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羊痘病毒免疫学研究进展 总被引:4,自引:2,他引:2
羊痘病毒是在细胞浆中复制的DNA病毒,能引起羊和牛的皮肤病变.病毒编码一系列免疫调节基因和引起宿主细胞凋亡的基因来逃避宿主先天和后天的免疫反应.病毒感染机体后,主要引起宿主的细胞免疫.羊痘病毒能增强机体对其他免疫原的免疫反应. 相似文献
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TOLL-like receptors linking innate and adaptive immune response 总被引:25,自引:0,他引:25
Invading pathogens are controlled by the innate and adaptive arms of the immune system. Adaptive immunity, which is mediated by B and T lymphocytes, recognises pathogens by rearranged high affinity receptors. However, the establishment of adaptive immunity is often not rapid enough to eradicate microorganisms as it involves cell proliferation, gene activation and protein synthesis. More rapid defense mechanisms are provided by innate immunity, which recognises invading pathogens by germ-line-encoded pattern recognition receptors (PRR). Recent evidence shows that this recognition can mainly be attributed to the family of TOLL-like receptors (TLR). Binding of pathogen-associated molecular patterns (PAMP) to TLR induces the production of reactive oxygen and nitrogen intermediates (ROI and RNI), pro-inflammatory cytokines, and up-regulates expression of co-stimulatory molecules, subsequently initiating the adaptive immunity. In this review, we will summarize the discovery and the critical roles of the TLR family in host defense, briefly allude to signaling mechanisms mediating the response to TLR ligands, and will provide an update on current knowledge regarding the ligand specificity of these receptors and their role in immunity of domestic animals, particularly cattle. 相似文献
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Alvarez-Pellitero P 《Veterinary immunology and immunopathology》2008,126(3-4):171-198
The increasing economic importance of fish parasitoses for aquaculture and fisheries has enhanced the interest in the defence mechanisms against these infections. Both innate and adaptive immune responses are mounted by fish to control parasite infections, and several mechanisms described for mammalian parasitoses have also been demonstrated in teleosts. Innate immune initiation relies on the recognition of pathogen-associated molecular patterns (PAMPs) by pathogen recognizing receptors (PRRs). A number of PRRs, mainly Toll-like receptors (TLRs), have been characterized in fish, and some molecules susceptible of functioning as PAMPs are known for some fish parasites. A lectin-carbohydrate interaction has also been described in some host fish-parasite systems, thus probably involving C-type lectin receptors. Inflammatory reactions involving cellular reactions, as phagocytosis and phagocyte activity (including oxidative mechanisms), as well as complement activity, are modulated by many fish parasites, including mainly ciliates, flagellates and myxozoans. Besides complement, a number of humoral immune factors (peroxidases, lysozyme, acute-phase proteins) are also implicated in the response to some parasites. Among adaptive responses, most data deal with the presence of B lymphocytes and the production of specific antibodies (Abs). Although an increasing number of T-cell markers have been described for teleosts, the specific characterization of those involved in their response is far from being obtained. Gene expression studies have demonstrated the involvement of other mediators of the innate and adaptive responses, i.e., cytokines [interleukins (IL-1, IL-8), tumor necrosis factor (TNF), interferon (IFN)], chemokines (CXC, CC), as well as several oxidative enzymes [inducible nitric oxide synthase (iNOS), cyclo-oxygenase 2 (COX-2)]. Information is scarcer for factors more directly linked to adaptive responses, such as major histocompatibility (MH) receptors, T cell receptors (TCRs) and IgM. Expression of some immune genes varied according to the phase of infection, and proinflammatory cytokines were mainly activated in the early stages. Gene expression was generally higher in the target tissues for some skin and gill parasites, as Ichthyophthirius multifiliis, Neoparamoeba spp. and Lepeophtheirus salmonis, thus confirming the relevance of mucosal immunity in these infections. The existence of protective responses has been demonstrated for several fish parasites, both in natural infections and in immunization studies. Most information on the mechanisms involved in protection deals with the production of specific Abs. Nevertheless, their levels are not always correlated to protection, and the precise involvement of immune mechanisms in the response is unknown in many cases. No commercial vaccine is currently available for piscine parasitoses, although experimental vaccines have been assayed against I. multifiliis, Cryptobia salmositica and scuticociliates. The known information points to the need for integrated studies of the mechanisms involved in protection, in order to choose the optimum antigen candidates, adjuvants and formulations. 相似文献
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Steeve Giguère Amy C Polkes 《Veterinary Clinics of North America: Equine Practice》2005,21(2):241-72, v
Foals live in an environment heavily populated by bacteria, many of which are capable of causing disease. Development of infection,however, is the exception rather than the rule. The ability of the foal to prevent infection by most pathogens is the result of a sophisticated set of defense mechanisms. These defense mechanisms can be divided into adaptive and innate immunity. Innate immunity encompasses defense mechanisms that pre-exist or are rapidly induced within hours of exposure to a pathogen. Conversely, adaptive or acquired immunity represents host defenses mediated by T and B lymphocytes, each expressing a highly specific antigen receptor and exhibiting memory during a second encounter with a given antigen. Immunologic disorders are relatively common in foals compared with their occurrence in adult horses. This article summarizes the current understanding of the equine fetal and neonatal immune system and reviews common immunodeficiency disorders as well as disorders resulting from allogenic incompatibilities. 相似文献
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抗菌肽在哺乳动物防御系统中的作用 总被引:3,自引:0,他引:3
抗菌肽是近年来发现的广泛存在于自然界的一类阳离子抗菌活性肽,它们在宿主先天性免疫和适应性免疫中有重要作用。多数抗菌肽具有分子小、带正电、两亲性、抗菌谱广等共同特点。防御素和calhelicidins是哺乳动物的两大主要抗菌肽家族,它们通过抵抗致病菌入侵为宿主提供了第一道防线而对宿主具有先天的抗菌防御功能,其中一些多肽对未分化的树突状细胞、淋巴细胞有趋化性,另外还有诱导细胞因子生成、肥大细胞脱粒等作用,从而表明这些多肽能动员并增强宿主的先天性免疫和适应性免疫。本文主要对哺乳动物抗菌肽的一般性质、基因及其表达、在宿主防御中的作用、作用机理及研究前景进行了概述。 相似文献
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Invading pathogens are controlled by the innate and adaptive arms of the immune system. Adaptive immunity, mediated by B and T lymphocytes, recognises pathogens via high affinity receptors. However, the establishment of a primary adaptive immune response is not rapid enough to eradicate invading microorganisms as it involves cell proliferation, gene activation and protein synthesis. More rapid defence mechanisms are provided by innate immunity, which recognises invading pathogens by germ-line-encoded pattern recognition receptors. Recent evidence shows that this recognition can mainly be attributed to the family of TOLL-like receptors (TLR). Binding of pathogen-associated molecular patterns to TLR induces the production of reactive oxygen and nitrogen intermediates, pro-inflammatory cytokines, and up-regulates expression of co-stimulatory molecules, subsequently initiating the adaptive immunity. In this paper, we will discuss the current knowledge with regards to the TLR, and in particular the bovine family of TLR. In addition, we will show the expression of TLR mRNA in bovine antigen-presenting cell subsets, summarise the discovery and the critical roles of TLR2 in host defence against Mycobacteria, and provide evidence for a mycobacteria species-specific response of bovine macrophages. 相似文献
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The immune mechanisms of defence against fungal infections are numerous, and range from protective mechanisms that were present early in evolution (innate immunity) to sophisticated adaptive mechanisms that are induced specifically during infection and disease (adaptive immunity). The first-line innate mechanism is the presence of physical barriers in the form of skin and mucous membranes, which is complemented by cell membranes, cellular receptors and humoral factors. There has been a debate about the relative contribution of humoral and cellular immunity to host defence against fungal infections. For a long time it was considered that cell-mediated immunity (CMI) was important, but humoral immunity had little or no role. However, it is accepted now that CMI is the main mechanism of defence, but that certain types of antibody response are protective. In general, Th1-type CMI is required for clearance of a fungal infection, while Th2 immunity usually results in susceptibility to infection. Aspergillosis, which is a disease caused by the fungus Aspergillus, has been the subject of many studies, including details of the immune response. Attempts to relate aspergillosis to some form of immunosuppression in animals, as is the case with humans, have not been successful to date. The defence against Aspergillus is based on recognition of the pathogen, a rapidly deployed and highly effective innate effector phase, and a delayed but robust adaptive effector phase. Candida albicans, part of the normal microbial flora associated with mucous surfaces, can be present as congenital candidiasis or as acquired defects of cell-mediated immunity. Resistance to this yeast is associated with Th1 CMI, whereas Th2 immunity is associated with susceptibility to systemic infection. Dermatophytes produce skin alterations in humans and other animals, and the essential role of the CMI response is to destroy the fungi and produce an immunoprotective status against re-infection. The resolution of the disease is associated with a delayed hypersensitive response. There are many effective veterinary vaccines against dermatophytoses. Malassezia pachydermatis is an opportunistic yeast that needs predisposing factors to cause disease, often related to an atopic status in the animal. Two species can be differentiated within the genus Cryptococcus with immunologic consequences: C. neoformans infects predominantly immunocompromised hosts, and C. gattii infects non-immunocompromised hosts. Pneumocystis is a fungus that infects only immunosupressed individuals, inducing a host defence mechanism similar to that induced by other fungal pathogens, such as Aspergillus. 相似文献
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Toll-like receptors(TLRs)是存在于机体的一类重要的模式识别受体,在机体天然免疫中起着重要的作用.TLRs还是连接天然免疫和适应性免疫的桥梁.目前TLR1-9研究的较清楚和详尽.不同TLRs识别的病原体相关分子模式各不相同.TLRs介导的机体信号传导途径分为MyD88依赖性和非MyD88依赖性.多种生物TLRs已被克隆和表达,通过进化分析,脊椎动物的TLRs可被分为6大基因家族,识别相似PAMP的TLRs聚为一簇.TLRs编码序列和功能是高度保守的. 相似文献
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The skin is a complex and dynamic ecosystem, wherein epithelial cells, immune cells and the skin microbiota actively interact and maintain barrier integrity and functional immunity. Skin microbes actively tune the functions of the resident immune cells. Dysbiosis – alterations in the resident microbiota – leads to the dysregulation of host immunity. Microbiome analyses in humans and dogs with atopic dermatitis (AD) have shown shifts in microbial diversity, and in particular, an increased proportion of staphylococci. Monogenic diseases that manifest AD-like symptoms provide insights into the pathogenesis of AD and the mechanisms of dysbiosis, from both the epithelial and immunological perspectives. The symbiotic relationships between the host and microbiota must be maintained constitutively. Detailed mechanisms of how host immunity regulates commensal bacteria in the steady state have been reported. The skin harbours multiple tissue-resident immune cells, including both innate and adaptive immune cells. Recent studies have highlighted the fundamental role of innate lymphoid cells (ILCs) in the maintenance of barrier functions and tissue homeostasis. ILCs directly respond to tissue-derived signals and are instrumental in barrier immunity. Epithelial cells produce alarmins such as thymic stromal lymphopoietin (TSLP) and interleukins (IL)-33 and IL-25, all of which activate group 2 ILCs (ILC2s), which produce type 2 cytokines, such as IL-5 and IL-13, boosting type 2 immune reactions. Dysregulation of the epithelial–ILC crosstalk results in allergic inflammation. This review highlights our understanding of the active interactions between the host epithelial and immune cells, and microbiota, providing a foundation for novel therapeutic strategies for inflammatory skin diseases. 相似文献
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A critical component of host innate immunity is recognition of pathogen-associated molecular patterns (PAMPs) by pattern recognition receptors (PRRs). Dectin-1 is the primary PRR for exogenous beta-glucan, a component of fungal and bacterial cell walls. A previous study conducted in our laboratory demonstrated that administration of beta-glucan as a feed additive resulted in increased innate immune function of neonatal chickens, suggesting that chickens possess a Dectin-1-like beta-glucan receptor. In the present study, we demonstrated that heterophils and peripheral blood mononuclear cells (PBMCs) from day-old chicks had a significant increase in the generation of reactive oxygen species (ROS) following stimulation with the Dectin-1 specific agonist, curdlan. Pretreatment of heterophils and PBMCs with laminarin, a beta-glucan receptor blocking agent and specific inhibitor of Dectin-1 activity, significantly reduced the curdlan-induced ROS production. Together these data provide evidence for the first time of the presence of a functional Dectin-1-like beta-glucan receptor in chicken heterophils and PBMCs. 相似文献
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Sang Y Rowland RR Blecha F 《Animal health research reviews / Conference of Research Workers in Animal Diseases》2011,12(2):149-167
Innate immunity provides frontline antiviral protection and bridges adaptive immunity against virus infections. However, viruses can evade innate immune surveillance potentially causing chronic infections that may lead to pandemic diseases. Porcine reproductive and respiratory syndrome virus (PRRSV) is an example of an animal virus that has developed diverse mechanisms to evade porcine antiviral immune responses. Two decades after its discovery, PRRSV is still one of the most globally devastating viruses threatening the swine industry. In this review, we discuss the molecular and cellular composition of the mammalian innate antiviral immune system with emphasis on the porcine system. In particular, we focus on the interaction between PRRSV and porcine innate immunity at cellular and molecular levels. Strategies for targeting innate immune components and other host metabolic factors to induce ideal anti-PRRSV protection are also discussed. 相似文献
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温度是一个重要的非生物环境变量,能够驱动动物谱系的适应轨迹和动物群落的组成。环境温度作为影响动物肠道微生物菌群变化的众多因素之一,能够影响肠道微生物菌群的组成及丰度,进而调控宿主生长、发育、繁殖、免疫等生物学过程及功能。动物肠道核心菌群的组成及其代谢产物在不同温度下存在显著差异,在单胃动物、反刍动物等中都有相应的报道。极端温度主要通过诱导肠道微生物菌群产生结构和功能上的差异,进而对宿主表型产生影响。目前,对于温度如何影响动物肠道菌群的了解仍非常有限。本文针对不同环境温度条件下,肠道微生物菌群结构和功能的差异及相关研究进行了总结及综述。探讨由环境温度引起的肠道微生物菌群与宿主适应机制之间的关系,包括对宿主产热机制、消化系统和免疫系统等其他方面的影响并开展研究,将为肠道微生物对宿主健康的调节提供参考和思路。 相似文献
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The innate immune system is essential for host defence and is responsible for early detection of potentially pathogenic microorganisms. Upon recognition of microbes by innate immune cells, such as macrophages and dendritic cells, diverse signalling pathways are activated that combine to define inflammatory responses that direct sterilisation of the threat and/or orchestrate development of the adaptive immune response. Innate immune signalling must be carefully controlled and regulation comes in part from interactions between activating and inhibiting signalling receptors. In recent years, an increasing number of pattern recognition receptors (PRRs), including C-type lectin receptors and Toll-like receptors (TLRs), has been described that participate in innate recognition of microbes, especially through the so called pathogen-associated molecular patterns (PAMPs). Recent studies demonstrate strong interactions between signalling through these receptors. Whereas useful models to study these receptors in great detail in the murine and human system are now emerging, relatively little is known regarding these receptors in companion and farm animals. In this review, current knowledge regarding these receptors in species of veterinary relevance is summarised. 相似文献
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皮肤和黏膜上皮细胞既是机体的物理屏障,又是机体防御微生物的第一道防线。上皮细胞与白细胞、树突细胞(DCs)等之间的相互作用,是机体产生适应性免疫反应的重要因素。IL-17细胞因子家族是最近新发现的具有强大的促炎症作用的细胞因子,它们在机体的固有和适应性免疫中发挥着重要作用,IL-17A、IL-17C和IL-17F能够直接作用于组织的上皮细胞,诱导各种免疫反应来对抗病原体,且能够促进组织的修复。IL-17E最基本的作用是作用于白细胞和诱导Ⅱ型免疫,这在其对抗寄生虫的作用中是非常关键的,此外,IL-17E还可以反向调节白细胞对IL-17A和IL-17F的产生;而对于IL-17B和IL-17D的研究则相对较少一些。 相似文献
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The intestinal tract is a host to 100 trillion of microbes that have co-evolved with mammals over the millennia. These commensal organisms are critical to the host survival. The roles that symbiotic microorganisms play in the digestion, absorption, and metabolism of nutrients have been clearly demonstrated. Additionally, commensals are indispensable in regulating host immunity. This is evidenced by the poorly developed gut immune system of germ-free mice, which can be corrected by transplantation of specific commensal bacteria. Recent advances in our understanding of the mechanism of host–microbial interaction have provided the basis for this interaction. This paper reviews some of these key studies, with a specific focus on the effect of the microbiome on the immune organ development, nonspecific immunity, specific immunity, and inflammation. 相似文献
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Pai CC Kuo TF Mao SJ Chuang TF Lin CS Chu RM 《Veterinary immunology and immunopathology》2011,139(2-4):187-199
Canine transmissible venereal tumor (CTVT) is a naturally occurring tumor that can be transmitted between dogs via live tumor cell inoculation. It is also a spontaneous self-regression tumor and its behavior is closely related to host immune responses. Since CTVT had been widely used for tumor models in canine cancers, whether this self-regression may overtake the immunity elicited from an exogenous tumor vaccine remains unclear and certainly worthwhile to be investigated. In this study, we used DCs/tumor hybrids as a tumor vaccine to evaluate the CTVT model. We prepared mature allogeneic dendritic cells from bone marrow and then assessed their phenotype (CD80, CD83, CD86, CD1a, CD11c, CD40 and MHC II), antigen uptake and presenting abilities. Fused dendritic cell/CTVT hybrids were then used as a vaccine, administered three times at two-week intervals via subcutaneous injection near the bilateral auxiliary and inguinal lymph nodes. In comparison with unvaccinated dogs (spontaneous regressed group), within a period of 2.5 months, the vaccinations substantially inhibited tumor progression (p<0.05) and accelerated the rate of regression by a mechanism involving amplification of the host tumor-specific adaptive immune responses and NK cytotoxicity (p<0.001). Pathologic examination revealed early massive lymphocyte infiltration resulting in final tumor necrosis. In addition, there are not any detectable effects on routine physical, body temperature or blood chemistry examinations. In conclusion, our data furnishes a reference value showing that CTVT is a model of potential use for the study of immunity elicited by vaccines against tumors, and also enable early-phase evaluation of the dendritic cell/tumor vaccine in terms of raising host immunity. 相似文献