慢性炎症、自身免疫和动脉粥样硬化

动脉粥样硬化是一种炎症性疾病。在粥样斑块中存在许多免疫细胞,而且在不稳定斑块中尤为丰富。近年来对动脉粥样硬化中免疫细胞的聚集,分化和激活有了更深入的了解。流行病研究发现了多种与其相关的病毒和细菌感染。通过研究初步研究了几个自身性抗原,并提出了自身免疫假说。根据这些新的认识,提出了免疫调节和预防接种等心血管疾病的预防和治疗策略。这必将极大地提高对动脉粥样硬化的研究和防治水平。     

Diabetic atherosclerosis in APOE*4 mice: synergy between lipoprotein metabolism and vascular inflammation

Diabetes is a major risk factor for cardiovascular disease. To examine how diabetes interacts with a mildly compromised lipid metabolism, we introduced the diabetogenic Ins2^C96Y/+ (Akita) mutation into mice expressing human apoE4 (E4) combined with either an overexpressing human LDL receptor gene (hLDLR) or the wild-type mouse gene. The hLDLR allele caused 2-fold reductions in plasma HDL-cholesterol, plasma apoA1, and hepatic triglyceride secretion. Diabetes increased plasma total cholesterol 1.3-fold and increased apoB48 secretion 3-fold, while reducing triglyceride secretion 2-fold. Consequently, diabetic E4 mice with hLDLR secrete increased numbers of small, cholesterol-enriched, apoB48-containing VLDL, although they have near normal plasma cholesterol (<120 mg/dl). Small foam cell lesions were present in the aortic roots of all diabetic E4 mice with hLDLR that we analyzed at six months of age. None were present in nondiabetic mice or in diabetic mice without hLDLR. Aortic expression of genes affecting leukocyte recruitment and adhesion was enhanced by diabetes. ApoA1 levels, but not diabetes, were strongly correlated with the ability of plasma to efflux cholesterol from macrophages. We conclude that the diabetes-induced proinflammatory changes in the vasculature and the hLDLR-mediated cholesterol accumulation in macrophages synergistically trigger atherosclerosis in mice with human apoE4, although neither alone is sufficient.     

Oxidized phospholipids as modulators of inflammation in atherosclerosis

PURPOSE OF REVIEW: This review will summarize recent evidence demonstrating that biologically active phospholipid oxidation products modulate inflammatory reactions. RECENT FINDINGS: Structural identification of new biologically active oxidized phospholipids and the finding that they can also be formed at inflammatory sites other than the atherosclerotic lesion have expanded the potential role of these compounds in inflammation beyond atherogenesis. Various signaling pathways are induced by oxidized phospholipids, leading to the expression of inflammatory genes by mechanisms that differ from those mediated by the classic inflammatory agonists tumor necrosis factor or lipopolysaccharide. Furthermore, oxidized phospholipids can bind to pattern recognition molecules and thus potently influence inflammation and immune responses during host defense. SUMMARY: During inflammatory processes biologically active lipid oxidation products accumulate that modulate the inflammatory process and may determine the fate and outcome of the body's reaction in acute inflammation during host defense. Oxidized phospholipids may induce and propagate chronic inflammatory processes; however, evidence is accumulating that cells and tissues respond towards these oxidatively formed stress signals also by activation of anti-inflammatory, cytoprotective reactions.     

Links between complement deficiency and apoptosis

Deficiency in the classical pathway complement components displays a hierarchical association with the development of systemic lupus erythematosus (SLE). In addition, SLE causes consumption of complement. C1q- and C4-deficient mice develop a lupus-like disease and exhibit impaired clearance of apoptotic cells. The autoantigens targeted in SLE have been localised to the surface of apoptotic cells, which may be the source of these antigens. Although apoptosis was originally thought to be an immunologically inert process, dendritic cells can present epitopes derived from apoptotic cells, and immunization with apoptotic cells leads to the generation of autoantibodies. These findings taken together indicate that a defect in complement-dependent clearance of apoptotic cells may increase susceptibility to the development of autoimmunity.     

Links between ER stress and autophagy in plants

Autophagy is a major pathway for the delivery of proteins or organelles to be degraded in the vacuole and recycled. It can be induced by abiotic stresses, senescence, and pathogen infection. Recent research has shown that autophagy is activated by ER stress. Here we review the major progress that has been made in the study of autophagy and ER stress in plants, and describe the links between ER stress and autophagy to guide further study on how autophagy is regulated in response to ER stress.     

Extravascular inflammation does not increase atherosclerosis in apoE-deficient mice

There is much speculation whether extravascular inflammation accelerates atherosclerosis. We tested this hypothesis in apoE^−/− mice using three well-characterized models of non-autoimmune chronic inflammation: croton oil-induced skin inflammation, Aspergillus fumigatus antigen-induced allergic lung disease, and A. fumigatus antigen-induced peritonitis. The croton oil model produced recurrent inflammatory skin ulceration, and marked increases in plasma levels of IL-6 and serum amyloid A (SAA). The allergic lung disease model showed strong local inflammation with eosinophilic infiltration and serum IgE induction. The recurrent peritonitis model was accompanied by mild elevation in plasma SAA levels. Aortic atherosclerosis was quantified by computer-assisted morphometry of en face arteries in apoE^−/− mice at 34 weeks for the croton oil model, 26 and 42 weeks for the allergic lung disease model, and 26 weeks for the peritonitis model. We found that all three forms of chronic extravascular inflammation had no effect on the rate of atherosclerosis development.     

Cellular imaging of inflammation in atherosclerosis using magnetofluorescent nanomaterials

OBJECTIVE: Magnetofluorescent nanoparticles (MFNPs) offer the ability to image cellular inflammation in vivo. To better understand their cellular targeting and imaging capabilities in atherosclerosis, we investigated prototypical dextran-coated near-infrared fluorescent MFNPs in the apolipoprotein E-deficient (apo E-/-) mouse model. METHODS AND RESULTS: In vitro MFNP uptake was highest in activated murine macrophages (p < .001). Apo E-/- mice (n = 11) were next injected with the MFNP (15 mg/kg iron) or saline. In vivo magnetic resonance imaging (MRI) demonstrated strong plaque enhancement by the MFNPs (p < .001 vs. saline), which was confirmed by multimodality ex vivo MRI and fluorescence reflectance imaging. On fluorescence microscopy, MFNPs were found in cellular-rich areas of atheroma and colocalized with immunofluorescent macrophages over endothelial cells and smooth muscle cells (p < .001). CONCLUSIONS: Here we show that (1) the in vitro and in vivo cellular distribution of atherosclerosis-targeted MFNPs can be quantified by using fluorescence imaging methods; (2) in atherosclerosis, dextranated MFNPs preferentially target macrophages; and (3) MFNP deposition in murine atheroma can be noninvasively detected by in vivo MRI. This study thus provides a foundation for using MFNPs to image genetic and/or pharmacological perturbations of cellular inflammation in experimental atherosclerosis and for the future development of novel targeted nanomaterials for atherosclerosis.     

Adipose triglyceride lipase in immune response, inflammation, and atherosclerosis

Abstract Consistent with its central importance in lipid and energy homeostasis, lipolysis occurs in essentially all tissues and cell types, including macrophages. The hydrolytic cleavage of triacylglycerol by adipose triglyceride lipase (ATGL) generates non-esterified fatty acids, which are subsequently used as essential precursors for lipid and membrane synthesis, mediators in cell signaling processes or as energy substrate in mitochondria. This review summarizes the current knowledge concerning the consequences of ATGL deficiency in macrophages with particular emphasis on macrophage (dys)-function, apoptosis, and atherosclerosis.     

菌物学新旧的纽带（英文）

<正>John Webster in lectures to his students and discussions with colleagues always emphasized the ecological dimension to mycology,exemplified in his books[1].He always highlighted historic details both in nomenclature and in the understanding of the intricacies of fungal biology as admirably shown in his editing of Ainsworth’s Brief Biographies of British     

Links between Glucose Uptake and Metabolism in Nitella translucens

The uptake of ¹⁴C-glucose into cells of Nitella translucenshas been investigated under experimental conditions previouslyused in studies of the ionic relations of these cells. Glucoseentry was considerably stimulated by light, and under aerobicconditions the fluxes remained constant for many hours. Theinflux of glucose was inhibited by over 80 per cent at low temperature(4° C) and by over 90 per cent by the uncoupler carbonylcycanide-m-chlorophenylhydrazone. 2-Deoxy-D-glucose was a non-competitiveinhibitor of glucose uptake both in light and darkness. Cyclicphotophosphorylation promoted the influx (with decreasing efficiency)for several hours. It is suggested that an ATP-dependent transportprocess controls glucose entry to the cells, and that passivediffusion is of little significance.     

Lipolysis of triglyceride-rich lipoproteins, vascular inflammation, and atherosclerosis

Epidemiological and interventional studies have implicated elevated triglyceride-rich lipoprotein (TGRL) levels as a risk factor for cardiovascular disease and vascular inflammation, though the results have not been entirely consistent. This appears particularly relevant in model systems where the lipolysis occurs in the setting of established inflammation (e.g., in pre-existing atherosclerotic plaques), rather than in the tissue capillary beds where lipolysis normally occurs. Two main mechanisms seem to link TGRL lipolysis to vascular inflammation. First, lipolysis of TGRL leaves behind partially lipolyzed remnant particles which are better able to enter the vessel wall than nascent TGRL, have a rate of egress substantially lower than their rate of entry, and contain 5-20 times more cholesterol per particle than LDL. Furthermore, remnants do not require oxidation or other modifications to be phagocytized by macrophages, enhancing foam cell formation. Second, saturated fatty acids and oxidized phospholipids released by lipolysis induce inflammation by activating Toll-like receptors of the innate immune system, via oxidative stress, or by greatly amplifying existing pro-inflammatory signals (caused by subclinical endotoxemia) via mitogen-activated protein kinases. However, n-3 and unbound n-9 unsaturated fatty acids released by lipolysis have anti-inflammatory effects. Thus, the contribution of TGRL lipolysis to inflammation likely depends less on the TGRL concentration than on the balance between pro- and anti-inflammatory factors, and on the setting in which the lipolysis occurs. In the setting of the typical "Western" diet, enriched in saturated and oxidized fatty acids and excessive in size, this balance is likely to be tilted towards increased vascular inflammation and atherosclerosis. This article is part of a Special Issue entitled Triglyceride Metabolism and Disease.     

单核细胞及其来源细胞在动脉粥样硬化炎症发病机制中的作用

心血管疾病尤其是冠状动脉粥样硬化心脏病,已经成为威胁人类健康的主要杀手。但是由于动脉粥样斑块形成的复杂性,动脉粥样硬化发生机制并不明确,该疾病发生的炎症学说成为研究热点。本文将对单核细胞及其来源的巨噬细胞和树突状细胞在动脉粥样硬化炎症发病机制中的作用做一综述,为寻找该疾病新的药物靶点提供思路。     

Links between the abundance and distribution of birds

The relationship between overall abundance, local abundance and distribution is examined for several taxonomic groups of birds in Britain Among closely-related species, all three measures were correlated those species with the highest overall numbers also had the highest local numbers and the widest distributions Within each group, the relationship between overall abundance and distribution was extremely tight (with all the species points close to the trend line) in plots of log distribution (numbers of 10 km squares occupied) against log numbers The pattern held in summer and winter, and in both resident and migratory species Moreover, species which, over a period of years, underwent marked change in status showed parallel changes in both breeding numbers and distribution, and followed the pattern found from comparisons between related species Conversely, species which changed little in numbers over a period of years also changed little in extent of distribution
An explanation of the findings is proposed, based on density-dependent growth of local numbers and dispersal The relevance of the findings to the limitation of geographical ranges is discussed The distributional extent of many species seems to depend primarily on their overall numbers, rather than vice versa     

Links between replication, recombination and genome instability in eukaryotes

Double-strand breaks in DNA can be repaired by homologous recombination including break-induced replication. In this reaction, the end of a broken DNA invades an intact chromosome and primes DNA replication resulting in the synthesis of an intact chromosome. Break-induced replication has also been suggested to cause different types of genome rearrangements.