伊蚊C型凝集素mosGCTL-2是登革病毒感染相关的重要蛋白质（英文）

C型凝集素是一类含有糖结合结构域的蛋白质,从节肢动物到哺乳动物的C型凝集素都具有共同的基序,它在进化上相当保守,在免疫反应中发挥重要作用.埃及伊蚊表达30多种C型凝集素蛋白,它是登革病毒的关键传播媒介,这些蛋白质对病毒和细菌感染均有至关重要的作用.最近研究表明,C型凝集素mosGCTL-3与二型登革热病毒包膜蛋白具有相互作用,能够增强登革病毒对埃及伊蚊的感染.在本文中,我们发现了C型凝集素蛋白mosGCTL-2具有与mosGCTL-3类似的功能.两种C型凝集素mosGCTL-2和mosGCTL-3的氨基酸残基序列一致性高达43.56%.为研究mosGCTL-2在登革病毒蚊媒传播中的作用,我们通过果蝇S2细胞表达系统表达纯化了mosGCTL-2蛋白.结果表明,mosGCTL-2与二型登革热病毒包膜蛋白的结合具有钙离子依赖性.进一步的研究表明,埃及伊蚊感染登革病毒能够诱导mosGCTL2表达上调,是二型登革热病毒感染埃及伊蚊所必需的蛋白质.以上研究说明,mosGCTL-2蛋白可能是在登革热病毒感染埃及伊蚊中起重要作用的一种模式识别受体.     

C型凝集素

C型凝集素（C-type lectin）代表一个识别碳水化合物配体依赖于钙离子（Ca2＋）参与的糖原结合蛋白家族,含有一个或多个一级结构和二级结构同源的碳水化合物识别结构域。随着研究的深入,越来越多的C型凝集素能够识别体内的非糖类的配体,包括蛋白质和脂类等。这些C型凝集素在维持机体稳态、免疫防御以及免疫监视等重要生理病理过程中发挥着重要作用。就C型凝集素的结构、分类和在免疫系统中的功能作一介绍。     

从贵州白纹伊蚊体内分离到一株2型登革病毒

从贵州省独山县麻尾镇白纹伊蚊标本中分离到一株病毒,用抗DEN 14型单克隆抗体经间接免疫荧光法和RTPCR产物酶切分型鉴定为DEN2,并对其 NS1和E基因RTPCR产物进行部分基因序列测定,与DEN2 NGC株比较,麻尾株的NS1基因区有7个碱基发生点突变,E基因区有1个碱基的插入,两个序列被GenBank收录,编号分别为AY277402、AY278226;麻尾分离株与其他9株DEN2型病毒进行系统发育关系的分析,结果显示与D243株系统进化关系最近;证明贵州省存在DEN感染的自然循环。     

埃及伊蚊对登革Ⅱ型病毒感染Balb/C实验小鼠的增强

以Balb/C小鼠为实验动物,探讨了埃及伊蚊Aedes aegypti唾液对登革病毒感染宿主的影响。结果显示,在皮下接种剂量相同的情况下,如果Balb/C实验小鼠预先被一定数量的埃及伊蚊叮咬以后,实验小鼠感染病毒的程度有所提高,血清中的抗体滴度明显降低,腹腔巨噬细胞感染登革病毒的阳性率及感染的时间动态曲线也有明显差异,感染高峰期延迟。这些说明实验小鼠被媒介蚊虫叮咬以后变得相对容易被登革病毒感染,可能是媒介蚊虫叮咬小鼠时分泌的唾液对宿主的免疫反应系统有一定作用。因此可以初步肯定埃及伊蚊在登革病毒的感染传播过程中,影响了Balb/C实验小鼠的免疫功能,对登革病毒的感染有一定推动作用。     

一种新型的C型凝集素

美国、荷兰、英国科学家新近鉴定了一种新型的Ｃ型凝集素———树突细胞特异性、胞间粘附分子 (ＩＣＡＭ)可获取的非整联蛋白 (ＤＣ ｓｐｅｃｉｆｉｃＩＣＡＭ ｇｒａｂｂｉｎｇｎｏｎｉｎｔｅｒｇｒｉｎ) ,简称ＤＣ ＳＩＧＮ(ＣＤ2 0 9) ,它在免疫调节及免疫缺陷病毒致病过程中的作用日益受到重视。1 .ＤＣ ＳＩＧＮ的结构[1～ 3]ＤＣ ＳＩＧＮ是一种Ｃ型凝集素 ,为 40 4个氨基酸的Ⅱ型跨膜蛋白 ,分子量为 45775,Ｎ末端 40个氨基酸位于细胞质 ,跨膜结构域(ＴＭ)为 2 1个氨基酸 (Ｇｌｙ40 ～Ｓｅｒ6 1位个氨基酸残基 ) ,Ｃ末端 3 4 2个氨基…     

白纹伊蚊感染登革Ⅱ型病毒后的屏障

以高、低两种浓度病毒液分别经胸接种和经口感染海南株白纹伊蚊Aedes albopictus后,经不同时间内对蚊虫中肠、脑、神经节和涎腺进行IFA染色检查.比较各器官感染率后可知该蚊存在中肠感染屏障(mesenteronal infection barrier MIB)、中肠释放屏障(mesenteronal escape barrier,MEB)和涎腺感染屏障(salivary gland infection barrier,SGIB)并且各屏障率分别与时间及剂量呈负相关.     

C型凝集素受体与抗真菌免疫

Toll样受体(TLR)的发现为研究病原生物的识别和免疫应答的起始开辟了新的视角,然而近期研究发现"非-TLR"受体在该过程尤其在抗真菌免疫中亦起着重要作用.其中研究甚为活跃的是C型凝集素受体(CLR)家族的一些成员,包括甘露糖受体、DC-SIGN、Dectin-1、Dectin-2及胶原凝集素.本文对这些受体在真菌识别、摄取、杀伤及其在宿主免疫反应的诱导和调节中所发挥的作用予以综述.     

C型凝集素LSECtin识别细菌的研究

目的:通过sLSECtin-Fc蛋白与细菌及细胞的黏附,寻找能与LSECtin结合的细菌。方法:通过ELISA检测sLSECtin-Fc与细菌的黏附,同时构建CHO-pDsRed1-N1-LSECtin稳定细胞株进行与细菌的黏附实验,荧光显微镜进行镜鉴拍照。结果:获得能够与sLSECtin-Fc蛋白黏附的细菌,并且通过过表达LSECtin的稳定株与细菌的黏附,发现LSECtin可以结合大肠杆菌和肺炎链球菌,而不能结合金黄色葡萄球菌和肺炎克雷伯杆菌。结论:发现LSECtin可以结合细菌,为进一步研究LSECtin在先天免疫中的作用奠定了基础。     

哺乳类C型凝集素超级家族

C型凝集素超级家族根据其糖识别域(CRD)的一级结构分为蛋白聚糖、Ⅱ型跨膜受体、胶原凝素、选凝素、自然杀伤细胞受体及多CRDⅠ型跨膜受体等6个家族. 每一家族的成员具有同源的氨基酸序列、相同的总体分子结构及类似的生物学功能.从CRD的一级结构至三级结构水平确定了C型凝集素选择性糖识别的分子基础.     

酵母多糖影响人朗格汉斯细胞C型凝集素受体的研究

探究酵母多糖（Zymosan）对人朗格汉斯细胞（Langerhans cells, LCs）C型凝集素受体（C-type lectin receptors, CLRs）的影响。收集健康志愿者血液样本,Ficoll淋巴细胞分离液分离外周血单个核细胞,CD14磁珠分选CD14⁺细胞,用含有GM-CSF（1 000 U/mL）、IL-4（1 000 U/mL）、TGFβ-1（10 ng/mL）的培养液诱导培养LCs, Zymosan刺激LCs,8、24 h后收集细胞。提取Zymosan实验组和对照组细胞RNA,实时RT PCR分析5种CLRs（Dectin-1、Dectin-2、DC-SIGN、Mincle、MRC-2） mRNA的水平,扩增产物测序鉴定。共检测10个个体来源LCs在酵母多糖刺激后其CLRs mRNA变化的情况。在10组样本中,有6组Dectin 2受体mRNA较对照组增加（变化倍数≥2）,其中3组增加明显（变化倍数≥5）,最大增加倍数为20.91;有5组Mincle受体mRNA较对照组增加（变化倍数≥2）,其中4组增加明显（变化倍数≥5）,最大增加倍数为19.98;有1组MRC-2受体mRNA较对照组明显增加（变化倍数≥5）。Dectin-1和DC-SIGN受体mRNA没有增加。Zymosan能增加部分个体来源LCs内Dectin-2、Mincle和MRC-2受体mRNA的水平,而对Dectin-1和DC-SIGN受体mRNA的水平没有影响。本研究结果完善了Zymosan调节机体免疫功能的作用机制。     

Genetic Variation Along Time in a Brazilian Population of <Emphasis Type="Italic">Aedes Aegypti</Emphasis> (Diptera: Culicidae), Detected by Changes in the Esterase Patterns

Aedes aegypti from the Brazilian cities of São José do Rio Preto (SJ) and Goiânia (GO) were analyzed as to their esterase patterns and the results were compared with data obtained about 5 years before for SJ population. Esterase bands not detected in the previous study were now observed in mosquitoes from both SJ and GO populations, being the last considered a population resistant to insecticides. Other similarities between SJ and GO populations in this study, and some differences in comparison with the previous data on SJ were observed, involving, in addition to changes in band type, changes in frequency of mosquitoes expressing them and differential gene activation during development. As it is generally true for genetic features, changes in the esterase patterns are expected to be the result of factors such as selection by environmental conditions and genetic drift. In the present case, continuous use of insecticides aiming mosquito population size control in SJ by sanitary authorities could be involved in the observed changes. Changed esterases were classified as carboxylesterases and cholinesterases, which are enzymes already shown to take part in the development of resistance in several organisms. In addition, data obtained in the elapsed time by authorities responsible for the mosquito control has shown increasing insecticide resistance of SJ population mosquitoes parallel to increase in the total amount of esterases, reinforcing the mentioned possibility.     

Describing the geographic spread of dengue disease by traveling waves

Dengue is a human disease transmitted by the mosquito Aedes aegypti. For this reason geographical regions infested by this mosquito species are under the risk of dengue outbreaks. In this work, we propose a mathematical model to study the spatial dissemination of dengue using a system of partial differential reaction-diffusion equations. With respect to the human and mosquito populations, we take into account their respective subclasses of infected and uninfected individuals. The dynamics of the mosquito population considers only two subpopulations: the winged form (mature female mosquitoes), and an aquatic population (comprising eggs, larvae and pupae). We disregard the long-distance movement by transportation facilities, for which reason the diffusion is considered restricted only to the winged form. The human population is considered homogeneously distributed in space, in order to describe localized dengue dissemination during a short period of epidemics. The cross-infection is modeled by the law of mass action. A threshold value as a function of the model's parameters is obtained, which determines the rate of dengue dissemination and the risk of dengue outbreaks. Assuming that an area was previously colonized by the mosquitoes, the rate of disease dissemination is determined as a function of the model's parameters. This rate of dissemination of dengue disease is determined by applying the traveling wave solutions to the corresponding system of partial differential equations.     

Identification and linkage relationships of three hexokinase genes in Aedes aegypti

Four regions of hexokinase activity are detected by starch gel electrophoresis of adult Aedes aegypti. Three of the regions, Hk-2, Hk-3, and Hk-4, are produced by three tightly linked loci, located on the third chromosome 7.25 map units from the locus fuzzy. The three loci show developmental differences as well as differences in substrate specificity.This work was supported by grants from the National Institutes of Health, AI 05118-02 and AI 12016.     

Some consequences of selection for fast and slow recovery from the larval alarm reaction in Aedes aegypti

Summary Replicated divergent selection based upon the time taken to recover from the larval alarm reaction in the mosquito Aedes aegypti resulted in lines which recovered faster and slower than the control lines. Estimates of the realized heritability were consistent, ranging from 0.21 to 0.24 in the fast replicates and 0.19 to 0.20 in the slow replicates. After 11 generations of selection an apparent change in the fitness was examined using an application of the path analysis. The relevance of the findings to natural selection is also discussed.     

Differentiation of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) with egg surface morphology and morphometrics using scanning electron microscopy

Aedes aegypti and Aedes albopictus are potential arboviral vectors leading to high human fatality worldwide. Efforts in the present study were made to differentiate the eggs of A. aegypti and A. albopictus morphologically and morphometrically using scanning electron microscopy (SEM). Morphometrically, these species’ eggs were 48.48% significantly different of the 33 attributes including egg dimensions, micropylar apparatus, dimensions and density of outer chorionic cells (OCCs), tubercles and width of exochorionic network. In comparison to A. aegypti eggs, A. albopictus eggs were significantly smaller and more tapered at the posterior end; however, the micropylar disc of A. aegypti was wider and had incomplete circular sectors whereas it was a narrower polygon without sectors in A. albopictus. These species were also significantly different with regards to OCC which enclose both large central and small peripheral tubercles. Specifically, the exochorionic networks in A. aegypti were interwoven, reticulated and extensively wide whereas they were narrow, prominent and solid-wall-like in A. albopictus. This feature may strengthen A. albopictus eggs against desiccation, when they are laid in containers. The morphometrical and morphological analysis of the egg’s attributes of A. aegypti and A. albopictus may be helpful in understanding egg biology as well as in species confirmation.     

Chemical composition and larvicidal effects of essential oil of Dendropanax morbifera against Aedes aegypti L.

Essential oils obtained from the flowers of Dendropanax morbifera were extracted and the chemical composition and larvicidal effects were studied. The analyses were conducted by gas chromatography and mass spectroscopy (GC–MS) revealed that the essential oil of D. morbifera contained 27 compounds. The major chemical components identified were γ-elemene (18.59%), tetramethyltricyclohydrocarbon (10.82%), β-selinene (10.41%), α-zingibirene (10.52%), 2-isopropyl-5-methylbicylodecen (4.2%), β-cubebene (4.19), and 2,6-bis(1,1-Dimethylethyl)-4-phenol (4.01%). The essential oil had a significant toxic effect against early fourth-stage larvae of Aedes aegypti L. with an LC₅₀ value of 62.32 ppm and an LC₉₀ value of 131.21 ppm. The results could be useful in search for newer, safer, and more effective natural larvicidal agents against A. aegypti.     

Indigenous fish species for the control of Aedes aegypti in water storage tanks in Southern México

Because of inadequate supply of water, inhabitants of five villagesclose to Tapachula, Chiapas, México, store water in cement tanksthat support large populations of Aedes aegypti. Biologicalcontrol using indigenous fish species were studied to control A. aegypti larvae in thosecontainers, since other organisms used as biological control agents areexpensive and unfamiliar to inhabitants of those towns. Other measures(chemical or physical control) are expensive and time consuming. Fiveindigenous fish species, Lepisosteus tropicus (Gill)(Lepisosteiformes: Lepisosteidae), Astyanax fasciatus (Cuvier)(Cypriniformes: Characinidae), Brycon guatemalensis (Regan)(Cypriniformes: Characinidae), Ictalurus meridionalis(Günther) (Cypriniformes: Ictaluridae) and Poecilia sphenopsValenciennes (Cyprinodontiformes: Poeciliidae), currently used asmosquito control agents in the area were tested. Container indexes (ameasure of disease transmission potential) in the tested area werealways zero during the year of the study, independent of towns and fishspecies; this was significantly (P < 0.05) different from containerindexes prior to the test as well as from controls without fish. Nosignificant (P > 0.05) differences were recorded in the efficiency ofthe tested fish species feeding on A. aegypti larvae. Our resultsshow that all tested fish species can be considered as good biologicalagents for controlling A. aegypti larvae in Southern Mexico.     

Transient expression of the Drosophila melanogaster cinnabar gene rescues eye color in the white eye (WE) strain of Aedes aegypti

The lack of eye pigment in the Aedes aegypti WE (white eye) colony was confirmed to be due to a mutation in the kynurenine hydroxylase gene, which catalyzes one of the steps in the metabolic synthesis of ommochrome eye pigments. Partial restoration of eye color (orange to red phenotype) in pupae and adults occurred in both sexes when first or second instar larvae were reared in water containing 3-hydroxykynurenine, the metabolic product of the enzyme kynurenine hydroxylase. No eye color restoration was observed when larvae were reared in water containing kynurenine sulfate, the precursor of 3-hydroxykynurenine in the ommochrome synthesis pathway. In addition, a plasmid clone containing the wild type Drosophila melanogaster gene encoding kynurenine hydroxylase, cinnabar (cn), was also able to complement the kynurenine hydroxylase mutation when it was injected into embryos of the A. aegypti WE strain. The ability to complement this A. aegypti mutant with the transiently expressed D. melanogaster cinnabar gene supports the value of this gene as a transformation reporter for use with A. aegypti WE and possibly other Diptera with null mutations in the kynurenine hydroxylase gene.     

Cytogenetic analysis of metaphase chromosomes from pupal testes of four mosquito species using fluorescence <Emphasis Type="Italic">in situ</Emphasis> hybridization technique (FISH)

The DNA probes, P1887, P2405, P2056 (being specific tags for Aedes aegypti genes coding for ribosomal RNA) and a centric heterochromatin probe, K20-1A5, were chosen to hybridize the metaphase chromosomes from the testes of four mosquito species, Culex pipiens, Aedes aegypti, Aedes albopictus and Aedes triseriatus. In addition, a single plasmid, P2392, which contained the three probes, P1887, P2405 and P2056, was also used as chromosome landmark in aedine species. Only the Aedes aegypti metaphase chromosome 1-specific tag, P1887, was conserved in Aedes albopictus, Aedes triseriatus, and Culex pipiens metaphase chromosomes. Aedes triseriatus exhibited two gene loci, on chromosomes 1 and 3, coding for ribosomal RNA per haploid genome. When the specific probes for chromosomes 2 and 3, 2405 and 2056, were used in the fluorescence in situ hybridization technique against the metaphase chromosomes the fluorescent signals were not seen in Aedes albopictus, Aedes triseriatus or Culex pipiens. Also the centric heterochromatin probe, K20-1A5, exhibited strong fluorescent signals on chromosomes 1, 2 and 3 of Aedes aegypti. These fluorescent signals were not observed in metaphase chromosomes derived from the other aedine species, indicating that the centromere sequence can vary within the species.This paper was presented at the Second Arab Conference on Biotechnology and Genetic Engineering, held in the Kingdom of Bahrain, 15–17 April, 2002 and is published here with the endorsement of the Co-ordinator of the Scientific Committee, Professor Essam H. Ghanem, University of Bahrain. Its publication has been delayed because of the ill health of the senior author. Other papers from this conference were published in the July 2003 issue (vol. 19, no. 5).