诺如病毒和肠道菌群的互作关系及机制研究进展

诺如病毒(Norovirus,NoV)是全球流行性、非细菌性胃肠炎暴发的主要原因之一.研究表明,肠道菌群能与诺如病毒互作并调控其在肠道中的感染和复制过程,但关于两者之间的互作关系及机制研究目前还处于初步探索阶段.本文通过综述国内外最新研究,系统全面地阐述了肠道菌群通过稳定病毒结构、增强病毒与靶细胞的结合,调节宿主先天免疫应答等多种途径促进诺如病毒感染的作用和可能机制,对于更进一步了解和研究诺如病毒感染和发病机制提供新思路和视角.     

诺如病毒反向遗传系统的研究进展与应用

诺如病毒是导致人类急性胃肠炎的主要食源性致病原,由于变异快且缺乏稳健的体外细胞培养体系及小动物感染模型,限制了我们对该病原体的深入研究。近年来,可培养鼠源诺如病毒的发现、人源诺如病毒肠道细胞培养体系的开发,以及诺如病毒反向遗传操作体系的构建为系统研究该病原提供了有力工具,加深了我们对其复制机制、致病机理、病毒-宿主相互作用等的了解。本文主要综述了反向遗传学技术用于诺如病毒研究的工作进展,并讨论了该技术在诺如病毒分子病毒学研究、药物筛选和疫苗制备中的应用及发展前景,以期为诺如病毒防控策略的制定及药物靶点的挖掘提供有益参考,推进我国食品安全风险防控工作。     

诺如病毒在贝类中的富集特性与机制研究进展

诺如病毒是一种全球范围内重要的食源性病毒。贝类通过滤食作用可将诺如病毒富集在体内,成为诺如病毒感染传播的重要载体。研究表明,贝类对不同型别的诺如病毒富集能力不同,并呈现季节性、空间性差异,我们前期研究显示,贝类中存在不同类型的组织血型抗原,推测其与诺如病毒积累并呈现差异密切相关,但具体机理不明。本文综述了诺如病毒在贝类中的蓄积、分布、季节性差异及结合机制的研究新进展,以期为我国贝类中诺如病毒的控制、风险预警等研究提供参考。     

丙型肝炎病毒受体及其感染机制

病毒与宿主细胞的吸附是病毒感染的第一步,其相互作用决定了病毒的宿主范围和组织、细胞的易感性。丙型肝炎病毒(HCV)受体的研究,对于阐明HCV的感染机制及感染模型具有重要意义。     

抗体跨越血脑屏障去攻击病毒

约翰·霍普金斯大学医学院(Baltimofe,MD)声称采用单克隆抗体阻止了病毒在大鼠神经元培养中的繁殖。该校的Diane Griffin及其同事说,这些结果证实了如下结论:是体液免疫,而不是细胞免疫,阻止了病毒在SCID患鼠脑中的感染。这就提示可以用单抗治疗脑部的病毒感染。机体抗病毒感染有两条途径:体液免疫(抗体与病毒蛋白的结合)及细胞免疫(T细胞攻击受感染的组织细胞)。体液免疫对于组织外的体液很重要,但人们认为,要从组织(包括脑)中清除病毒,则需要细胞免疫。     

肾移植术后巨细胞病毒感染的诊治进展

肾移植术后长期大量的使用免疫抑制药物,使患者的细胞免疫、体液免疫均受损,特别是细胞免疫受损更为严重,因而增加了各种感染的机会.感染时间以术后2～4月多见.感染病原茵有细菌、病毒、真菌及卡氏肺囊虫等,常常为混合感染.其中病毒感染以巨细胞病毒(cytomegalovirus,CMV)多见,且CMV感染是降低受者和移植肾存活率的重要因素.本文就肾移植术后巨细胞病毒感染的诊治作一综述.     

病毒感染蛋白质组学研究进展

病毒的侵入会导致宿主细胞蛋白表达模式的改变,这种改变将影响宿主细胞的正常生理功能并决定病毒的致病进程和结果.因此,病毒感染蛋白质组学研究有助于揭示病毒与宿主的相互作用机制和病毒的分子致病机制,以及寻找病毒早期感染的分子标记、建立早期诊断方法、评价治疗效果和预后.本文介绍了病毒感染蛋白质组学研究技术、病毒诱导宿主细胞蛋白质组改变和病毒感染宿主血清差异蛋白质组等方面的研究进展.     

人巨细胞病毒调控免疫逃逸相关基因的功能及其机制研究

人巨细胞病毒（HCMV）是一个广泛传播的机会致病原,也是不断利用和操控机体免疫系统致慢性持续性病毒感染的典型代表。在病毒与宿主共同漫长进化过程中,HCMV产生了许多逃避宿主免疫系统识别的机制,其基因组编码了大量产物,通过抑制自然杀伤细胞和树突细胞功能,下调被感染细胞表面主要组织相容性复合体（MHC）Ⅰ类和Ⅱ类分子表达以减少病毒抗原呈递,损伤IgG介导的体液免疫,调节多种趋化因子和细胞因子的作用,从而控制宿主天然免疫应答和适应性免疫应答的核心功能。本文就HCMV的免疫逃避机制进行综述,探讨病毒与宿主相互作用的发生、发展与结局。     

病毒感染对宿主肠道微生态的影响

摘要：肠道菌群对宿主免疫系统的建立和发育起着重要的作用,与宿主的生理、病理等密切相关,对机体抗病毒作用具有一定的影响。病毒感染影响宿主肠道微生物群落,进而影响宿主机体营养物质的代谢及细胞免疫功能。本研究着重综述病毒感染对宿主肠道微生态及免疫的影响。     

病毒感染对宿主肠道微生态的影响

肠道菌群对宿主免疫系统的建立和发育起着重要的作用,与宿主的生理、病理等密切相关,对机体抗病毒作用具有一定的影响。病毒感染影响宿主肠道微生物群落,进而影响宿主机体营养物质的代谢及细胞免疫功能。本研究着重综述病毒感染对宿主肠道微生态及免疫的影响。     

Cellular and humoral immune interactions between Drosophila and its parasitoids

The immune interactions occurring between parasitoids and their host insects, especially in Drosophila–wasp models, have long been the research focus of insect immunology and parasitology. Parasitoid infestation in Drosophila is counteracted by its multiple natural immune defense systems, which include cellular and humoral immunity. Occurring in the hemocoel, cellular immune responses involve the proliferation, differentiation, migration and spreading of host hemocytes and parasitoid encapsulation by them. Contrastingly, humoral immune responses rely more heavily on melanization and on the Toll, Imd and Jak/Stat immune pathways associated with antimicrobial peptides along with stress factors. On the wasps’ side, successful development is achieved by introducing various virulence factors to counteract immune responses of Drosophila. Some or all of these factors manipulate the host's immunity for successful parasitism. Here we review current knowledge of the cellular and humoral immune interactions between Drosophila and its parasitoids, focusing on the defense mechanisms used by Drosophila and the strategies evolved by parasitic wasps to outwit it.     

Suppression of Splenic Lymphocyte Proliferation by Eucommia ulmoides and Genipin

We investigated the modulation of innate and adaptive immune cell activation by Eucommia ulmoides Oliver extract (EUE) and its ingredient genipin. As an innate immunity indicator, the phagocytic activity of macrophages was determined by measuring engulfed, fluorescently labeled Escherichia coli. As a surrogate marker for the respective activation of cellular and humoral adaptive immunity, concanavalin A (Con A) and lipopolysaccharide (LPS) induction of primary splenocyte proliferation was assayed in in vitro and ex vivo systems. EUE and genipin suppressed the proliferation of primary splenic lymphocytes induced by Con A or LPS, but not macrophage phagocytosis. Oral administration of EUE and genipin to mice decreased splenic lymphocyte proliferation induced by Con A or LPS. These results revealed that E. ulmoides and genipin suppressed cellular and humoral adaptive immunity, and they suggest that E. ulmoides and genipin are promising candidates for immunosuppressive drugs that target diseases that involve excessive activation of adaptive immunity.     

Effects of β-glucan extracted from Saccharomyces cerevisiae on humoral and cellular immunity in weaned piglets

Abstract

Twenty-four barrows were used to investigate the effects of β-glucan on immune function in weaned piglets. Pigs (8.09 ± 0.20 kg, 28 d of age) were fed a diet without or with supplemented β-glucan (50 mg/kg feed). All pigs were injected with ovalbumin (OVA) on day 14 to investigate their humoral immune response. On day 28, lymphocytes were isolated from all pigs to determine the effects of β-glucan on cellular immunity of pigs in vitro. Lymphocytes from six pigs of each group were incubated with 16 μg lipopolysaccharide (LPS) per ml culture medium, the remainder with an equivalent volume of culture medium alone. Samples were collected at 0, 3, 6, 12, 18, 24, and 48 h after LPS addition for determination of interleukin-6 (IL-6), tumor necrosis factor-α (TNF-α), and interleukin-10 (IL-10). On day 31, six pigs of each group were injected with either LPS (25 μg/kg BW) or an equivalent amount of sterile saline. Blood samples were collected at 3 h after LPS injection for analysis of IL-6, TNF-α, and IL-10 in plasma. The results indicated that dietary β-glucan enhanced pig antibody response to OVA only in the first week after injection. In vitro, the increases of IL-6 and TNF-α in culture medium were partially dampened in pigs supplemented with β-glucan when their lymphocytes were incubated with LPS, whereas the increase of IL-10 was potentiated. In vivo, dietary β-glucan attenuated the increase of plasma IL-6 and TNF-α, and enhanced the increase of plasma IL-10 when pigs were challenged with LPS. These results demonstrate that β-glucan can improve the humoral immunity of pigs and modulate cellular immunity of pigs by mitigating the elevation of pro-inflammatory cytokines and enhancing the increase of anti-inflammatory cytokines after an immunological challenge.     

食物限制对黑线仓鼠免疫功能的影响

温带地区小型哺乳动物经常面临着食物资源的波动。食物对动物的免疫功能具有重要影响。将19只成年雄性黑线仓鼠(Cricetulus barabensis)随机分为自由取食组(n=9)和限食组(n=10)。注射植物血球凝集素(PHA)来测定细胞介导的免疫反应,用匙孔血蓝蛋白(KLH)免疫动物,然后测定抗KLH抗体的浓度以反映其体液免疫功能。旨在检验食物限制是否会抑制黑线仓鼠的细胞免疫和体液免疫功能。结果发现,与对照组相比,限食组黑线仓鼠具有较低的体重、体脂、脾脏鲜重、血清瘦素水平、免疫球蛋白Ig G和Ig M浓度。而限食对胸腺鲜重、白细胞数、皮质酮水平以及PHA反应没有显著影响。结果表明黑线仓鼠免疫系统的不同成分对限食反应存在差异,在食物资源短缺时,黑线仓鼠防御细胞外病原体的能力降低,从而导致生存能力的下降。     

含分子内佐剂的SARS-CoV-2 RBD域重组蛋白制备及免疫效果评价北大核心CSCD

制备含破伤风毒素肽(tetanus toxin,TT)、促吞噬肽(tuftsin)和新型冠状病毒刺突蛋白(spike,S蛋白)受体结合域(receptor-binding domain,RBD)的融合蛋白,探讨分子内佐剂对RBD蛋白体液免疫和细胞免疫效果的影响。将破伤风毒素肽、促吞噬肽与S蛋白RBD区域通过柔性多肽串联,密码子优化后构建重组载体,原核表达纯化制备重组S-TT-tuftsin蛋白,与铝佐剂混合后免疫BALB/c小鼠,对其体液及细胞免疫效果进行评价。重组S-TT-tuftsin蛋白以包涵体形式表达,离子交换层析纯化后采用梯度透析进行复性,复性蛋白经Dot blotting鉴定,可与新冠亚单位疫苗(安徽智飞公司)免疫后人血清发生反应。小鼠免疫实验结果表明,免疫35 d时抗体水平到达平台期,含分子内佐剂重组蛋白(铝佐剂)免疫小鼠后血清ELISA抗体效价高达1︰66240,显著高于S-RBD蛋白(铝佐剂)免疫小鼠抗体效价(P<0.05)。同时,含分子内佐剂重组蛋白刺激小鼠产生更强的淋巴细胞增殖能力,刺激指数可达4.71±0.15,相较于S-RBD蛋白的刺激指数1.83±0.09具有显著性差异(P<0.0001)。分子内佐剂破伤风毒素肽和促吞噬肽可显著增强新冠S蛋白RBD域的体液免疫和细胞免疫效果,可为新冠亚单位疫苗和其他病毒亚单位疫苗的研制提供理论基础和参考。     

Detection of cellular immunity with the soluble antigen of the fungus Sporothrix schenckii in the systemic form of the disease

Sporothrix schenckii is the etiologic agent of sporotrichosis, a mycosis of world-wide distribution more commonly occurring in tropical regions. The immunological mechanisms involved in the prevention and control of sporotrichosis are not fully understood but apparently include both the humoral and cellular responses. In the present investigation, cellular immunity was evaluated by in vivo and in vitro tests in mice infected with yeast-like forms of S. schenckii. The disease developed systemically and cellular immunity was evaluated for a period of 10 weeks. The soluble antigen utilized in the tests was prepared from yeast form of the fungus through the sonication (20 min: 10 sonications at 50 W at 2-min intervals). Delayed hypersensitivity and lymphocyte transformation tests showed that the cellular immune response was depressed between the 4th and 6th week of infection when the animals were challenged with the soluble fungal antigen. This depression frequently indicates worsening of the disease, with greater involvement of the host. This is a promising field of research for a better understanding of the pathogeny of this mycosis.     

寄生蜂多分DNA病毒对寄主昆虫的免疫抑制作用

多分DNA病毒（PDV）是在膜翅目姬蜂科和茧蜂科寄生蜂体内的一类很独特的病毒,寄生蜂产卵时,PDV随同卵和萼液一起被注射入寄主体内,能干扰寄主的细胞免疫和体液免疫,该病毒直接侵染或间接作用于血细胞,主要是浆细胞和颗粒细胞,导致血细胞变圆或凋亡,PDV也能抑制血淋巴酚氧化酶活性,诱导抗菌因子的大量合成,最近有关研究主要集中在病毒基因的表达和伴随寄主血细胞功能失常的分子事件上,一些寄主蜂的PDV与其他因子,如卵巢蛋白,畸形细胞或蜂毒等协同发挥作用。     

Effects of the endoparasitoid Cotesia chilonis (Hymenoptera: Braconidae) parasitism,venom, and calyx fluid on cellular and humoral immunity of its host Chilo suppressalis (Lepidoptera: Crambidae) larvae

The larval endoparasitoid Cotesia chilonis injects venom and bracoviruses into its host Chilo suppressalis during oviposition. Here we study the effects of the polydnavirus (PDV)-carrying endoparasitoid C. chilonis (Hymenoptera: Braconidae) parasitism, venom and calyx fluid on host cellular and humoral immunity, specifically hemocyte composition, cellular spreading, encapsulation and melanization. Total hemocyte counts (THCs) were higher in parasitized larvae than in unparasitized larvae in the late stages following parasitization. While both plasmatocyte and granulocyte fractions and hemocyte mortality did not differ between parasitized and unparasitized hosts, in vitro spreading behavior of hemocytes was inhibited significantly by parasitism throughout the course of parasitoid development. C. chilonis parasitism suppressed the encapsulation response and melanization in the early stages. Venom alone did not alter cellular immune responses, including effects on THCs, mortality, hemocyte composition, cell spreading and encapsulation, but venom did inhibit humoral immunity by reducing melanization within 6 h after injection. In contrast to venom, calyx fluid had a significant effect on cell spreading, encapsulation and melanization from 6 h after injection. Dose–response injection studies indicated the effects of venom and calyx fluid synergized, showing a stronger and more persistent reduction in immune system responses than the effect of either injected alone.     

Cadmium exposure of rainbow trout, Salmo gairdneri Richardson: effects on immune functions

Differential leucocyte counts, phagocytosis, humoral antibody response and the in vitro blasto-genetic response to mitogens (lipopolysaccharide and Concanavalin A) and to an antigen ( Vibrio anguillarum ) were studied in rainbow trout exposed to 0,0.7 or 3.6 μg Cd 1⁻¹ for 12 weeks.
Although the fish did not exhibit any clinical or histological changes, cadmium exposure was found to affect two of the immune parameters measured. The cellular response of fish immunized with V. anguillarum to the homologous antigen was significantly lower for splenocytes obtained from fish exposed to cadmium for 9 weeks (3.6 μg Cd 1⁻¹ group) than for splenocytes obtained from non-exposed fish. Conversely, the humoral antibody response to V. anguillarum O-antigen was higher in the 3.6 μg Cd 1⁻¹ group than in the non-exposed group. Protective immunity of fish vaccinated against V. anguillarum was equally as good in the cadmium-exposed group as in the non-exposed group. No cadmium-induced changes in differential leucocyte counts or in the proportions of phagocytic cells were observed.     

Preferential expression and immunogenicity of HIV-1 Tat fusion protein expressed in tomato plant

HIV-1 Tat plays a major role in viral replication and is essential for AIDS development making it an ideal vaccine target providing that both humoral and cellular immune responses are induced. Plant-based antigen production, due to its cheaper cost, appears ideal for vaccine production. In this study, we created a plant-optimized tat and mutant (Cys30Ala/Lys41Ala) tat (mtat) gene and ligated each into a pBI121 expression vector with a stop codon and a gusA gene positioned immediately downstream. The vector construct was bombarded into tomato leaf calli and allowed to develop. We thus generated recombinant tomato plants preferentially expressing a Tat-GUS fusion protein over a Tat-only protein. In addition, plants bombarded with either tat or mtat genes showed no phenotypic difference and produced 2–4 μg Tat-GUS fusion protein per milligram soluble plant protein. Furthermore, tomato extracts intradermally inoculated into mice were found to induce a humoral and, most importantly, cellular immunity.