Effect of Copper Toxicity on Lymphoid Organs in Ducklings

one-day-old Tianfu meat ducklings were divided into three groups, and fed on dietsas follows:(1)control (Cu 12.16 mg kg-1),(2) copper toxicⅠ(Cu 850 mg kg-1) and (3)copper toxicⅡ( Cu 1050 mg kg-1) for studies on effects of copper toxicity on lymphoidorgans in duckling with the methods of experimental pathology and flow cytometry (FCM).The weight and growth index of the thymus, spleen and bursa of Fabricius were markedlyreduced (P<0.05 or P<0.01) in both copper toxic groupⅠand Cu toxic group Ⅱ whencompared with control group. The G0/G1 phase of the cell cycle of the thymus, spleen andbursa of Fabricius was much higher, and S, G2+M phases lower in Cu toxic groupsⅠand Ⅱthan in the control group. There were lymphocyte degeneration and depletion of lymphoidorgans, and the reticular cells of spleen and bursa of Fabricius proliferated and thereticular cells of thymus were also degenerate and necrotic in Cu toxic groups. Theresults demonstrated that Cu toxicity seriously impaired the progression of lymphocytesfrom the G0/G1 phase to S phase, inhibited the development of lymphoid organs and causedmarked pathological injury in lymphoid organs. The results also showed that the effectof Cu toxicity on the primary lymphoid organs occurred stronger than on the secondarylymphoid organs. The effect of Cu toxicity was the greatest on the bursa of Fabricius,followed by the thymus, and then the spleen. Potential mechanisms underlying aforementionedobservation were also discussed.

Effect of Zinc Toxicity on Lymphoid Organs in Chickens

The experiment was conducted with the objective of studies on effects of zinc toxicity on lymphoid organs by the methods of experimental pathology and flow cytometry (FCM). 200 one-day-old Avian broilers were divided into four groups randomly, and fed on diets as follows: controls (Zn 100 mg kg-1)and zinc toxic (Zn 1 500 mg kg-1, zinc toxic group Ⅰ; Zn 2 000 mg kg-1, zinc toxic groupⅡ; Zn 2 500 mg kg-1, zinc toxic group Ⅲ) for seven weeks. The weight and growth index of the thymus, spleen and bursa of Fabricius were reduced in both zinc toxic groupⅡand zinc toxic group Ⅲ when compared with those of control group. The G0/G1 phase of the cell cycles of the lymphoid organs was higher, and S, G2+M phases lower in zinc toxic groups Ⅱand Ⅲ than in control group. Lymphocytes were depleted and degenerate in the lymphoid organs. The reticular cells of the bursa of Fabricius proliferated and the reticular cells of the thymus were also degenerate and necrotic, particularly in zinc toxic groups Ⅱand Ⅲ. The results demonstrated that more than 1 500 mg kg-1 impaired the progression of lymphocytes from the G0/Gl phase to S phase obviously, inhibited the development of lymphoid organs and caused marked pathological changes in the lymphoid organs. Potential mechanisms underlying these observations are also discussed.

Effect of Copper Toxicity on Lymphoid Organs in Broilers

The experiment was conducted to examine the effect of copper toxicity on lymphoid organs by experimental pathology andflow cytometry (FCM). 180 one-day-old Avian broilers were divided into three groups, and fed diets as follows: 1) Control(Cu 11.97 mg kg-1 diet), 2) Cu- toxic groupⅠ(Cu 650 mg kg-1) and 3) Cu- toxic groupⅡ(Cu 850 mg kg-1) for six weeks.Compared with the control, the growth index of the thymus, spleen and bursa of Fabricius were markedly reduced (P<0.05or P<0.01), the G0/G1 phase of cell cycles of the thymus, spleen and bursa of Fabricius was higher (P<0.05 or P<0.01), whilethe S phase and proliferating index were lower (P<0.05 or P<0.01) in both Cu-toxic group Ⅰ and Cu-toxic group Ⅱ. Theresults demonstrated that Cu toxicity seriously impaired the progression of lymphocytes from the G0/G1 phase to the Sphase, inhibited the growth and development of lymphoid organs.

Ontogeny of the Lymphoid Organs of Japanese Flounder,Paralichthys olivaceus

Histological study on the ontogeny of the lymphoid organs, kidney, thymus and spleen of Japanese flounder, Paralichthys olivaceus, from hatching to 40 d was carried out. The pronephric kidney duct appeared early in hatching although the primordial haemopoietic stem cells were observed within a week after hatching. The spleen was first seen after 8 d of hatching. The thymus appeared after 15 d, situated near the pronephric kidney. Small lymphoid cells appeared during the later phase of the post-larval stage in the sequence of thymus, kidney and spleen. During the 40 d of observations, there were no distinct inner or outer zones in thymus and no red or white pulp in spleen. These results suggest that the nonspecific defense immune system plays a very important role in the early larval stage of Japanese flounder.

Alterations of morphology of lymphoid organs and peripheral blood indicators under the influence of gold nanoparticles in rats

At present,gold nanoparticles(GNPs)are widely used in biomedical applications such as cancer diagnostics and therapy.Accordingly,the potential toxicity hazards of these nanomaterials and human safety concerns are gaining significant attention.Here,we report the effects of prolonged peroral administration of GNPs with different sizes(2,15 and 50 nm)on morphological changes in lymphoid organs and indicators of peripheral blood of laboratory animals.The experiment was conducted on 24 white mongrel male rats weighing 180–220 g,gold nanospheres sizes 2,15 and 50nm were administered orally for 15 days at a dosage of 190
g/kg of animal body weight.The GNPs were conjugated with polyethylene glycol to increase their biocompatibility and bioavailability.The size-dependent decrease of the number of neutrophils and lymphocytes was noted in the study of peripheral blood,especially pronounced after administration of GNPs with size of 50 nm.The stimulation of myelocytic germ of hematopoiesis was recorded at morphological study of the bone marrow.The signs of strengthening of the processes of differentiation and maturation of cellular elements were found in lymph nodes,which were showed as the increasing number of immunoblasts and large lymphocytes.The quantitative changes of cellular component morphology of lymphoid organs due to activation of migration,proliferation and di®erentiation of immune cells indicate the presence of immunostimulation effect of GNPs.

鱼类鼻黏膜相关淋巴组织的研究进展

鱼类黏膜相关淋巴组织是抵御病原入侵的第一道防线。其中,鱼类鼻黏膜相关淋巴组织(nasal-associated lymphoid tissue,NALT)近年来被国内外学者所关注,并被证明是嗅觉器官中抗原识别和启动黏膜免疫应答的重要场所,在细菌、病毒和寄生虫感染后可发挥快速的局部免疫响应。以NALT为靶点,对鱼类开展疫苗鼻内接种可起到良好的免疫保护效果。但目前,对NALT中复杂的免疫细胞与分子网络及其互作机制知之甚少。本文对鱼类嗅觉器官结构与功能、NALT的细胞与分子网络及免疫应答、鼻内接种的应答及免疫保护效果等方面的最新研究进展进行综述,旨在阐明鱼类NALT在黏膜局部发挥的免疫防御机制,以期为新型黏膜疫苗的设计与研发提供参考。

三级淋巴结构在器官移植排斥反应中的现状与展望

器官移植后,移植物的排斥反应是最常见的并发症之一,无论病因如何都会对移植物产生不良损害。三级淋巴结构(TLS)于病理情况下非淋巴组织内发生。针对调节移植物排斥反应的机制鉴定和表征,不仅能够促进人们对器官移植物的存活及预后的理解,而且还为治疗移植物排斥反应提供了思路。

Characterization of SHARPIN knockout Syrian hamsters developed using CRISPR/Cas9 system

Background : SHARPIN (SHANK- associated RH domain interactor) is a component ofthe linear ubiquitination complex that regulates the NF- κB signaling pathway. To betterunderstand the function of SHARPIN, we sought to establish a novel geneticallyengineered Syrian hamster with SHARPIN disruption using the CRISPR/Cas9 system.Methods : A single- guide ribonucleic acid targeting exon 1 of SHARPIN gene was designedand constructed. The zygotes generated by cytoplasmic injection of the Cas9/gRNA ribonucleoprotein were transferred into pseudopregnant hamsters. Neonatalmutants were identified by genotyping. SHARPIN protein expression was detectedusing Western blotting assay. Splenic, mesenteric lymph nodes (MLNs), and thymicweights were measured, and organ coefficients were calculated. Histopathologicalexamination of the spleen, liver, lung, small intestine, and esophagus was performedindependently by a pathologist. The expression of lymphocytic markers and cytokineswas evaluated using reverse transcriptase- quantitative polymerase chain reaction.Results : All the offspring harbored germline- transmitted SHARPIN mutations.Compared with wild- type hamsters, SHARPIN protein was undetectable in SHARPIN −/−hamsters. Spleen enlargement and splenic coefficient elevation were spotted inSHARPIN −/− hamsters, with the descent of MLNs and thymuses. Further, eosinophilinfiltration and structural alteration in spleens, livers, lungs, small intestines, and esophagiwere obvious after the deletion of SHARPIN. Notably, the expression of CD94 and CD22 was downregulated in the spleens of knockout (KO) animals. Nonetheless,the expression of CCR3, CCL11, Il4 , and Il13 was upregulated in the esophagi. Theexpression of NF- κB and phosphorylation of NF- κB and IκB protein significantly diminishedin SHARPIN −/− animals.Conclusions : A novel SHARPIN KO hamster was successfully established using theCRISPR/Cas9 system. Abnormal development of secondary lymphoid organs andeosinophil infiltration in multiple organs reveal its potential in delineating SHARPINfunction and chronic inflammation.

仿生石斛多糖对小鼠免疫器官的调节作用

该研究主要通过水提醇沉法提取林下仿生石斛多糖(bionic Dendrobium polysaccharide,BDP),探讨其对免疫抑制小鼠淋巴器官发育的免疫调节机制。利用环磷酰胺(cyclophosphamide,CTX)建立免疫抑制模型,将6周龄C57BL/6J小鼠随机分为模型组、阳性对照组(左旋咪唑组)、仿生石斛多糖组(剂量为120 mg/kg),另设健康小鼠作为空白对照组,各组小鼠灌胃相应的药物10 d,检测免疫脏器系数、观察淋巴结的组织病理学变化,酶联免疫吸附试验(enzyme linked immuno sorbent assay,ELISA)法检测血清中免疫细胞因子白介素2(interleukin-2,IL-2)和白介素6(interleukin-6,IL-6)以及免疫球蛋白G(immunoglobulin G,IgG)和免疫球蛋白M(immunoglobulin M,IgM)。结果表明,BDP可以提高免疫抑制小鼠的体重以及免疫脏器系数,改善环磷酰胺造成的肠系膜淋巴结损伤,提高血清中相关免疫球蛋白IgG和IgM的分泌,增加血清中细胞因子IL-2、IL-6的分泌,维持机体的免疫稳态。

雏鸡淋巴细胞变化规律的流式细胞仪检测研究

为进一步研究鸡在出孵1个月左右时间内T、B淋巴细胞及其亚群的发育状况,将SPF雏鸡分别在3、5、7、9、11、14、17、22、27、32日龄时取血液、脾脏、法氏囊及胸腺,分离并制成淋巴细胞悬液,流式细胞仪双染色法检测Bu-1a+B淋巴细胞、CD3+、CD4+、CD8+和TCRγδ+CD3+T淋巴细胞含量及血液淋巴细胞的凋亡规律.结果:在出孵1个月内T、B细胞处于分化发育阶段的初期,除胸腺外,呈上升趋势,但T细胞亚群的变化无规律,B细胞在法氏囊中和T细胞在脾脏中3～9日龄发育最快;血液淋巴细胞凋亡趋于下降,尤其是在9日龄以后.此间不断有成熟的淋巴细胞产生,不断进入血液和脾脏,使其数量有上升趋势.但是,血液中第7日龄时Bu-1a+B淋巴细胞和CD3+、CD4+、CD8+T淋巴细胞数量均最低,说明体液免疫和细胞免疫水平第7日龄时都最低,并在17日龄时进入水平较高的又一个低谷.TCRγδ+CD3+T细胞则变化幅度不大.

草鱼淋巴器官中的肥大细胞

通过组织化学与形态学研究首次在草鱼的胸腺和头肾等淋巴器官中证实了肥大细胞的存在。草鱼肥大细胞的染色性质在某些方面似乎类似于哺乳动物的粘膜肥大细胞。Carnoy氏液及阿尔新蓝分别是优良的固定剂及染料,而中性缓冲甲醛却完全阻断草鱼肥大细胞的着染。值得注意的是一些曾被用于鉴定硬骨鱼肥大细胞(或嗜酸性颗粒细胞)的组织化学技术在本研究中未能检出草鱼肥大细胞。电镜下证实,草鱼肥大细胞中含有大量特征性的胞浆颗粒,其中充满无定形颗粒状基质,基质电子密度有的较高,有的较低,但未见特殊的亚微结构。

β-葡聚糖对肉仔鸡生产性能及免疫功能的影响

选用1日龄AA肉仔鸡480只(公雏),随机分为5个处理组。每个处理6个重复,对照组饲喂基础日粮,抗生素组饲喂基础日粮+林可霉素,三个β-葡聚糖组,在基础日粮中分别添加25、50、100mg/kgβ-葡聚糖,以研究添加β-葡聚糖对肉鸡生产性能、免疫器官、细胞和体液免疫、血清中溶菌酶含量以及盲肠内乳酸杆菌的影响。结果显示:肉仔鸡日粮中添加50mg/kgβ-葡聚糖,显著提高0～49日龄日增重和饲料转化效率(P<0.05);显著提高21日龄脾脏的相对重量(P<0.05);添加β-葡聚糖有提高非特异性免疫力的趋势。

雏鸵鸟中枢淋巴器官的形态学观察

采用H.E和甲苯胺染色,对育雏期鸵鸟胸腺和腔上囊的解剖结构、组织学特点及肥大细胞在中枢淋巴器官的分布进行了观察,并用图像分析系统对肥大细胞的数量及形态特征进行了分析。结果显示:雏鸵鸟胸腺分叶少,仅分布在颈部后段两侧,且聚集在一起,髓质内有典型的Hassall小体;胸腺内肥大细胞分布较广,其中髓质和皮-髓交界处数量最多。腔上囊前部形成盲端,覆盖于泄殖道和粪道后段背侧,后部构成肛道背外侧壁,不形成真正的囊,其内表面皱褶上有密集分布的乳头;腔上囊小结单个分布并凸出于黏膜上皮;黏膜上皮为复层柱状上皮,移行至腔上囊小结处变为单层柱状上皮;腔上囊内肥大细胞主要分布在黏膜上皮。以上结果表明,雏鸵鸟中枢淋巴器官与其他禽类的同类淋巴器官存在明显的差异,且中枢淋巴器官内肥大细胞数量较多,不同器官或同一器官不同部位肥大细胞的形态、大小和颗粒染色深浅均有所不同。

中国对虾淋巴器官的显微和超微结构研究

用光镜和电子显微镜对中国对虾淋巴器官的显微结构和超微结构研究表明，淋巴器官位于虾体胃两侧，呈管状。光学显微镜下，淋巴器官由许多封闭的盲管构成，盲管腔主要是内皮细胞和基质细胞，胞间隙充满大量血细胞；电子显微镜下，内皮细胞非核部分有伸向盲腔的突起，基质细胞中的高尔基体和内质网数量多、结构简单，血细胞大多为颗粒细胞。

次级淋巴组织趋化因子基因转染对小鼠黑色素瘤细胞生物学特性的影响

目的研究次级淋巴组织趋化因子(SLC)基因转染对小鼠恶性黑色素瘤细胞生物学特性的影响。方法采用脂质体法将小鼠SLC基因转染至小鼠恶性黑色素瘤细胞中,并通过G418筛选出转基因细胞克隆。体外检测SLC基因转染恶性黑色素瘤细胞的增殖,并通过趋化小室法检测细胞培养基上清液中SLC的趋化活性。检测野生型和基因转染的恶性黑色素瘤细胞在体内的致瘤性,并病理检测肿瘤组织中免疫细胞的浸润。结果SLC基因转染的恶性黑色素瘤细胞和野生型恶性黑色素瘤细胞在体外的增殖没有明显差别。分泌于细胞培养基上清液中的SLC表现出了趋化活性。SLC基因转染并没有降低细胞的致瘤性,但是移植瘤的生长明显慢于野生型恶性黑色素瘤细胞移植瘤的生长,并且病理证实SLC基因转染的肿瘤细胞移植瘤内呈现明显的淋巴细胞浸润。结论SLC基因转染在小鼠黑色素瘤能诱导抗肿瘤免疫,有可能被应用于恶性肿瘤的免疫治疗。

鸡中枢淋巴器官肥大细胞的组织化学与形态学(英文)

对哺乳动物的 ,特别是啮齿动物和人类肥大细胞已有了比较深入的研究 ,但关于家禽肥大细胞的研究很少。本研究旨在阐明鸡中枢淋巴器官中肥大细胞的组织化学与形态学特征。本研究证实 Carnoy氏液是鸡肥大细胞的优良的固定液 ,而中性缓冲福尔马林 (NBF)却阻断了大多数肥大细胞的着染力。甲苯胺蓝和阿尔新蓝是鸡肥大细胞的良好的染料 ,但阿尔新蓝能使更多的肥大细胞着染 ,虽然其也可使杯状细胞着染。作者的一种新的染色法 ,长时间阿尔新蓝染色 (L AB- S)可用于 NBF固定的组织中肥大细胞的染色 ,因为其着染的细胞数与 Carnoy氏液固定甲苯胺蓝染色的细胞数无显著差异 (P<0 .0 0 1)。在胸腺髓质中见有大量的肥大细胞 ,而胸腺皮质仅可见个别肥大细胞位于血管周围及小叶间结缔组织中。腔上囊的皮质与髓质中很少见有肥大细胞。肥大细胞有血管周围分布的倾向 ,但一个有趣的发现是血管内偶尔也有个别肥大细胞。电镜下可见肥大细胞的胞浆颗粒内充满无定形的颗粒状基质 ,但其电子密度有的较高 ,有的较低。少数胞浆颗粒内有旋涡状及网状亚微结构。但未见有人类肥大细胞胞浆颗粒内特征性的晶格状和卷轴状的亚微结构 。

斜带石斑鱼淋巴器官个体发育的组织学

本文应用连续组织切片技术和组织学观察 ,对出膜后 1～ 6 0天的斜带石斑鱼 (Epinepheluscoioides)各期仔鱼、稚鱼和幼鱼的淋巴器官组织进行了研究 ,描述了淋巴器官的个体发育过程和组织学结构特征。研究表明 :实验水温为 2 2 0～ 2 7 8℃时 ,孵化后第 10天出现头肾原基。头肾原基由未分化的造血干细胞组成。随着鱼体的生长 ,头肾原基的造血干细胞很快分化成不同类型的细胞 ;头肾主要由网状内皮系统支持下的淋巴造血组织构成。第 11天出现脾脏原基。脾脏原基由造血细胞组成 ,淋巴化速度相对较慢。脾脏在整个发育过程中 ,红细胞和类红细胞占优势 ,没有红髓和白髓之分。第 13天出现胸腺原基。胸腺发育速度较快 ,是明显的淋巴器官。胸腺主要由胸腺细胞 (淋巴细胞 )和上皮细胞组成 ,外区和内区没有明显的界限 ,但很容易区分。胸腺外被单层的上皮细胞层与咽腔相隔 ,保持浅表的位置 ,并且在整个发育过程中 ,胸腺与头肾是独立分开的。免疫器官原基出现顺序是头肾、脾脏和胸腺 ;而免疫器官淋巴化的顺序是胸腺 ,头肾和脾脏。和其它硬骨鱼类一样 ,斜带石斑鱼在早期发育阶段 ,淋巴器官的发育较迟 。

军曹鱼淋巴器官发育的形态学研究

运用组织学及组织化学的染色方法,对出膜后第1～44天(Days post-hatch,dph)的军曹鱼Rachycentron canadum头肾、脾脏和胸腺发育过程进行研究。首先观察到前肾管,3 d后,在肾管附近发现原始的造血干细胞,逐渐有红细胞和大淋巴细胞产生。之后,脾脏出现,其内毛细血管和红细胞丰富,还分布少量巨噬细胞。胸腺虽然是最后出现的淋巴器官,但是发育的非常快,内外分区明显。可以得出其淋巴器官出现顺序是头肾、脾脏和胸腺。在小淋巴细胞出现前,发现各淋巴器官内存在一些与非特异免疫机制相关的细胞,如巨噬细胞和网状细胞等。淋巴器官原基出现后开始淋巴化,其顺序是胸腺、头肾和脾脏。在采样的时间段里未观察到浆细胞,可能军曹鱼淋巴器官至此仍未发育成熟。

中国对虾类淋巴器结构观察及功能探讨

中国对虾类淋巴器位于肝胰腺前方，左右各一个，呈白色，半透明状。它由触角动脉上分出的动脉血管不断分叉、迂曲，形成了一个外包透明结缔组织膜，内部充满小管的组织结构。类淋巴器的小管依其发育时期和功能不同表现为３种不同的形态。其中，第二种小管管壁具有生成和释放血细胞的功能。在类淋巴器中，观察到小颗粒细胞，大颗粒细胞和无颗粒细胞。小颗粒细胞具有吞噬功能，在受到抗原刺激时可以胞吐方式释放细胞中的电子致密颗粒。大颗粒细胞无吞噬功能。无颗粒细胞又可分为巨噬细胞样无颗粒细胞和淋巴细胞样无颗粒细胞。前者具有很强的吞噬能力，而后者在受到抗原刺激时，可表现出类似浆细胞样分化的细胞特征。

副猪嗜血杆菌血清5型岳阳株对昆明小鼠淋巴器官损伤的研究

为探讨副猪嗜血杆菌(HPS)对免疫器官的损伤,本实验将HPS血清5型岳阳株及其菌体裂解物分别接种昆明小鼠,结果显示:HPS血清5型岳阳株及其菌体裂解物,均能够引起昆明小鼠颈淋巴结细胞凋亡和坏死。组织病理学检测可见脾脏红髓扩张、白髓萎缩、淋巴细胞衰减;胸腺病变较轻,皮质部局灶性淋巴细胞坏死和散在性细胞凋亡。此外,免疫器官损伤与剂量相关,随菌量的增大病变更为明显。HPS血清5型岳阳株及其菌体裂解物对昆明小鼠淋巴器官有明显的损伤作用。