（≥16.7 mmol/L）;与C组、DA组比较,DNP组大鼠在第3、7和14天时MWT降低,TWL缩短,并且脊髓背角LC3-Ⅱ、Beclin-1表达上调,P62表达下降（P<0.05）。免疫荧光双染色显示,P62在脊髓背角表达,主要与神经元共存,少量与小胶质细胞共存,几乎不与星形胶质细胞共表达。结论：2型糖尿病神经病理性疼痛大鼠脊髓LC3-Ⅱ、Beclin-1和P62表达的改变提示脊髓自噬功能激活;脊髓背角中神经元自噬激活在2型糖尿病大鼠DNP的发生和发展起着关键作用。     

Electrophoretic Techniques Applied to the Detection and Analysis of the Human Microsatellite Dg10s478

Short nucleotide repetitions (STRs) are commonly used as genetic markers; thus their detection and analysis constitutes a very important tool for the mapping of genetic diseases, as well as for gathering information about genetic polymorphisms at the population level. STRs can be detected with agarose- or acrylamide-based electrophoretic techniques, followed by visualization of the DNA sample with ethidium bromide, silver nitrate, or fluorophore labeling. In this work, we analyzed genomic DNA from five individuals affected with type II diabetes mellitus (T2DM) and five controls (unaffected individuals) in order to know the most precise and reproducible technique for the analysis of the existing polymorphism in the STR DG10S478 of the TCF7L2 gene. The combination of PCR with labeling of the products with the CY5 fluorophore, followed by detection on an ALFexpress sequencer, offered the required resolution to detect the variability in this STR, based solely on size analysis. Our methodology offers similar accuracy and reproducibility at lower costs than existing methods based on the sequencing of PCR products, and is a faster alternative when applied to genotyping studies.     

A systematic review and meta-analysis of the relationship between lipoprotein lipase Asn291Ser variant and diseases

This systematic review attempted to summarize the associations between the Asn291Ser variant in the lipoprotein lipase (LPL) gene and dyslipidemia, the risk of type 2 diabetes mellitus (T2DM), and coronary heart disease (CHD). In addition, the relationships between the Asn291Ser variant and other metabolic diseases such as obesity and high blood pressure were also investigated in this systematic review. We systematically reviewed the literature by means of a meta-analysis. Twenty-one articles, including 19,246 white subjects, were selected for this meta-analysis. The summary standardized mean difference (SMD) of plasma triglyceride (TG) for carriers compared with noncarriers of the Asn291Ser variant was 3.23 (P < 0.00001). The summary SMD of plasma HDL-cholsterol (HDL-C) for carriers compared with noncarriers of the Asn291Ser variant was -3.42 (P < 0.0001). The summary SMD of the association of the Asn291Ser variant with plasma TG increased with increasing age and weight gain. Significant interactions between the LPL Asn291Ser variant and fasting glucose, T2DM, and CHD were seen (P = 0.02, 0.04, and 0.01, respectively). No significant interactions were seen between the LPL Asn291Ser variant and body mass index, waist-hip ratio, and blood pressure (P > 0.05). This meta-analysis indicates that the Asn291Ser variant in the LPL gene is a risk factor for dyslipidemia, characterized by hypertriglyceridemia and low HDL-C levels. And the Asn291Ser variant in the LPL gene predisposes to more severe dyslipidemia with increasing age and weight gain. Also, this meta-analysis shows that the LPL Asn291Ser variant is associated with CHD and T2DM.