病毒感染调控巨噬细胞极化分子机制的研究进展

固有免疫是机体抵御病原微生物入侵的第一道防线。巨噬细胞(macrophages, Mφ)在机体中分布广泛并具有十分活跃的生物学功能,在宿主抗病毒固有免疫应答过程中发挥重要作用。既往研究集中于Mφ的吞噬功能及抗原提呈作用,而近年来研究发现,不同活化模式的Mφ对病毒感染后机体的炎症反应具有双重调控作用,Mφ的极化状态与病毒感染性疾病的发生和转归关系密切。病毒感染急性期,Mφ向M1方向极化,M1型Mφ可促进炎症反应,辅助机体清除病原体,但其过度活化可引起细胞因子风暴,加重组织的免疫病理损伤;随着病毒感染相关疾病的进展,Mφ向M2方向极化,M2型Mφ可通过分泌多种抑炎因子发挥免疫调控作用,参与组织修复,亦与感染慢性化密切相关。不同种类的病毒感染机体后可以诱导Mφ向不同方向极化,但其具体调控机制目前尚不清楚。现就Mφ极化在病毒感染过程中的作用及其调控机制作一概述,为相关疾病的发病机制研究奠定理论基础,并为治疗策略的研发提供新的思路。     

Interactions between monogenean parasites and their fish hosts

Parasite factors associated with recognition and selection of the host and the mechanisms in the host responsible for acceptance or rejection of the invading organism were evaluated. Sensory structures in parasites are able to detect differences between different fish species and this ability to discern between fishes may be based on both chemical and mechanical stimuli on the host surface. Complex glycoproteins, proteins, carbohydrates and simple molecules attract parasites or modify their behaviour. Furthermore, attachment of the monogenean parasite to a host is dependent on both mechanical structures and chemical factors in the parasite. These systems comprise anterior pads, posterior haptors, gland secretions, and muscular elements. The parasite needs access to appropriate nutrients which can be absorbed and used for reproduction and in this context signals from the host are needed for an optimal physiological response of the parasite. The innate and adaptive immune systems of the host are important elements in this question. Investigations have indicated that innate host factors (complement, lectins, acute phase reactants, macrophages) can bind to monogeneans and elicit severe damage to the parasites. The targets for these hostile products are not only the monogenean tegument, but may involve the gastrodermis and glands. However, the parasite's ability to avoid and even exploit the wide array of immunological elements of the host may be an important player in the dynamic interactions between host and monogenean determining host specificity. Even fish hosts susceptible to a certain parasite show an ability to mount a protective response at post-infection periods. Elevation of the host's production of adaptive and non-adaptive factors following monogenean infections of a certain duration may explain the acquired response.     

Interactions of Streptococcus iniae with phagocytic cell line

Streptococcus iniae has become one of the most serious aquatic pathogens in the last decade, causing large losses in wild and farmed fish worldwide. There is clear evidence that this pathogen is capable not only of causing serious disease in fish but also of being transferred to and infecting humans. In this study, we investigate the interaction of S. iniae with two murine macrophage cell lines, J774-A1 and RAW 264.7. Cytotoxicity assay demonstrated significant differences between live and UV-light killed IUSA-1 strains. The burst respiratory activity decreased to baseline after 1 and 4 h of exposure for J774-A1 and RAW 264.7, respectively. Immunofluorescent and ultrastructural study of infected cells confirmed the intracellular localization of bacteria at 1 h and 24 h post-infection. Using qRT-PCR arrays, we investigated the changes in the gene expression of immune relevant genes associated with macrophage activation. In this screening, we identified 11 of 84 genes up-regulated, we observed over-expression of pro-inflammatory response as IL-1α, IL-1β, and TNF-α, without a good anti-inflammatory response. Present findings suggest a capacity of S. iniae to modulate a mammalian macrophages cell lines to their survival and replication intracellular, which makes this cell type as a reservoir for continued infection.     

病毒持续性感染难治愈的因素及对策

病毒持续性感染引起的病程多为慢性或反复发作,难以治愈,在部分患者甚至可引发肿瘤或自身免疫性疾病等,是严重危害人类健康及造成社会重大经济负担的常见病及多发病。持续性感染难以治愈的原因涉及病毒基因组与宿主细胞染色体整合,或以附加体的形式长期存在,以及病毒的酶或蛋白抑制机体的免疫应答等特性。此外,机体天然免疫或获得性免疫低下、免疫网络失调及感染微环境改变等,也是病毒建立并维持持续性感染的原因。本文根据持续性感染难以治愈的原因,从病原学与机体免疫应答两方面研讨一些对策,希望以此为切入点,为治疗持续性感染提供新思路与新策略。     

Trikatu,an herbal compound as immunomodulatory and anti-inflammatory agent in the treatment of rheumatoid arthritis – An experimental study

In the present study, trikatu, an herbal compound was evaluated for its immunomodulatory and anti-inflammatory properties with reference to cell mediated immune responses (delayed type hypersensitivity reaction), humoral immune response (haemagglutination titer and plaque forming assay), macrophage phagocytic index, circulating immune complex and inflammatory mediators in rats. For comparison purposes, indomethacin was used as a reference drug for anti-inflammatory studies. The results obtained in our study showed a significant decrease in cell mediated immune responses, humoral immune responses (haemagglutination titre and plaque forming assay) and macrophage phagocytic index in trikatu treated rats (1000 mg/kg/b.wt.) compared to control animals implying its immunosuppressive property. In addition, significant anti-inflammatory effects were observed in trikatu treated adjuvant induced arthritic rats by a reduction in the levels of circulating immune complexes and inflammatory mediators (TNF-alpha and Interleukin-1beta). Thus, in conclusion, our data suggest that trikatu could be considered as a potential anti-inflammatory agent for treating autoimmune inflammatory disorders like rheumatoid arthritis with immunosuppressive property.     

干扰素IFNL4对巨噬细胞系THP-1免疫应答的影响

目的:分析Interferon-lambda 4(IFNL4)表达与巨噬细胞免疫应答间的关系,探讨IFNL4调控免疫应答的信号机制,发掘IFNL4在免疫调理方面的潜在应用价值。方法:建立THP-1细胞培养及分化刺激体系,使用RT-PCR检测不同分化状态THP-1细胞IFNL4的表达水平,并在THP-1细胞中过表达IFNL4,检测IFNL4过表达对THP-1细胞分泌IL-12、TNF-α、IL-10和TGF-β等细胞因子及细胞迁移效率的影响。结果:THP-1细胞分化抑制IFNL4的表达,分化前比分化后IFNL4表达水平相对定量下降255.46倍,差异显著性P0.001;M2极化巨噬细胞较M1细胞表达IFNL4因子水平升高14.69倍,显著性差异P=0.009;IFNL4过表达可抑制IL-12和TNF-α表达水平,其中TNF-α表达水平变化具有统计学意义(P=0.017),表达水下降5.97倍。IFNL4可促进IL-10和TGF-β的表达,其中TGF-β变化具有统计学意义(P=0.046),表达水平相对上升2.42倍。且IFNL4对THP-1细胞迁移效率具有抑制作用(P=0.005),刺激前细胞迁移数为45.33,IFNL4刺激后迁移数为32.67,迁移移效率下降1.39倍。结论:干扰素IFNL4在分化的M2型THP-1巨噬细胞中具有较高的表达水平,且对THP-1的免疫应答具有一定的抑制作用。     

The antimicrobial peptide, epinecidin-1, mediates secretion of cytokines in the immune response to bacterial infection in mice

Epinecidin-1, an antimicrobial peptide which encodes 21 amino acids, was isolated from a marine grouper (Epinephelus coioides). In this study, we investigated its immunomodulatory functions in mice co-injected with Pseudomonas aeruginosa. In vivo results showed that the synthetic epinecidin-1 peptide induced significant secretion of immunoglobulin G1 (IgG1) in mice co-injected with P. aeruginosa. Moreover, after injection of 40, 100, 200, or 500 μg epinecidin-1/mouse, we detected IgM, IgG, IgG1, and IgG2a in mice treated for 1, 2, 3, 7, 14, 21, and 28 days. Results showed that there were no significant differences in IgM, IgG, or IgG2a between mice injected with epinecidin-1 alone. IgG1 increased to a peak at 24 h, 7 days, and 28 days after an epinecidin-1 (40 μg/mouse) injection. Injection of 500 μg epinecidin-1/mouse increased IgG1 to peaks at 2 and 3 days; injection of 100 μg epinecidin-1/mouse increased IgG1 to a peak at 21 days. This supports epinecidin-1 being able to activate the Th2 cell response (enhance IgG1 production) against P. aeruginosa infection. Treatment with different concentrations of epinecidin-1 in mice elevated plasma interleukin (IL)-10 to initial peaks at 24 and 48 h, and it showed a second peak at 16 days. In RAW264.7 cells, treatment with epinecidin-1 alone did not produce significant changes in tumor necrosis factor (TNF)-α protein secretion at 1, 6, or 24h after treatment with 3.75, 7.5, or 15 μg/ml epinecidin-1 compared to the lipopolysaccharide group.     

Persistence of viral infections on the population level explained by an immunoepidemiological model

We consider a mathematical model of viral spread in a population based on an immune response model embedded in an epidemic network model. The immune response model includes virus load and effector and memory T cells with two possible outcomes depending on parameters: (a) virus clearance and establishment of immune memory and (b) establishment of a non-zero viral presence characterized with increased T-cell concentrations. Isolated individuals can have different immune system parameters and, after a primary infection, can either return to the infection-free state or develop persistent or chronic infection. When individuals are connected in the network, they can reinfect each other. We show that the virus can persist in the epidemic network for indefinite time even if the whole population consists of individuals that are able to clear the virus when isolated from the network. In this case a few individuals with a relatively weak immune response can maintain the infection in the whole population. These results are in contrast to implications of classical epidemiological models that a viral epidemic will end if there is no influx of new susceptibles and if individuals can become immune after infection.     

具免疫应答和细胞内部时滞的HIV-1感染模型的稳定性分析

考虑了CTLs免疫应答和细胞内部时滞建立HIV-1感染的数学模型.对模型的无感染平衡点全局稳定性进行了分析,对CTLs未激活和CTLs已激活的感染平衡点给出了局部稳定的充分条件.数值模拟支持了得到的理论结果.     

Babylonia spirata (Linnaeus, 1758) on biochemical and nutritional composition levels are altered by Aeromonas hydrophila infection

The present study comprises the biochemical and nutritional composition level of control and infected host of B. spirata with A. hydrophila. The healthy species were collected from the Therespuram coast, Southeast coast of India. After the acclimatization period, 15 snails were selected and infected with seven different bacterial pathogens by intramuscular injection. The snails which shows the maximum mortality rate after the bacterial infection was selected for the biochemical composition nutritional level. It was then analyzed and compared to the control group. Based on this result, the FTIR spectrum, DNA fragmentation, SDS PAGE Profile, amino acids (phenylalanine), fatty acids (linolenic acids), minerals (aluminum and copper) was recorded maximum in control and minimum in infected tissue of B. spirata. The result of the present study showed, presences of rich nutrition composition good protein profile in this species add more value of economic importance.     

草鱼免疫应答的初步研究

研究了草鱼在不同水温条件下受抗原刺激后其中和抗体的变化。15℃培养条件下中和抗体上升缓慢,9周内滴度低于1:8;20℃时,3周后抗体可上升到1:256,最高达1:5270,而在25℃时,1周中和抗体即达到1:570,最高可达1:20000以上。并探索了从草鱼血清中提纯抗体的条件,研究其抗体的特性。草鱼血清中的抗体为大分子蛋白,容易解离为抗原性相同,分子量近似于人IgG的较小分子,含有较多的二硫键,具有类似IgM的某些特性。     

卵形鲳鯵对刺激隐核虫的免疫应答和免疫保护研究

用刺激隐核虫(Cryptocaryon irritans)的幼虫对卵形鲳鯵(Trachinotus ovatus)进行腹腔注射和体表感染,然后每隔一周用阻动试验(Immobilization assay)检测免疫鱼的抗血清和皮肤培养液对刺激隐核虫幼虫的阻动效价,在第14周中,分别用亚致死剂量和致死剂量的刺激隐核虫幼虫对免疫鱼攻毒以检测所产生的免疫保护力。实验结果显示:两种免疫方法都能让卵形鲳鯵的血清和皮肤生成阻动刺激隐核虫幼虫的特异性抗体,并能使被免疫鱼获得明显的免疫保护,但是体表感染免疫组的血清和皮肤培养液的阻动效价都要比腹腔注射免疫组高,所获得的免疫保护力也更强。同时还发现,免疫鱼血清和皮肤培养液中的抗体存在明显的差异:两者的最初生成时间、达到峰值的时间、变化规律以及阻动效价等都不一致。因此,我们推测鱼类的系统免疫应答和皮肤黏膜免疫应答有可能是相互独立的,或者是不同步的。鱼类的体液免疫应答,特别是黏膜免疫应答对抵御刺激隐核虫的感染起了重要的作用,采用刺激隐核虫虫体疫苗可能成为预防海水鱼类白点病的一种选择。     

Functional Role of Metaplastic Paneth Cell Defensins in Helicobacter pylori-Infected Stomach

Background and Aims:  Chronic gastritis is caused by Helicobacter pylori infection, and gastritis is classified as inflammation, atrophy, and intestinal metaplasia. Detailed pathologic studies have shown that H. pylori settles on the surface of gastric mucosa, and that it is eliminated from metaplastic mucosa. However, its mechanism of natural protection is not well known.
Methods:  Antimicrobial human enteric defensin expression was determined in the RNA and protein levels. Recombinant enteric defensins were produced with a bacterial expression system and their anti- H. pylori activities were assessed by bactericidal assay.
Results:  Human enteric defensin (HD)-5 and HD-6 were detected in Paneth cells, which are observed in the gastric metaplastic mucosa as well as small intestinal epithelia. HD-5 protein was coexpressed with trypsin, which is considered to be an activating enzyme of HD-5. Less H. pylori was observed in the intestinal metaplasia with HD-5 expressing Paneth cells. The recombinant defensins showed killing activity against H. pylori at a low concentration in vitro.
Conclusions:  The human defensins that are expressed in the metaplastic Paneth cells eliminate H. pylori . Metaplastic change may be a purposive development of the human stomach.     

腹腔注射重组腺病毒诱导的免疫反应

为研究重组腺病毒接种实验动物后的免疫反应性,利用RT-PCR方法,从HAV的RNA中克隆了结构蛋白基因插入穿梭质粒pXCX2Not I,通过磷酸钙-DNA共沉淀技术,将复制缺陷型腺病毒载体与线形化的pXCX2 CMV-HAV共转染293细胞.一系列检测方法证明产生了重组腺病毒rAdHAV.纯化后的rAdHAV滴度为1×109TCID50/mL,腹腔注射免疫昆明种小白鼠后,可诱导产生抗HAV IgG和HAV中和抗体.复制缺陷型腺病毒可作为发展基因工程病毒疫苗载体的有效系统.     

朗格汉斯细胞与病毒感染

朗格汉斯细胞位于黏膜状组织和皮肤分层鳞状上皮,是高度专职的抗原呈递细胞家族成员,也是表皮中唯一的树突细胞。其作为一种皮肤免疫细胞,在摄取、加工处理和呈递抗原及诱导 T 细胞反应等方面发挥着巨大作用。机体皮肤或黏膜在遭遇不同病原微生物入侵时,朗格汉斯细胞与病原体的相互作用及引起后续免疫反应的机制存在差异。本文就朗格汉斯细胞的生物学功能及其在一些病毒感染中的作用进行综述。