辛伐他汀对糖尿病高脂血症患者体内炎症水平和颈动脉斑块的影响

目的:探讨辛伐他汀对糖尿病高脂血症患者体内炎症水平和动脉斑块的影响.方法:120例2型糖尿病(DM2)合并高脂血症患者,给予控制血糖,每晚给予辛伐他汀片20mg口服,持续12周.观察患者血脂、hs-CRP、TNF-α及颈动脉斑块的变化.结果:患者经辛伐他丁治疗后血清TC、TG和LDL-C水平均较治疗前有明显降低(P<0...     

创伤弧菌脓毒症大鼠肝组织CD14和促/抗炎细胞因子基因表达及抗生素干预研究

目的 探讨创伤弧菌脓毒症大鼠肝组织内毒素受体CD14和促/抗炎细胞因子(TNF-α/IL-10)的基因表达及抗萧药物头孢哌酮钠联用乳酸左旋氧氟沙星的干预效应.方法 注射创伤弧菌构建创伤弧菌脓毒症模型及药物干预模型,RT-PCR检测大鼠肝组织CD14、TNF-α和IL-10的基因表达水平.结果 与正常对照组(NC组)相比,创伤弧菌脓毒症组(VV组)感染细菌2、6、9、12、16 h的CD14mRNA和TNF-α mRNA表达量均明显升高(P<0.05),IL-10 mRNA表达昔在感染后9、12、16 h也明显升高(P<0.05).创伤弧菌脓毒症联用抗生素干预组(AA组)CD14 mRNA表达在感染后9 h,TNF-αmRNA表达在感染后9、12 h,IL-10 mRNA表达在感染后9、12、16 h仍明显高于NC组(P<0.05).与相同时间点的VV组相比,从组感染后9、12、16 h的CD14 mRNA表达量,16 h的TNF-α mRNA和IL-10mRNA表达最均明显降低(P<0.05).结论 创伤弧菌脓毒症大鼠肝组织CD14 mRNA表达在脓毒症早期即达高峰,脓毒症过程中表现为持续增高,脓毒症早期肝组织TNF-α mRNA明显升高,脓毒症中后期肝组织IL-10 mRNA才逐渐增多.及早使用头孢哌酮钠和乳酸左氧氟沙星可明显减低创伤弧菌脓毒症大鼠肝组织CD14 mRNA、TNF-α mRNA和IL-10 mRNA表达水平.头孢哌酮钠联用乳酸左氧氟沙星可显著减少创伤弧菌脓毒症肝组织的内毒素受体的表达,有利于机体致炎/抗炎平衡恢复.     

Effect of Buthus martensi Karsch on Aromatase Activity and Cytokine-Inducded NOS and NO Production in Osteoblasts and Leukaemic Cell Line FLG 29.1

Among the different scorpion species, Buthus martensi Karsch, a widely distributed scorpion species in Asia especially in Korea, has received a lot of attention. Indeed, over the past decade, more than 70 different peptides, toxins, or homologues have been isolated. It may prove a valuable resource for identifying potential anti-inflammatory and analgesic drugs. The recent observation has suggested that the aromatase is a possible local modulator of bone remodeling in osteoarthritis and osteoporosis. In the present study, therefore, the effect of Buthus martensi Karsch (BMK) extract, traditional immunosuppressive Korean aqua-acupuncture water, on the bone function of human osteoblastic cells was studied. To provide insights into the effect of BMK on aromatase activity in bone-derived cells, we examined the human leukaemic cell line FLG 29.1, which is induced to differentiate toward the osteoclastic phenotype by 12-O-tetradecanoyl-phorbol-13-acetate (TPA) and transforming growth factor (TGF)-β1, and the primary first-passage osteoblastic cells (hOB). Gene expression of the aromatase was not affected by Buthus martensi Karsch in FLG 29.1 and hOB cells. However, enzyme activity was stimulated in a time-dependent fashion by 10.0 μg/ml BMK and by either 1–50 nM TPA or 0.01–0.5 ng/ml TGF-β1, with maximal responses after 2–3 hr exposure. On the other hand, BMK strongly inhibited interleukin-1β (IL-1β)- and tumor necrosis factor (TNF)α-induced Nitricoxide (NO) synthase expression with little effect on constitutive NO synthase expression. BMK extracts (10 μg/ml) inhibited cytokine-induced iNOS and nNOS expression. BMK (10 μg/ml) did not affect the ecNOS expression, indicating the extracts are not working on the constitutive NOS expression. BMK strongly inhibited the cytokine-induced NO production (p < 0.01). BMK also showed significant inhibition on NO production in both induced by TNF-α+IL-1β. NO donors, sodium nitroprusside, and NONOate dose-dependently elevated alkaline phosphatase activity. These results suggest that NO directly facilitates osteoblastic differentiation. This result also suggests that BMK is effective for bone resorptive action in bone cells.     

Streptozotocin-induced diabetic hyperalgesia in rats is associated with upregulation of toll-like receptor 4 expression

Neuropathic pain is one of the common complications of diabetes mellitus, and current treatments often do not meet medical needs. Toll-like receptor 4 (TLR4) has been implicated as a potential therapeutic target in neuropathic and other pain models. In this study, we investigated whether TLR4 expression in spinal cord would be altered in streptozotocin-induced diabetic rat model, which had persistent mechanical and thermal hypersensitivity. The results showed that the mRNA expression of TLR4 was upregulated in streptozotocin-treated animals. Furthermore, TLR4 expression was associated with both paw-pressure withdrawal threshold toward mechanical stimulus and paw withdrawal latency toward thermal stimulus. The protein levels of TNF-α and IL-1β, two downstream proinflammatory cytokines of TLR4 signaling pathway, were also significantly raised and correlated with mechanical/thermal hypersensitivity in diabetic rats. Together, these data have demonstrated that TLR4 and its signaling pathway are associated with neuropathic pain in a diabetic model. It may imply that TLR4 could be a novel target for treating diabetic neuropathy.     

The putative neurodegenerative links between depression and Alzheimer's disease

Alzheimer's disease (AD) is the leading neurodegenerative cause of dementia in the elderly. Thus far, there is no curative treatment for this devastating condition, thereby creating significant social and medical burdens. AD is characterized by progressive cognitive decline along with various neuropsychiatric symptoms, including depression and psychosis.     

The role of the IL-33/IL-1RL1 axis in mast cell and basophil activation in allergic disorders

Interleukin-33 (IL-33) is a recently discovered cytokine that belongs to the IL-1 superfamily and acts as an important regulator in several allergic disorders. It is considered to function as an alarmin, or danger cytokine, that is released upon structural cell damage. IL-33 activates several immune cells, including Th2 cells, mast cells and basophils, following its interaction with a cell surface heterodimer consisting of an IL-1 receptor-related protein ST2 (IL-1RL1) and IL-1 receptor accessory protein (IL-1RAcP). This activation leads to the production of a variety of Th2-like cytokines that mediate allergic-type immune responses. Thus, IL-33 appears to be a double-edged sword because, in addition to its important contribution to host defence, it exacerbates allergic responses, such as allergic rhinitis and asthma. A major purported mechanism of IL-33 in allergy is the activation of mast cells to produce a variety of pro-inflammatory cytokines and chemokines. In this review, we summarize the current knowledge regarding the genetics and physiology of IL-33 and IL-1RL1 and its association with different allergic diseases by focusing on its effects on mast cells and basophils.     

The inflammatory consequences of psychologic stress: relationship to insulin resistance, obesity, atherosclerosis and diabetes mellitus, type II

Inflammation is frequently present in the visceral fat and vasculature in certain patients with cardiovascular disease (CVD) and/or adult onset Diabetes Mellitus Type II (NIDDM). An hypothesis is presented which argues that repeated acute or chronic psychologically stressful states may cause this inflammatory process. The mediators are the major stress hormones norepinephrine (NE) and epinephrine (E) and cortisol together with components of the renin-angiotensin system (RAS), the proinflammatory cytokines (PIC), as well as free fatty acids (ffa), the latter as a result of lipolysis of neutral fat. NE/E commence this process by activation of NF(kappa)B in macrophages, visceral fat, and endothelial cells which induces the production of toll-like receptors which, when engaged, produce a cascade of inflammatory reactions comprising the acute phase response (APR) of the innate immune system (IIS). The inflammatory process is most marked in the visceral fat depot as well as the vasculature, and is involved in the metabolic events which culminate in the insulin resistance/metabolic syndromes (IRS/MS), the components of which precede and comprise the major risk factors for CVD and NIDDM. The visceral fat has both the proclivity and capacity to undergo inflammation. It contains a rich blood and nerve supply as well as proinflammatory molecules such as interleukin 6 (IL-6), tumor necrosis factor alpha (TNFalpha), leptin, and resistin, the adipocytokines, and acute phase proteins (APP) which are activated from adipocytes and/or macrophages by sympathetic signaling. The inflammation is linked to fat accumulation. Cortisol, IL-6, angiotensin II (angio II), the enzyme 11(beta) hydroxysteroid dehydrogenase-1 and positive energy balance, the latter due to increased appetite induced by the major stress hormones, are factors which promote fat accumulation and are linked to obesity. There is also the capacity of the host to limit fat expansion. Sympathetic signaling induces TNF which stimulates the production of IL-6 and leptin from adipocytes; these molecules promote lipolysis and ffa fluxes from adipocytes. Moreover, catecholamines and certain PIC inhibit lipoprotein lipase, a fat synthesizing enzyme. The brain also participates in the regulation of fat cell mass; it is informed of fat depot mass by molecules such as leptin and ffa. Leptin stimulates corticotrophin releasing hormone in the brain which stimulates the SNS and HPA axes, i.e. the stress response. Also, ffa through portal signaling from the liver evoke a similar stress response which, like the response to psychologic stress, evokes an innate immune response (IIR), tending to limit fat expansion, which culminates in inflammatory cascades, the IRS-MS, obesity and disease if prolonged. Thus, the brain also has the capacity to limit fat expansion. A competition apparently exists between fat expansion and fat loss. In "western" cultures, with excessive food ingestion, obesity frequently results. The linkage of inflammation to fat metabolism is apparent since weight loss diminishes the concentration of inflammatory mediators. The linkage of stress to inflammation is all the more apparent since the efferent pathways from the brain in response to fat signals, which results in inflammation to decrease and limit fat cell mass, is the same as the response to psychologic stress, which strengthens the hypothesis presented herein.     

Antimicrobial responses of teleost phagocytes and innate immune evasion strategies of intracellular bacteria

During infection, macrophage lineage cells eliminate infiltrating pathogens through a battery of antimicrobial responses, where the efficacy of these innate immune responses is pivotal to immunological outcomes. Not surprisingly, many intracellular pathogens have evolved mechanisms to overcome macrophage defenses, using these immune cells as residences and dissemination strategies. With pathogenic infections causing increasing detriments to both aquacultural and wild fish populations, it is imperative to garner greater understanding of fish phagocyte antimicrobial responses and the mechanisms by which aquatic pathogens are able to overcome these teleost macrophage barriers. Insights into the regulation of macrophage immunity of bony fish species will lend to the development of more effective aquacultural prophylaxis as well as broadening our understanding of the evolution of these immune processes. Accordingly, this review focuses on recent advances in the understanding of teleost macrophage antimicrobial responses and the strategies by which intracellular fish pathogens are able to avoid being killed by phagocytes, with a focus on Mycobacterium marinum.     

Role of angiotensin II and angiotensin type-1 receptor in scorpion venom-induced cardiac and aortic tissue inflammation

Scorpion stings are mainly associated with cardiovascular disturbances that may be the cause of death. In this study, the involvement of angiotensin II (Ang II) in cardiac and aortic inflammatory response was studied. Mice were injected with Androctonus australis hector (Aah) scorpion venom (0.5 mg/kg, subcutaneously), in the presence or absence of an angiotensin converting enzyme (ACE) inhibitor, captopril (15 mg/kg/day/1 day intraperitoneally) or an angiotensin type-1 receptor (AT1R) antagonist, valsartan (15 mg/kg/day/15 days, orally). In the envenomed group, results revealed severe tissue alterations with a concomitant increase of metabolic enzymes (CK and CK-MB) in sera. An important inflammatory cell (neutrophil and eosinophil) infiltration into the heart and aorta were observed, accompanied by imbalanced redox status (NO, MDA, catalase and GSH) and high cytokine levels (IL-6 and TNF-α) in sera with the expression of MMP-2 and MMP-9 metalloproteinases. However, the blockade of the actions of AngII by the ACE inhibitor or by the AT1R antagonist prevented cardiac and aortic tissue alterations, inflammatory cell infiltration, as well as the oxidative stress generation and cytokine and metalloproteinase expression. These results suggest the involvement of AngII, through its AT1R in the inflammation induced by Aah venom, in the heart and the aorta.     

Implications of uterine NK cells and regulatory T cells in the endometrium of infertile women

A range of studies have shown that the complex process of implantation and an establishment of a pregnancy also involves immune factors. Disturbances in these underlying immune mechanisms might lead to implantation and pregnancy failure and may be involved in the pathogenesis of unexplained infertility. Several studies have reported that imbalances in uterine NK (uNK) cell abundance are associated with infertility; however, controversies exist. An increased amount of CD56⁺ uNK cells along with a decrease in CD16⁺ uNK cells have been associated with normal fertility in some studies. Very few studies of FoxP3⁺ regulatory T cells (Tregs) in the pre-implantation endometrium have been performed. Results are sparse and controversial, studies reporting both increased and decreased numbers of Tregs, respectively, in women suffering from infertility. In conclusion, studies imply that uNK cells, Tregs and HLA-G carry pivotal roles regarding the establishment of a healthy pregnancy, and that abnormal immune mechanisms involving these parameters may be associated with infertility. However, more research in early phases of the reproductive cycle, such as investigating the conditions in the endometrium before implantation, is needed to further clarify the underlying mechanisms.     

An emerging role of neutrophils and NETosis in chronic inflammation and fibrosis in systemic lupus erythematosus (SLE) and ANCA-associated vasculitides (AAV): Implications for the pathogenesis and treatment

Neutrophils derive from hematopoietic stem cells (HSCs) with systemic inflammation driving their activation and differentiation to myeloid progenitors to ensure enhanced myelopoiesis. Epigenetic reprograming and re-education of these HSCs produces neutrophils primed towards elimination of pathogens and increased inflammatory response. Neutrophils -an important component of acute inflammation- are not present in chronic inflammatory tissues leading to the false assumption that they may not be as important for the latter. Activated neutrophils may release Neutrophil Extracellular Traps (NETs) during a distinct form of cell death, named NETosis; NETs are rich in bioactive molecules that promote thrombosis (including atherothrombosis), inflammation and fibrosis. Thus, although neutrophils may not be present in chronic inflammatory lesions, their remnants may amplify the inflammatory response beyond their short life-span in the tissues. Herein, we review current evidence supporting a role of neutrophils and NETosis in tissue injury and dysfunction in systemic autoimmunity using as disease paradigms Systemic Lupus Erythematosus (SLE) and the ANCA-associated vasculitides (AAV). We also discuss the mechanisms involved and their potential as targets for novel therapy and drug repositioning.     

Eating ourselves to death (and despair): The contribution of adiposity and inflammation to depression

Obesity and related metabolic conditions are of epidemic proportions in most of the world, affecting both adults and children. The accumulation of lipids in the body in the form of white adipose tissue in the abdomen is now known to activate innate immune mechanisms. Lipid accumulation causes adipocytes to directly secrete the cytokines interleukin (IL) 6 and tumor necrosis factor α (TNFα), but also monocyte chemoattractant protein 1 (MCP-1), which results in the accumulation of leukocytes in fat tissue. This sets up a chronic inflammatory state which is known to mediate the association between obesity and conditions such as cardiovascular disease, type 2 diabetes, and cancer. There is also a substantial literature linking inflammation with risk for depression. This includes the observations that: (1) people with inflammatory diseases such as multiple sclerosis, cardiovascular disease, and psoriasis have elevated rates of depression; (2) many people administered inflammatory cytokines such as interferon α develop depression that is indistinguishable from depression in non-medically ill populations; (3) a significant proportion of depressed persons show upregulation of inflammatory factors such as IL-6, C-reactive protein, and TNFα; (4) inflammatory cytokines can interact with virtually every pathophysiologic domain relevant to depression, including neurotransmitter metabolism, neuroendocrine function, and synaptic plasticity. While many factors may contribute to the association between inflammatory mediators and depression, we hypothesize that increased adiposity may be one causal pathway. Mediational analysis suggests a bi-directional association between adiposity and depression, with inflammation possibly playing an intermediary role.     

The acidic tumour microenvironment: Manipulating the immune response to elicit escape

The success of cancer treatment relies on the composition of the tumour microenvironment which is comprised of tumour cells, blood vessels, stromal cells, immune cells, and extracellular matrix components. Barriers to effective cancer treatment need to be overcome, and the acidic microenvironment of the tumour provides a key target for treatment. This review intends to provide an overview of the effects that low extracellular pH has on components of the tumour microenvironment and how they contribute to immune escape. Further, potential therapeutic targets will be discussed.     

Leukemia derived dendritic cell (DCleu) mediated immune response goes along with reduced (leukemia-specific) regulatory T-cells

The blastmodulatory Kit-M, composed of granulocyte-macrophage colony-stimulating-factor (GM-CSF) and Prostaglandin E1 (PGE₁), is known to convert myeloid leukaemic blasts (from AML patients) into leukaemia derived dendritic cells (DC_leu), which activate immunoreactive cells to gain antileukemic/leukaemia-specific activity. In this study we had a special focus on the influence of Kit-M treated, DC/DCleu containing patients’whole blood (WB, n = 16) on the provision of immunosuppressive regulatory T-cells.We could confirm that Kit-M significantly increased frequencies of (mature) dendritic cells (DC) and DC_leu from leukemic whole blood (WB) without induction of blast proliferation. After mixed lymphocyte culture (MLC) with patients’ T-cells we confirmed that DC_leu mediated leukemia-specific responses- going along with activated and leukemia-specific T- and NK-cells in an intracellular cytokine staining assay (ICS) and a degranulation assay (Deg)- resulted in an increased anti-leukemic cytotoxicity (Cytotoxicity Fluorolysis Assay = CTX). We could demonstrate that (leukemia-specific) CD4⁺ and CD8⁺ regulatory T-cell population (T_reg) decreased significantly after MLC compared to controls. We found significant positive correlations of leukemia-specific CD3⁺CD4⁺ cells with frequencies of (mature) DC_leu. Achieved anti-leukemic cytotoxicity correlated significantly positive with leukemia-specific CD3⁺CD8⁺ cells and significantly negatively with (leukemia-specific) T_reg.In summary we demonstrate that immunesuppressive (leukemia-specific) regulatory T-cells are significantly downregulated after Kit-M triggered MLC- going along with a (reinstalled) antileukemic reactivity of the immune system (as demonstrated with functional assays ICS, Deg, CTX).