共查询到19条相似文献,搜索用时 490 毫秒
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正上接2018年8期三、我国水产疫苗在水产养殖病害防治中的应用前景首先需要说明的是,鱼类具有较健全的免疫器官和组织,也具有一系列的免疫细胞,这些都是对鱼类实施免疫预防各种疾病的基础。鱼类免疫器官和组织主要有胸腺、肾脏和黏膜淋巴组织等,这些是鱼类最主要的免疫器官和组织;其次还有参与免疫应答或与免疫应答有关的,统称为免疫细胞。鱼类的免疫细胞还可分为两大类,即淋巴细胞和吞噬细胞。 相似文献
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鳃为鱼类重要的呼吸器官,是鱼类进行离子交换、酸碱调节和含氮废物排泄的重要结构基础,也是鱼类重要的外周黏膜免疫器官之一,在抵御病原微生物侵染过程中发挥重要的免疫屏障作用。当前,硬骨鱼类鳃黏膜免疫反应是研究热点之一。本文首先对硬骨鱼类鳃的结构和特点进行分析,之后综述了抗菌肽、干扰素、白细胞介素、Toll样受体、补体等先天性免疫相关分子以及T细胞受体和免疫球蛋白等适应性免疫相关分子在硬骨鱼类鳃黏膜中的表达规律、分子功能,最后探讨了化学因素(重金属、杀虫剂等)、生物因素(细菌、病毒、真菌、和寄生虫等)以及营养物质和疫苗等对硬骨鱼类鳃黏膜结构的影响,以期为深入研究鳃在鱼类黏膜免疫反应中的角色和应答机制提供指导,为硬骨鱼类病原性疾病的免疫防控策略的制定提供理论基础。 相似文献
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鱼类免疫应答机制研究进展 总被引:1,自引:0,他引:1
鱼类免疫应答可以分为固有免疫和适应性免疫,但固有免疫发挥主要作用。固有免疫对病原体的识别是通过模式识别受体PRR与病原相关分子模式PAMP的相互结合实现,这与哺乳类相似。但为适应水生生活,鱼类固有免疫对PAMP的识别范围更广,免疫应答的启动条件更低。固有免疫的效应细胞主要是单核/巨噬细胞、嗜中性粒细胞、自然杀伤细胞等,具有吞噬和杀伤功能,还可分泌多种免疫相关的细胞因子,介导发生炎症反应。适应性免疫中,T淋巴细胞通过抗原提呈细胞分解吸收抗原,由主要组织相容性复合物(MHC)类分子递送到细胞表面才能识别。B淋巴细胞分泌产生以免疫球蛋白Ig M为主的抗体分子,而发挥抗体中和作用及免疫调理作用的Ig G在鱼类中比较少见,说明鱼类抗体的免疫功能还处于较低水平。本文综述了近二十年内鱼类免疫应答机制的相关研究进展,为进一步了解鱼类免疫应答机制提供参考。 相似文献
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为探明鱼类黏膜相关淋巴组织中黏液细胞对疫苗免疫的应答特性,本研究利用组织学和组织化学技术,研究了浸泡免疫灭活迟钝爱德华氏菌前后牙鲆皮肤、鳃、前肠、中肠和后肠中黏液细胞数量和特性的时序变化。苏木精-曙红(HE)、阿尔新蓝-过碘酸雪夫氏(AB-PAS)染色结果显示,免疫前皮肤主要分布含中性黏多糖的Ⅰ型黏液细胞以及含中性黏多糖和少量酸性黏多糖的Ⅲ型黏液细胞,鳃中可观察到Ⅰ、Ⅲ型以及含酸性黏多糖和少量中性黏多糖的Ⅳ型黏液细胞,前肠中主要分布Ⅰ型黏液细胞,中肠、后肠上皮中可观察到Ⅰ、Ⅲ、Ⅳ型和含酸性黏多糖的Ⅱ型黏液细胞。免疫后,牙鲆黏膜免疫相关淋巴组织中黏液细胞总量随时间呈现先增多后减少趋势,后肠在第5天达到峰值,其他于第3天达到峰值;免疫后各组织中Ⅰ型黏液细胞数量减少,含酸性黏多糖成分的Ⅱ、Ⅲ及Ⅳ型黏液细胞数量显著增多,表明疫苗免疫诱导黏液细胞成分由中性黏多糖向酸性黏多糖转变。p H 2.5和p H 1.0条件下AB染色结果显示,免疫后黏膜相关淋巴组织中酸性黏液细胞数量增多,且多数为硫酸化酸性黏液细胞。本研究结果为鱼类黏液的免疫防御功能及黏液细胞在鱼类黏膜免疫中的作用提供了理论依据。 相似文献
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影响鱼类免疫应答的因子有自身的(如年龄与健康状况)、外界的(如环境)以及与接种技术有关的(如接种途径、抗原剂量、佐剂)等,这些因素对于接种疫苗的效果有重要影响。一般养殖场通常难以具备有效接种疫苗的最适条件,但在养殖场进行鱼类免疫接种对提高抗病力有积极作用。为使养殖者取得较好的免疫接种效果,本文综述了影响免疫力形成的有关因子。 相似文献
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鱼类虽然是低等的脊椎动物,但它们仍有较为完善的免疫系统,当机体受到病原生物刺激后,能够产生特异免疫应答,抵御病原入侵。因而可以通过研制、接种疫苗,刺激鱼类免疫系统,获得免疫保护,预防疾病的发生。 相似文献
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采用组织学和电镜技术,应用HE常规染色方法、AB-PAS黏液细胞染色方法、免疫组织化学方法,对鳜(Siniperca chuats)黏膜淋巴组织的基本结构以及免疫相关细胞的形态、类型及其在黏膜淋巴组织中的分布情况进行了研究.结果表明,鳜的鳃弓、鳃小片基部、皮肤的表皮以及肠上皮中存在大量的黏液细胞,用AB-PAS染色方法将鳜黏液细胞分为6种类型;免疫组化方法可在鳃的血窦腔、皮肤的基底层以及肠黏膜层中检测到抗体分泌细胞的存在;透射电镜观察显示,黏膜淋巴组织中存在着黏液细胞、淋巴细胞、浆细胞、吞噬细胞、肥大细胞、朗罕氏细胞、嗜中性粒细胞等免疫相关细胞.结论认为,鳜黏膜淋巴组织具有完成免疫应答的细胞基础. 相似文献
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<正>上接2018年12期九、水产用疫苗的使用方法渔用疫苗是通过接种对象体内产生免疫应答达到预防疾病效果的,因而,有可能因接种对象自身不够健康而不能达到预期的免疫效果。因此,要使渔用疫苗最大限度地发挥效果,平时合理的饲养管理和卫生管理是重 相似文献
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鱼类粘膜免疫研究进展 总被引:7,自引:1,他引:7
Fish immunology has achieved great progress in recent years. While before 1990s, most researches focused on the fish systematic immunity, and the mucosal immunity of fish had not been given enough attention. Indeed, it has been shown that fish mucosal immunity plays an important role in disease defense. Fish mucosal immunity research has made some exciting progress in this decade. This review will focus on such progress: Constitution of mucosal-associated tissues and distribution of different immune cells, including T/B lymphocytes, granules, monocytes, macrophages, goblet cells, etc, in these sites have been well described with the development of some monoclonal antibody to these cells and associated techniques. Non-specific immune response mechanism of mucosal tissues reported these years, such as secretion of non-specific anti-bacteria and anti-fungi substances in mucus, the respiratory burst, enzyme activity of immune cells and so on, is believed important for fish disease defense. The specific immunity of mucosal tissues also attracts much interest and makes great achievement in antigen presenting, MHC genes, antibody producing and antibody secreting cells, comparison of serum and mucus immunoglobulin, relationships of immune response between different mucosal immune tissues. Whether mucosal immune system is independent of systematic immune system is another interesting question and causes great concern. In recent years, some evidences from phyletic evolution and ontogenesis show that mucosal immunity is prior to systematic immunity in evolution. Dynamics of antibody producing of mucosal tissues and serum in immersion or oral vaccines immunized fish also shows immune response can be elicited in mucosal tissues independent of systematic immune system. Some researchers also begin to pay attention to factors involved in mucosal immune regulations, for instance, neuromodulators and cytokines. The level of these factors changes in fish immune response process but the mechanisms of regulation still remain unknown. Prospect of the promising future of fish mucosal immunity has also been discussed in this review. 相似文献
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应用抗牙鲆免疫球蛋白单克隆抗体(2D8、1H1)对牙鲆外周血系统、肾、脾、肝、胰、肠道组织中抗体阳性细胞进行了定位观察,并对其组织学特征进行了描述。两株单抗均能在外周血滴片和组织切片中成功地检测到抗体阳性细胞。外周血系统中的抗体阳性细胞主要为淋巴细胞,没有发现抗体阳性的巨噬细胞;牙鲆头肾中没有肾单位,肾小管、肾小球等主要存在于后肾中,脾脏和肾脏都含有巨噬细胞、粒细胞、淋巴细胞等免疫相关细胞,抗体阳性细胞存在方式也极为相似,成簇或单独分布于黑色素巨噬细胞中心和血管周围;牙鲆的胰组织镶嵌在肝上,形成肝胰脏,也参与免疫应答,抗体阳性细胞单个存在,分布于肝组织中,胰组织中没有发现抗体阳性细胞;肠道抗体阳性细胞主要存在于固有层中,有成簇存在现象,在上皮层也可见到单个存在的抗体阳性细胞。 相似文献
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Roghieh Safari Seyed Hossein Hoseinifar Morteza Kavandi 《Fish physiology and biochemistry》2016,42(6):1733-1739
The present study explores the effect of dietary sodium propionate on mucosal immune response and expression of antioxidant enzyme genes in zebra fish (Danio rerio). Six hundred healthy zebra fish (0.42 ± 0.06 g) supplied, randomly stocked in 12 aquariums and fed on basal diets supplemented with different levels of sodium propionate [0 (control), 5, 10 and 20 g kg?1] for 8 weeks. At the end of the feeding trial, mucosal immune parameters (TNF-α, IL-1β, Lyz), antioxidant enzyme (SOD, CAT) as well as heat shock protein 70 (HSP70) gene expression were measured. The results revealed feeding on sodium propionate significantly up-regulated inflammatory response genes (TNF-α, IL-1β, Lyz) in a dose-dependent manner (P < 0.05). However, antioxidant enzyme genes significantly down-regulated in the treated group compared with control (P < 0.05). Also, HSP70 gene expression was higher in the liver of fish fed the basal diet and deceased with elevation of sodium propionate levels in the diet. These results showed beneficial effects of dietary sodium propionate on mucosal immune response as well as the antioxidant defense of zebra fish. 相似文献
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The ability of rainbow trout, Oncorhynchus mykiss (RBT), to produce a localized mucosal immune response was investigated following intraperitoneal (i.p.) or peranal (p.a.) immunization with a protein-hapten carrier, fluorescein isothiocyanate conjugated to keyhole limpet haemocyanin (FITC/KLH). Antibody levels in serum, mucus, tissue culture supernatant from blood and spleen leucocytes, and excised skin, intestine and gill tissues were determined by ELISA. Significantly, elevated antigen-specific antibodies were elicited in both serum and mucus of fish immunized i.p. Mucosal antibody responses, in general, paralleled serum responses over time. Leucocytes isolated from spleen and blood of i.p. immunized fish at week 10 produced significantly elevated antibody levels against FITC when cultured in vitro. Excised skin, intestine and gill tissues from these fish also exhibited significantly elevated antibody responses indicating localized production in the mucosa from tissue-specific B cells. A localized mucosal immune response was elicited only after i.p. and not p.a. immunization, suggesting that systemically stimulated B cells migrate to mucosal tissues where they produce antibodies locally. 相似文献
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The innate immune system of fish is considered to be the first line of defence against a broad spectrum of pathogens and is more important for fish as compared with mammals. Lysozyme level or activity is an important index of innate immunity of fish and is ubiquitous in its distribution among living organisms. It is well documented that fish lysozyme possess lytic activity against both Gram‐positive bacteria and Gram‐negative bacteria. It is also known to be opsonic in nature and activates the complement system and phagocytes. It is present in mucus, lymphoid tissue, plasma and other body fluids of freshwater and marine fish. It is also expressed in a wide variety of tissues. Lysozyme activity has been shown to vary depending on the sex, age and size, season, water temperature, pH, toxicants, infections and degree of stressors. Here, we review our current understanding of different types of lysozyme and their expression and its role in fish innate immune system. 相似文献
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弗氏柠檬酸杆菌感染诱导斑马鱼皮肤免疫相关基因的差异表达 总被引:2,自引:1,他引:1
从草鱼肠道中分离到1株细菌,通过形态学观察、生理生化特征和16S rDNA序列分析等鉴定为弗氏柠檬酸杆菌,动物试验结果表明,该菌对斑马鱼有致病性;从感染诱导的斑马鱼皮肤组织中提取总RNA,经Biotin荧光标记与拥有15 617个cDNA片段的斑马鱼基因芯片(affymetrix)杂交筛选分析,获得斑马鱼皮肤免疫相关差异表达基因88个,其中有74个上调表达基因和14个下调表达基因;进一步根据基因功能聚类(GO)分析,初步将88个差异表达基因分为8个生物学功能,其中主要参与补体激活、急性期反应、应激防御反应、细胞凋亡、抗原加工提呈、细胞迁移粘附、凝血因子和血小板激活等免疫应答过程;同时进行信号通路(pathway)分析,结果表明MAPK(hsp70、daxx、nfkbiab)、JAK/STAT(ifn1)和TGF-β(thbs1)等信号通路参与斑马鱼皮肤抗弗氏柠檬酸杆菌感染免疫应答。采用基因芯片方法筛选与鱼类皮肤免疫相关的功能基因,为将来以斑马鱼为模型研究鱼类皮肤局部免疫应答的分子机制提供科学依据。 相似文献
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Opioid peptide β-endorphin (β-EP) plays a modulatory role in vertebrate reproduction. However, the role of opioid peptides in reproductive stress response is least understood in fishes. The aim of the present study was to determine the effect of different doses of β-EP on luteinizing hormone (LH) secretion in normal and the opioid receptor antagonist naltrexone (NALT) in stressed female tilapia Oreochromis mossambicus. Administration of 4 μg β-EP, but not 0.5 or 1.5 μg β-EP, daily for 22 days caused suppression of LH-secreting cells at the proximal pars distalis of the pituitary gland, concomitant with a significant reduction in the mean GSI and HSI in 4 μg β-EP-treated fish compared to controls. On the other hand, exposure of the fish to mild acute stressors for 22 days caused changes in the LH-secreting cells similar to that of high dose of β-EP, whereas administration of NALT attenuated these effects. Taken together, the results indicate that increased concentration of β-EP as may occur during stressful conditions can cause suppression of LH secretion, leading to the inhibition of spawning, and that treatment of NALT attenuates the stress-induced inhibition of LH secretion in fish. 相似文献
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先天免疫是宿主识别病原及消除病原感染的第一道防线。模式识别受体是参与识别病原入侵的主要分子,主要包括Toll样受体、RIG-I样受体、NOD样受体和C型凝集素受体等。模式识别受体在识别病原相关分子模式后,激活机体的先天免疫信号通路,诱导炎症细胞因子和干扰素的产生,从而启动抵抗病原入侵的免疫应答。越来越多的证据表明,免疫应答的激活、维持和终止受到了严格的调节,使机体在保持一定免疫强度的同时避免产生过度的免疫反应。microRNA是一类长度为18~23 nt的微小非编码RNA,是鱼类先天免疫应答网络中的重要调控因子。近年来,microRNA在鱼类免疫学领域已开展了大量的研究,但缺乏对其进行及时地全面性的总结。本文综述了近年来miRNA在鱼类先天免疫反应中的研究进展,以期为鱼类的分子抗病育种及疾病防控研究提供一些思路。 相似文献
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Jun-Jin Deng Shun Xu Yan-Wei Li Dong-Dong Xu Ze-Quan Mo Jia-Zhou Li Xue-Ming Dan Xiao-Chun Luo 《Journal of fish diseases》2020,43(12):1541-1552
Cryptocaryon irritans, a pathogen model for fish mucosal immunity, causes skin mucosal and systematic humoral immune response. Where and how MHC II antigen presentation occurs in fish infected with C. irritans remain unknown. In this study, the full-length cDNA of the grouper cysteine protease CTSS was cloned. The expression distributions of six genes (CTSB, CTSL, CTSS, GILT, MHC IIA and MHC IIB) involved in MHC II antigen presentation pathway were tested. These genes were highly expressed in systematic immune tissues and skin and gill mucosal-associated immune tissues. All six genes were upregulated in skin at most time points. Five genes expected CTSS was upregulated in spleen at most time points. CTSB, CTSL and MHC IIA were upregulated in the gill and head kidney at some time points. These results indicate that the presentation of MHC II antigen intensively occurred in local infected skin and gill. Spleen, not head kidney, had the most extensive systematic antigen presentation. In skin, six genes most likely peaked at day 2, earlier than in spleen (5–7 days), marking an earlier skin antibody peak than any recorded in serum previously. This significant and earlier mucosal antigen presentation indicates that specific immune response occurs in local mucosal tissues. 相似文献