白细胞介素-11在小鼠脑缺血再灌注损伤中的保护作用及其机制

目的 探讨白细胞介素-11(interleukin-11,IL-11)在小鼠脑缺血再灌注损伤中的保护作用及机制研究.方法 选择SPF级C57BL/6雄性小鼠60只,随机分成为对照组、模型组和IL-11组,每组各20只,通过线栓法构建脑缺血再灌注损伤.应用TTC染色检测脑组织梗死面积,采用Longa评分法评估各组小鼠的神...     

A novel SIRT6 activator ameliorates neuroinflammation and ischemic brain injury via EZH2/FOXC1 axis

Ischemic stroke is the second leading cause of death worldwide with limited medications and neuroinflammation was recognized as a critical player in the progression of stroke, but how to control the overactive neuroinflammation is still a long-standing challenge. Here, we designed a novel SIRT6 activator MDL-811 which remarkably inhibited inflammatory response in lipopolysaccharide (LPS)-stimulated RAW264.7 macrophages and primary mouse microglia, which were abolished by silencing SIRT6. RNA-seq screening identified the forkhead box C1 (Foxc1) is a key gene evoked by MDL-811 stimulation and is required for the anti-inflammatory effects of MDL-811. We found MDL-811-activated SIRT6 directly interacted with enhancer of zeste homolog 2 (EZH2) and promoted deacetylation of EZH2 which could bind to the promoter of Foxc1 and upregulate its expression to modulate inflammation. Moreover, our data demonstrated that MDL-811 not only ameliorated sickness behaviors in neuroinflammatory mice induced by LPS, but also markedly reduced the brain injury in ischemic stroke mice in addition to promoting long-term functional recovery. Importantly, MDL-811 also exhibited strong anti-inflammatory effects in human monocytes isolated from ischemic stroke patients, underlying an interesting translational perspective. Taken together, MDL-811 could be an alternative therapeutic candidate for ischemic stroke and other brain disorders associated with neuroinflammation.     

针刺干预对肌萎缩侧索硬化症模型小鼠脑及脊髓中IBA-1和TNF-α表达的影响

目的:探讨电针治疗肌萎缩侧索硬化症(ALS)的机制。方法:将SOD1^G93A转基因小鼠随机分为正常组、模型组、针刺组及利鲁唑治疗组,每组各8-10只。小鼠日龄30 d后,针刺组选取双侧天枢穴(ST25)及足三里穴(ST36)予以电针治疗。利鲁唑治疗组按照30 mg/(kg·d)的剂量予以90 d日龄小鼠灌胃治疗,1次/d。模型组及对照组常规饲养,不予干预。于小鼠电针治疗前及治疗后分别对4组进行体质量记录及行为学观察。采用免疫组化法检测各组小鼠脑干及脊髓中IBA-1和TNF-α表达变化。结果:正常组小鼠精神状态及运动功能良好,针刺组及利鲁唑组小鼠较模型组精神状态及运动功能明显改善; 转棒实验结果显示针刺组及利鲁唑组小鼠潜伏期较模型组延长; 免疫组化检测结果表明在模型组脑干IBA-1阳性细胞表达高于正常组(P<0.05); 而利鲁唑组IBA-1阳性细胞表达虽有降低,但组间无统计学差异(P>0.05)。该结果与IBA-1阳性细胞在脊髓L_4-5节段表达趋于一致(P<0.05)。针刺治疗后脊髓中促炎因子TNF-α表达明显减少(P<0.05),但利鲁唑组较模型组无统计学差异(P>0.05)。结论:电针治疗及利鲁唑灌胃治疗均可以改善小鼠运动功能及生存质量,但早期针刺干预明显减少脑干及脊髓中小胶质细胞的活化,抑制促炎因子TNF-α释放,表明电针治疗ALS有效,其机制可能与针刺抑制神经炎症产生有关。     

DW14006 as a direct AMPKα1 activator improves pathology of AD model mice by regulating microglial phagocytosis and neuroinflammation

Alzheimer’s disease (AD) is a progressively neurodegenerative disease with typical hallmarks of amyloid β (Aβ) plaque accumulation, neurofibrillary tangle (NFT) formation and neuronal death extension. In AD brain, activated microglia phagocytose Aβ and neuronal debris, but also aggravate inflammation stress by releasing inflammatory factors and cytotoxins. Improving microglia on Aβ catabolism and neuroinflammatory intervention is thus believed to be a promising therapeutic strategy for AD. AMP-activated protein kinase (AMPK) is highly expressed in microglia with AMPKα1 being tightly implicated in neuroinflammatory events. Since indirect AMPKα1 activators may cause side effects with undesired intracellular AMP/ATP ratio, we focused on direct AMPKα1 activator study by exploring its potential function in ameliorating AD-like pathology of AD model mice. Here, we reported that direct AMPKα1 activator DW14006 (2-(3-(7-chloro-6-(2′-hydroxy-[1,1′-biphenyl]-4-yl)-2-oxo-1,2-dihydroquinolin-3-yl)phenyl)acetic acid) effectively improved learning and memory impairments of APP/PS1 mice, and the underlying mechanisms have been intensively investigated. DW14006 reduced amyloid plaque deposition by promoting microglial o-Aβ₄₂ phagocytosis and ameliorated innate immune response by polarizing microglia to an anti-inflammatory phenotype. It selectively enhanced microglial phagocytosis of o-Aβ₄₂ by upgrading scavenger receptor CD36 through AMPKα1/PPARγ/CD36 signaling and suppressed inflammation by AMPKα1/IκB/NFκB signaling. Together, our work has detailed the crosstalk between AMPKα1 and microglia in AD model mice, and highlighted the potential of DW14006 in the treatment of AD.     

Acute stress induces chronic neuroinflammatory,microglial and behavioral priming: A role for potentiated NLRP3 inflammasome activation

Prior exposure to acute and chronic stressors potentiates the neuroinflammatory and microglial pro-inflammatory response to subsequent immune challenges suggesting that stressors sensitize or prime microglia. Stress-induced priming of the NLRP3 inflammasome has been implicated in this priming phenomenon, however the duration/persistence of these effects has not been investigated. In the present study, we examined whether exposure to a single acute stressor (inescapable tailshock) induced a protracted priming of the NLRP3 inflammasome as well as the neuroinflammatory, behavioral and microglial proinflammatory response to a subsequent immune challenge in hippocampus. In male Sprague-Dawley rats, acute stress potentiated the neuroinflammatory response (IL-1β, IL-6, and NFκBIα) to an immune challenge (lipopolysaccharide; LPS) administered 8 days after stressor exposure. Acute stress also potentiated the proinflammatory cytokine response (IL-1β, IL-6, TNF and NFκBIα) to LPS ex vivo. This stress-induced priming of microglia also was observed 28 days post-stress. Furthermore, challenge with LPS reduced juvenile social exploration, but not sucrose preference, in animals exposed to stress 8 days prior to immune challenge. Exposure to acute stress also increased basal mRNA levels of NLRP3 and potentiated LPS-induction of caspase-1 mRNA and protein activity 8 days after stress.The present findings suggest that acute stress produces a protracted vulnerability to the neuroinflammatory effects of subsequent immune challenges, thereby increasing risk for stress-related psychiatric disorders with an etiological inflammatory component.Further, these findings suggest the unique possibility that acute stress might induce innate immune memory in microglia.     

Amelioration of neurobehavioral and cognitive abilities of F1 progeny following dietary supplementation with Spirulina to protein malnourished mothers

Early life adversities (stress, infection and mal/undernutrition) can affect neurocognitive, hippocampal and immunological functioning of the brain throughout life. Substantial evidence suggests that maternal protein malnutrition contributes to the progression of neurocognitive abnormalities and psychopathologies in adolescence and adulthood in offspring. Maternal malnutrition is prevalent in low and middle resource populations. The present study was therefore undertaken to evaluate the effects of dietary Spirulina supplementation of protein malnourished mothers during pregnancy and lactation on their offspring’s reflex, neurobehavioral and cognitive development. Spirulina is a Cyanobacterium and a major source of protein and is being used extensively as a dynamic nutraceutical against aging and neurodegeneration. Sprague Dawley rats were switched to low protein (8% protein) or normal protein (20% protein) diet for 15 days before conception. Spirulina was orally administered (400 mg/kg/b.wt.) to subgroups of pregnant females from the day of conception throughout the lactational period. We examined several parameters including reproductive performance of dams, physical development, postnatal reflex ontogeny, locomotor behavior, neuromuscular strength, anxiety, anhedonic behavior, cognitive abilities and microglia populations in the F1 progeny. The study showed improved reproductive performance of Spirulina supplemented protein malnourished dams, accelerated acquisition of neurological reflexes, better physical appearance, enhanced neuromuscular strength, improved spatial learning and memory and partly normalized PMN induced hyperactivity, anxiolytic and anhedonic behavior in offspring. These beneficial effects of Spirulina consumption were also accompanied by reduced microglial activation which might assist in restoring the behavioral and cognitive skills in protein malnourished F1 rats. Maternal Spirulina supplementation is therefore proposed as an economical nutraceutical/supplement to combat malnutrition associated behavioral and cognitive deficits.     

Pentraxin‐3 is upregulated in the central nervous system during MS and EAE,but does not modulate experimental neurological disease

Pentraxin‐3 (PTX3), an acute‐phase protein released during inflammation, aids phagocytic clearance of pathogens and apoptotic cells, and plays diverse immunoregulatory roles in tissue injury. In neuroinflammatory diseases, like MS, resident microglia could become activated by endogenous agonists for Toll like receptors (TLRs). Previously we showed a strong TLR2‐mediated induction of PTX3 in cultured human microglia and macrophages by HspB5, which accumulates in glia during MS. Given the anti‐inflammatory effects of HspB5, we examined the contribution of PTX3 to these effects in MS and its animal model EAE. Our data indicate that TLR engagement effectively induces PTX3 expression in human microglia, and that such expression is readily detectable in MS lesions. Enhanced PTX3 expression is prominently expressed in microglia in preactive MS lesions, and in microglia/macrophages engaged in myelin phagocytosis in actively demyelinating lesions. Yet, we did not detect PTX3 in cerebrospinal fluid of MS patients. PTX3 expression is also elevated in spinal cords during chronic relapsing EAE in Biozzi ABH mice, but the EAE severity and time course in PTX3‐deficient mice did not differ from WT mice. Moreover, systemic PTX3 administration did not alter the disease onset or severity. Our findings reveal local functions of PTX3 during neuroinflammation in facilitating myelin phagocytosis, but do not point to a role for PTX3 in controlling the development of autoimmune neuroinflammation.     

Tg2576小鼠海马发育过程中小胶质细胞和血管的变化

目的 探讨Tg2576转基因小鼠发育过程中海马CA1区小胶质细胞增殖和血管变化的规律。方法 取不同发育时间(P0、P7、P30、P180、P360) Tg2576转基因模型鼠与同时间点野生鼠,通过应用免疫组织化学、TUNEL、墨汁灌注、RT-PCR和透射电镜等方法研究海马发育过程中小胶质细胞和血管的变化。结果 随着小鼠的生长发育,P180后转基因组海马CA1区小胶质细胞密度和血管体密度高于对照组小鼠,RT-PCR结果显示,P360时转基因组海马CA1区小胶质细胞更多处于激活状态。 结论 小胶质细胞与血管改变的共同作用加重了阿尔茨海默病。     

α7nAChR参与生理浓度糖皮质激素的抗炎作用*

 目的： 探讨α7烟碱型乙酰胆碱受体（α7nAChR）在生理浓度糖皮质激素（GCs）抗炎过程中的作用。方法: MTT法检测不同浓度氢化可的松对小胶质细胞BV-2活性的影响;在建立LPS刺激的BV-2细胞炎症模型基础上,实验分组如下：(1) 空白对照组;(2) LPS组;(3) GCs＋LPS组;(4) α7nAChR阻断剂甲基牛扁亭碱（MLA）＋GCs＋LPS组,ELISA法测定细胞上清中TNF-α和IL-1β的含量。结果: 2 000 和1 000 nmol/L 氢化可的松可分别使细胞存活率降低至(76.9±5.5)%和(90.8±7.3)%,表现出超生理剂量GCs的细胞损伤作用。LPS明显刺激BV-2细胞释放TNF-α和IL-1β,并呈现时间和剂量依赖性。生理浓度（500和250 nmol/L）的氢化可的松均可减少LPS诱导BV-2细胞释放TNF-α和IL-1β,10 nmol/L MLA预处理BV-2细胞能拮抗GCs抑制炎症因子释放的作用。结论: α7nAChR参与了生理浓度GCs的抗炎作用。     

缺血性卒中的病理生理级联效应

脑卒中具有高发病率、高致死率和致残率的特点,是当今危害人类生命健康的主要疾病之一。随着缺血性卒中发生机制研究的不断深入,目前已有大量研究详细阐述了缺血性卒中发生、发展的机制,该文将根据新近研究结果,对缺血性卒中发生过程中的一系列病理生理级联效应进行综述,深入理解和运用这些研究结果有利于缺血性卒中的预防、治疗和改善预后。