Review ‐ Helicobacter,inflammation, immunology and vaccines

Understanding the mechanisms involved in induction and regulation of the immune and inflammatory response to Helicobacter pylori is extremely important in determining disease outcomes. H pylori expresses a plethora of factors that influence the host response. Vaccines against H pylori are desperately needed for the prevention of gastric carcinogenesis, especially with the increasing trends in antimicrobial resistance. This review summarizes some important findings, published between 1 April 2019 and 31 March 2020, in the areas of H pylori‐mediated inflammation, immunity and vaccines.     

Conventional, regulatory, and unconventional T cells in the immunologic response to Helicobacter pylori

Infection by the gastroduodenal pathogen Helicobacter pylori elicits a complex immunologic response in the mucosa involving neutrophils, plasma cells, eosinophils, and lymphocytes, of which T cells are the principal orchestrators of immunity. While so-called classical T cells (e.g. T-helper cells) that are activated by peptide fragments presented on antigen-presenting cells have received much attention in H. pylori infection, there exists a diverse array of other T cell populations that are potentially important for the outcome of the ensuing immune response, some of which have not been extensively studied in H. pylori infection. Pathogen-specific regulatory T cells that control and prevent the development of immunopathology associated with H. pylori infection have been investigated, but these cells can also benefit the bacterium in helping to prolong the chronicity of the infection by suppressing protective immune responses. An overlooked T cell population, the more recently described Th17 cells, may play a role in H. pylori-induced inflammation, due to triggering responses that ultimately lead to the recruitment of polymorphs, including neutrophils. The so-called innate or unconventional T cells, that include two conserved T cell subsets expressing invariant antigen-specific receptors, the CD1d-restricted natural killer T cells which are activated by glycolipids, and the mucosal-associated invariant T cells which play a role in defense against orally acquired pathogens in the intestinal mucosa, have only begun to receive attention. A greater knowledge of the range of T cell responses induced by H. pylori is required for a deeper understanding of the pathogenesis of this bacterium and its ability to perpetuate chronic infection, and could reveal new strategies for therapeutic exploitation.     

CD4+CD25+调节性T细胞

调节性T细胞(regulatory T cells,Treg)是机体维持自身耐受的重要组成部分。CD4^ CD25^ Treg细胞来源于胸腺,其主要功能是抑制自身反应性T细胞,并且其作用是通过直接的Treg-T效应细胞之间的相互接触方式来实现的。CD4^ CD25^ Treg细胞可分泌多种抑制性细胞因子,但与其抑制功能关系并不明确,目前有证据表明GITR和Foxp3与CD4^ CD25^ Treg细胞的抑制功能有关,并且Foxp3已作为CD4^ CD25^ Treg细胞的特异性标志。通过IL-10、TGF-β等抑制性细胞因子、imDC以及转基因技术可以产生具有免疫抑制功能的调节性T细胞。调节性T细胞在免疫相关性疾病、肿瘤免疫和抗感染免疫等方面具有重要意义。     

幽门螺杆菌vacA基因的克隆和序列分析

空泡毒素是幽门螺杆菌产生的已知的唯一蛋白毒素,该毒素与感染者胃肠上皮务和溃疡形成密切相关,同时也是幽门螺杆菌免疫预防和免疫治疗的重要候选组分。从幽门螺杆菌NCTC11637染色体DNA中经PCR方法获得了2.9kb的该基因成熟肽全长序列,将该基因克隆至载体pET22b ,经PCR扩增和酶切鉴定后序列分析表明,该基因与已知序列完全一致。     

调节性 T 细胞发育的一个关键转录因子 Foxp3

调节性 T 细胞是目前免疫学领域研究的热点,对于维持机体免疫耐受和免疫应答稳态具有非常重要的作用 . 对其发育和功能机制的深入认识,不但有助于了解错综复杂的免疫系统理论,而且在自身免疫性疾病、肿瘤和艾滋病的治疗以及移植耐受的诱导等方面具有广泛的应用前景 . 最近的研究发现,转录因子 Foxp3 对于调节性 T 细胞的发育具有重要的作用,是调节性 T 细胞发育的一个关键转录因子 .     

Regulation of the innate immune cells during pregnancy: An immune checkpoint perspective

The foetus can be regarded as a half-allograft implanted into the maternal body. In a successful pregnancy, the mother does not reject the foetus because of the immune tolerance mechanism at the maternal-foetal interface. The innate immune cells are a large part of the decidual leukocytes contributing significantly to a successful pregnancy. Although the contributions have been recognized, their role in human pregnancy has not been completely elucidated. Additionally, the accumulated evidence demonstrates that the immune checkpoint molecules expressed on the immune cells are co-inhibitory receptors regulating their activation and biological function. Therefore, it is critical to understand the immune microenvironment and explore the function of the innate immune cells during pregnancy. This review summarizes the classic immune checkpoints such as PD-1, CTLA-4 and some novel molecules recently identified, including TIM-3, CD200, TIGIT and the Siglecs family on the decidual and peripheral innate immune cells during pregnancy. Furthermore, it emphasizes the role of the immune checkpoint molecules in pregnancy-associated complications and reproductive immunotherapy.     

固有免疫细胞及其模式识别受体与表观遗传学调控研究进展

固有免疫细胞是机体抵御病原微生物的首道防线,亦是机体有效启动和维持免疫反应的重要参与者,而模式识别受体是固有免疫细胞发挥免疫功能的重要免疫分子,因此,机体对固有免疫细胞及其模式识别受体的精细调控尤为重要。表观遗传学是近年研究热点,其在固有免疫调节中的作用逐渐受到重视。就近年表观遗传学中的DNA甲基化、组蛋白共价修饰及非编码RNA等在调节固有免疫细胞分化发育及其模式识别受体的相关研究作一简述,以期为感染、炎症、自身免疫病等研究与防治提供新的思路和策略。     

昆虫免疫识别与病原物免疫逃避机理研究进展

昆虫在长期进化过程中形成复杂的天然免疫系统,病原识别是启动下游免疫反应的第一步,这一过程主要是由不同的模式识别蛋白来完成的。目前发现并鉴定的昆虫模式识别蛋白主要包括肽聚糖识别蛋白、类免疫球蛋白、β-1,3-葡聚糖结合蛋白、C型凝集素及具多功能的载脂蛋白等,不同的蛋白种类具有不同的结构、功能及识别对象。与昆虫免疫识别相对应的是,不同昆虫病原物在进化过程中发展出不同策略的免疫逃避能力,以战胜宿主免疫而致病或最终杀死昆虫。本文就昆虫免疫过程中不同模式识别蛋白的结合对象、结构与功能,以及逐渐兴起的病原物通过分子伪装等进行免疫逃避的研究进展进行了综述。并在此基础上,作者就昆虫免疫与昆虫病理研究的发展方向进行了展望,认为只有当两方面研究相结合时,才能更好地揭示昆虫宿主与病原物之间免疫与抗免疫的动态相互作用过程。     

Inflammation, Immunity, and Vaccines for Helicobacter pylori

Helicobacter pylori infects almost half of the population worldwide and represents the major cause of gastroduodenal diseases, such as duodenal and gastric ulcer, gastric adenocarcinoma, autoimmune gastritis, and B-cell lymphoma of mucosa-associated lymphoid tissue. Helicobacter pylori induces the activation of a complex and fascinating cytokine and chemokine network in the gastric mucosa. Different bacterial and environmental factors, other concomitant infections, and host genetics may influence the balance between mucosal tolerance and inflammation in the course of H. pylori infection. An inverse association between H. pylori prevalence and the frequencies of asthma and allergies was demonstrated, and the neutrophil activating protein of H. pylori was shown to inhibit the allergic inflammation of bronchial asthma. During the last year, significant progress was made on the road to the first efficient vaccine for H. pylori that will represent a novel and very important bullet against both infection and gastric cancer.     

Structural immunology of costimualtory and coinhibitory molecules

The T cell costimulatory pathways are central to regulating immune responses, and targeting these pathways represents one of the most promising approaches for achieving immunotherapy. The molecular structures of costimulation revealed invaluable mechanistic insights underlying costimulatory receptor/ligand specificity, affinity, oligomeric state, and valency, which provided the bases for better manipulation of these signaling pathways. The incredible growth of this field led to identification of new members and unexpected interactions, revealing a complicated regulatory network of immune responses. The advances in structural biology of costimulation will promise unprecedented opportunities for furthering our understanding and therapeutic application of T cell costimulatory pathways.     

家蚕免疫稳态调控分子的鉴定和表达模式分析

昆虫免疫稳态的维持有赖于准确地激活和有效地抑制Toll或IMD信号通路中的关键转录因子-- Dorsal/Dif或Relish。在果蝇等昆虫中, 已报道了多种降低转录因子稳定性和活性的免疫稳态调控分子, 突变或敲除这类分子导致免疫系统的过度激活。对家蚕Bombyx mori免疫信号通路的研究中, 至今为止尚无对这类分子的探索。本研究通过比较基因组学, 在家蚕基因组中鉴定了多个可能参与免疫稳态调控的分子, 包括Wnt家族成员、 Ubc9、 FAF和POSH等; 并通过检测家蚕被微生物感染后这些分子在多种免疫器官中的诱导表达模式, 发现这些分子的表达水平在微生物感染后普遍呈下降趋势, 虽然在某些组织中表达量有明显的升高（>1.5倍）, 但此高表达水平均不能维持且迅速下降; 而且免疫稳态调控分子和受其调控的信号通路的对应关系在不同组织中表现出差异。本研究是首次对家蚕免疫稳态调控分子的报道, 为深入研究家蚕免疫负调控的分子机制提供了参考。     

长链非编码RNA的免疫调节机制研究进展

真核生物的基因表达受多个层面调控,包括染色体水平、DNA水平、转录水平和转录后水平的调控等.长链非编码RNA(lnc RNA)是一类转录本超过200 nt的非编码RNA,其对基因表达的调控涉及上述各个层面,如组蛋白修饰、DNA甲基化的调控、转录的促进和抑制、m RNA的剪辑及对转录因子的调控等.其作用方式复杂多样,可与DNA、mRNA和蛋白质等相互作用而发挥调节作用.LncRNA保守性较差,但其表达却有较高的细胞、组织和分化阶段特异性.免疫系统的发育和分化受到精密的调控,且具有较高的阶段性和特异性.因此研究lnc RNA的功能及作用机制,免疫系统是较好的选择,这能促进我们对免疫调控的理解,为免疫性疾病的治疗提供新的思路和方法.本文主要介绍lnc RNA的分类和lnc RNA作用的一般分子机制,及其对T细胞、B细胞、固有免疫细胞和炎症因子的分子调控机制及其进展.     

Macroautophagy in Immunity and Tolerance

Autophagy and proteasomal degradation constitute the two main catabolic pathways in cells. While the proteasome degrades primarily short-lived soluble proteins, macroautophagy, the main constitutive autophagic pathway, delivers cell organelles and protein aggregates for lysosomal degradation. Both the proteasome and macroautophagy are attractive effector mechanisms for the immune system because they can be used to degrade foreign substances, including pathogenic proteins, within cells. Therefore, both innate and adaptive immune responses use these pathways for intracellular clearance of pathogens as well as for presentation of pathogen fragments to the adaptive immune system. Because, however, the same mechanisms are used for the steady-state turnover of cellular self-components, the immune system has to be desensitized not to recognize these. Therefore, proteasomal degradation and macroautophagy are also involved in tolerizing the immune system prior to pathogen encounter. We will discuss recent advances in our understanding how macroautophagy selects self-structures in the steady state, how presentation of these on major histocompatibility complex class II molecules leads to tolerance and how macroautophagy assists both innate and adaptive immunity. This new knowledge on the specialized functions of the metabolic process macroautophagy in higher eukaryotes should allow us to target it for therapy development against immunopathologies and to improve vaccinations.     

1型调节性T细胞的表型和功能

1型调节性T细胞(Tr1)在免疫耐受的诱导和维持过程中发挥重要作用。Tr1细胞通常在免疫耐受的环境中由外来抗原诱导产生,通过产生高水平的IL-10而发挥免疫抑制作用。而CD4 CD25 调节性T细胞(Tregs)可在胸腺中天然产生也可在外周被抗原诱导产生,通过细胞接触发挥抑制作用。现对Tr1细胞的表型、功能及其抑制作用机制等方面的研究进展进行综述。