巴尔通体在滇西南蝙蝠中高度流行并具有丰富的遗传变异特征

蝙蝠是很多病原微生物的自然宿主, 全球多项研究表明蝙蝠是巴尔通体(Bartonella species)的主要宿主。为了解滇西南地区蝙蝠中巴尔通体的流行特征, 我们于2015-2017年间在云南省4个地区应用网捕法捕获蝙蝠3种305只。经种类鉴定后采集肝脾组织, 提取核酸, 通过TaqMan实时荧光定量PCR方法检测巴尔通体的tmRNA基因ssrA, 并进行测序鉴定和系统发育分析。结果发现172只蝙蝠检出该基因, 总感染率为56.4%; 其中临沧、西双版纳、保山和瑞丽4个采样点的蝙蝠感染率分别为50.0% (22/44)、61.7% (29/47)、62.1% (18/29)和55.7% (103/185)。中菊头蝠(Rhinolophus affinis)、小菊头蝠(R. blythi)和棕果蝠(Rousettus leschenaultii)的感染率分别为50.0% (22/44)、62.1% (18/29)和56.9% (132/232), 差异没有统计学意义(χ² = 1.135, P = 0.567), 表明巴尔通体在云南当地的蝙蝠种群中高度流行。定量PCR扩增产物2次扩增后测序获得37个巴尔通体ssrA序列, 属于10个系统发育分支, 其中1个为伊丽莎白巴尔通体(B. elizabethae)、特利波契巴尔通体(B. tribocorum)和克拉斯诺夫巴尔通体(B. krasnovii)的近缘种。其余序列与已知巴尔通体距离较远, 与亚洲、欧洲和美洲等其他地域来源于蝙蝠的巴尔通体近缘。遗传多样性分析显示, ssrA基因的核苷酸多样性指数(π)为0.11381 ± 0.00928, 基因型多样性指数(Hd)为0.985 ± 0.010, 形成29个基因型(单倍型), 说明云南蝙蝠巴尔通体具有丰富的遗传多样性。通过对本研究标本与全球相关序列的系统发育网络重建, 分析全球蝙蝠巴尔通体的地理和宿主分布特征, 可以看出巴尔通体与蝙蝠之间存在显著的宿主特异性关联。因此可初步确定蝙蝠-巴尔通体具有协同进化特征, 同时受到地理隔离的影响。     

C亚型SHIVCHN19P4强毒株在中国恒河猴体内的传代研究

目的研究C亚型SHIVCHN19P4强毒株在中国恒河猴体内传代中病毒学和免疫学等反应的变化特点,分离制备SHIVCHN19P4中国恒河猴传代适应株病毒。方法选择4只健康成年恒河猴,其中两只经后肢静脉感染SHIVCHN19P4病毒,60 d后,分别采集EDTA抗凝全血静脉途径传代至另两只猴,使用流式细胞术、PCR、结合抗体检测和序列分析等方法研究传代动物病毒学、免疫学和序列变异特点。选择性从传代动物感染急性期外周血中分离PBMC,CD8＋T细胞敲除后与正常PBMC共培养分离病毒。结果 4只传代动物均获得系统性感染,且传代后病毒毒力明显增强,序列分析发现SHIVCHN19P4病毒序列在传代过程中发生适应性改变;同时,成功分离制备SHIVCHN19P4传代适应性病毒株。结论 SHIVCHN19P4在中国恒河猴体内适应性传代研究为进一步建立C亚型SHIV强毒株/SAIDS模型奠定了良好的实验基础,为研究C亚型HIV-1流行株致病特点以及预防性黏膜疫苗和杀微生物的有效性评价提供了数据支持。     

用PCR-SSP方法检测中国恒河猴Mamu-DRB*W101和Mamu-DRB*W201基因

利用序列特异引物聚合酶链反应(polymerase chain reactionsequence-specific primers,PCR-SSP)方法扩增中国恒河猴的主要组织相容性复合体II类基因Mamu-DRB*W101、-DRB*W201,初步了解中国恒河猴中Mamu-DRB*W101、-DRB*W201基因的阳性率。采集中国恒河猴静脉血,用DNA提取试剂盒提取全血DNA,分别用Mamu-DRB*W101、-DRB*W201特异引物PCR扩增Mamu-DRB*W101、-DRB*W201基因的第二外显子区域,并对扩增出的阳性条带进行测序,与已知序列对比验证序列是否正确。共检测了来自136只中国恒河猴的样本,PCR检测出Mamu-DRB*W101阳性个体10只,Mamu-DRB*W201阳性个体也是10只,其阳性个体所占比率均为7.35%。测序结果表明,PCR扩增产物的核苷酸序列与基因库中的序列完全一致。本研究表明中国恒河猴中存在Mamu-DRB*W101、-DRB*W201基因阳性个体,为中国恒河猴在AIDS研究中的应用及进一步分析中国恒河猴MHC II类基因提供了基础。     

恒河猴tPA基因的克隆、测序与真核表达

目的对恒河猴tPA编码区cDNA进行测序和表达.方法采用RT-PCR方法从恒河猴淋巴细胞中扩增tPA基因,将获得的cDNA克隆于T载体,序列确定后再克隆至真核表达载体.结果测序结果表明恒河猴tPAcDNA编码区与人tPAcDNA编码区的核苷酸序列同源性为96%,由此所推导的氨基酸序列的同源性为97.5%.随后将恒河猴tPAcDNA克隆于真核表达载体,转染CHO细胞后成功表达出了有活性的tPA.培养上清检测结果显示其活性约为50?U/ml,略低于人tPA在CHO细胞中表达产物的活性.结论本研究首次报道了恒河猴tPA基因编码区的全长cDNA序列并获得了有活性的恒河猴tPA真核表达产物.将为进一步比较灵长类动物间tPA的生物学特性奠定基础.     

印度尼西亚源食蟹猴干扰素-γ基因的克隆和序列分析

目的获得印度尼西亚食蟹猴的干扰素-γ基因,为常用实验猕猴干扰素-γ的基因工程生产奠定基础。方法根据GenBank上公布的恒河猴干扰素-γ基因序列设计特异性引物,从印度尼西亚食蟹猴的外周血液中分离单核淋巴细胞,利用Trizol试剂,提取淋巴细胞的总RNA,通过RT-PCR的方法获得干扰素-γ基因片段,并对该片段进行克隆、鉴定和序列分析。结果扩增到一498bp的目的片段,经序列测定证实为印度尼西亚食蟹猴的干扰素-γ基因,与恒河猴、人及狒狒的干扰素-γ基因相比,同源性分别为100%、96%、99%。结论常用的两种实验猕猴食蟹猴与恒河猴的干扰素-γ基因完全相同。     

中国恒河猴Mamu-A*01基因筛查及其对抗原肽p11C的特异性CTL反应

目的 筛查中国恒河猴Mamu-A*01基因,比较中国恒河猴和印度恒河猴的Mamu-A*01基因序列和功能是否相同.方法 PCR方法检测128只中国恒河猴,用特异性引物扩增Mamu-A*01基因,将PCR扩增后的产物克隆测序后与印度恒河猴的Mamu-A*01基因进行同源比对;酶联免疫斑点检测 (ELISPOT) 方法分别检测5只Mamu-A*01基因阳性和5只阴性恒河猴针对SIV、SHIV抗原肽p11C的特异性CTL反应.结果 共筛查出5 只Mamu-A*01基因阳性恒河猴 (3.91%),经测序分析后与印度恒河猴的同源性可达99.1 %.这5只均为SIV/SHIV感染恒河猴,其中四只SIV感染的猴的ELISPOT结果显示针对p11C的高频CTL反应,斑点数在500-1400/106 PBMCs之间,而另1只SHIV感染的恒河猴及5只阴性猴没有斑点出现.结论 中国恒河猴含有Mamu-A*01基因,基因频率有区域性差异,中国恒河猴的Mamu-A*01可提呈特异性抗原肽p11C.     

一株恒河猴克罗诺杆菌（阪崎肠杆菌）的分离鉴定及序列分析

目的对恒河猴粪便中分离到的一株克罗诺杆菌进行鉴定,为实验恒河猴疾病检测、鉴别诊断和治疗提供参考依据j方法通过细菌培养特性、菌落形态观察及微生物鉴定系统（ID32E）生化试验进行菌落鉴定;并进行抗生素敏感试验和小白鼠致病性试验;用PCR方法扩增分离菌株的23SrRNA基因并测序,并将其与GenBank上参考菌株23SrRNA基因核苷酸序列进行同源性分析。结果经细菌形态学和生化鉴定该细菌为克罗诺杆菌,23SrRNA基因序列与GenBank中分离自婴幼儿配方奶粉中的阪崎克罗诺杆菌（CP004091）同源性为98％。药敏试验表明该菌对甲硝哒唑耐药,对其他15种抗生素敏感。致病性试验证明该分离菌株对小白鼠有强致病性。结论该株从恒河猴中分离到的克罗诺杆菌具有较强的致病性,对实验恒河猴饲养及相关研究人员有潜在的危害,因此,在恒河猴饲养及研究过程中应引起重视。头孢、庆大霉素和诺氟沙星等药物可作为治疗恒河猴克罗诺杆菌感染的临床用药。     

巴尔通体分离培养特性观察

从鼠类血液中分离巴尔通体(Bartonella),观察其分离培养特性。被检鼠血为2004年收集自云南省的4个县,采用含5%去纤维兔血脑心浸液琼脂培基置于35℃含5%CO2培养箱中分离培养巴尔通体,进行观察,涂片革兰染色镜检,疑似菌落用巴尔通体属特异性引物进行聚合酶链反应(PCR)扩增特异基因片段[枸橼酸合酶基因(gltA)的379 bp片段],电泳图中出现目标带即判断为阳性菌株。从397份鼠血分离到巴尔通体47份,分离率为11.8%。阳性菌落长出时间最早为3 d,多数为1~2周,占70.2%(33/47)。阳性菌落形态随培养时间延长而改变,特点多样。PCR阳性的菌经革兰染色,镜下均可见革兰阴性小杆菌。结果可见,可先用涂片革兰染色镜检,对疑似菌落进行初筛,巴尔通体种类多、形态多样,培养时间延长,菌落形态可能发生变异,有待进一步探索。     

24种食蟹猴MHC B座位等位基因序列特征与进化分析

食蟹猴(Macaca fascicularis,Mafa)是重要的医学研究动物模型,被大量用于药物及移植医学试验。为探讨本地食蟹猴MHC I类基因B座位的多态性,本研究经大量PCR,克隆与测序,从10只食蟹猴中分离到24种Mafa-B等位基因的全长序列,其中4种为新序列,已递交NCBI数据库,并给予系统命名。在每个个体中均获得6至11条Mafa-B等位基因,显示食蟹猴的MHC-B座位出现扩增,食蟹猴MHC-B为重复基因座的特征与恒河猴类似。氨基酸序列比对分析得出,MHC-B基因在抗原肽结合区高度多态。     

用PCR-SSP方法检测中国恒河猴Mamu-DRB*W101和Mamu-DRB*W201基因

利用序列特异引物聚合酶链反应（polymerase chain reactionsequence-specific primers，PCR-SSP）方法扩增中国恒河猴的主要组织相容性复合体II类基因Mamu-DRB*W101、- DRB*W201，初步了解中国恒河猴中Mamu-DRB*W101、- DRB*W201基因的阳性率。采集中国恒河猴静脉血，用DNA提取试剂盒提取全血DNA，分别用Mamu-DRB*W101、- DRB*W201特异引物PCR扩增Mamu-DRB*W101、- DRB*W201基因的第二外显子区域，并对扩增出的阳性条带进行测序，与已知序列对比验证序列是否正确。共检测了来自136只中国恒河猴的样本，PCR检测出Mamu-DRB*W101阳性个体10只，Mamu-DRB*W201阳性个体也是10只，其阳性个体所占比率均为7.35%。测序结果表明，PCR扩增产物的核苷酸序列与基因库中的序列完全一致。本研究表明中国恒河猴中存在Mamu-DRB*W101、- DRB*W201基因阳性个体，为中国恒河猴在AIDS研究中的应用及进一步分析中国恒河猴MHC II类基因提供了基础。     

Phylogenetic analysis of Bartonella detected in rodent fleas in Yunnan, China

Previous studies have demonstrated a diversity of Bartonella spp. in rodent populations in Yunnan Province, China. Although Bartonella spp. have been isolated from cat fleas and cattle ticks collected from their animal hosts, little is known about Bartonella carried by rodent fleas. In this study, Bartonella DNA was detected by polymerase chain reaction (PCR) in two of five species of rodent fleas. These included Xenopsylla cheopis and Ctenophthalmus lushuiensis, which were collected from Rattus tanezumi flavipectus and from the nests of voles, respectively, during 1997 from two sites in western Yunnan Province, China. Sequence analysis of the Bartonella citrate synthase gene (gltA) amplicons obtained from six of 65 grouped flea samples showed that Bartonella genetic variants were clustered in four groups. One from Xenopsylla cheopis was identical to Bartonella tribocorum, whereas the other three genotypes from Ctenophthalmus lushuiensis were related to the vole-associated Bartonella isolates and cat-associated Bartonella clarridgeiae. This is the first detection of this Bartonella variant from fleas in China. Therefore, further investigations are needed to clarify the distribution of Bartonella in rodents and their ectoparasites in China to define the role of these arthropods in the transmission routes of Bartonella.     

Complete Genome Sequence of Bartonella quintana,a Bacterium Isolated from Rhesus Macaques

Bartonella quintana is a re-emerging pathogen and the causative agent of a broad spectrum of disease manifestations in humans. The present study reports the complete genome of B. quintana strain RM_11, which was isolated from rhesus macaques.     

Genetic analysis of simian virus 40 from brains and kidneys of macaque monkeys.

Simian virus 40 (SV40) was isolated from the brains of three rhesus monkeys and the kidneys of two other rhesus monkeys with simian immunodeficiency virus-induced immunodeficiency. A striking feature of these five cases was the tissue specificity of the SV40 replication. SV40 was also isolated from the kidney of a Taiwanese rock macaque with immunodeficiency probably caused by type D retrovirus infection. Multiple full-length clones were derived from all six fresh SV40 isolates, and two separate regions of their genomes were sequenced: the origin (ori)-enhancer region and the coding region for the carboxy terminus of T antigen (T-ag). None of the 23 clones analyzed had two 72-bp enhancer elements as are present in the commonly used laboratory strain 776 of SV40; 22 of these 23 clones were identical in their ori-enhancer sequences, and these had only a single 72-bp enhancer element. We found no evidence for differences in ori-enhancer sequences associated with tissue-specific SV40 replication. The T-ag coding sequence that was analyzed was identical in all clones from kidney. However, significant variation was observed in the carboxy-terminal region of T-ag in SV40 isolated from brain tissues. This sequence variation was located in a region previously reported to be responsible for SV40 host range in cultured cell lines. Thus, SV40 appears to be an opportunistic pathogen in the setting of simian immunodeficiency virus-induced immunodeficiency, similarly to JC virus in human immunodeficiency virus-infected humans, the enhancer sequence organization generally attributed to SV40 is not representative of natural SV40 isolates, and sequence variation near the carboxy terminus of T-ag may play a role in tissue-specific replication of SV40.     

Lactobacillus and Pediococcus species richness and relative abundance in the vagina of rhesus monkeys (Macaca mulatta)

Background The rhesus monkey is an important animal model to study human vaginal health to which lactic acid bacteria play a significant role. However, the vaginal lactic acid bacterial species richness and relative abundance in rhesus monkeys is largely unknown. Methods Vaginal swab samples were aseptically obtained from 200 reproductive‐aged female rhesus monkeys. Following Rogosa agar plating, single bacterial colonies representing different morphotypes were isolated and analyzed for whole‐cell protein profile, species‐specific polymerase chain reaction, and 16S rRNA gene sequence. Results A total of 510 Lactobacillus strains of 17 species and one Pediococcus acidilactici were identified. The most abundant species was Lactobacillus reuteri, which colonized the vaginas of 86% monkeys. Lactobacillus johnsonii was the second most abundant species, which colonized 36% of monkeys. The majority of monkeys were colonized by multiple Lactobacillus species. Conclusions The vaginas of rhesus monkeys are frequently colonized by multiple Lactobacillus species, dominated by L. reuteri.     

安徽部分地区动物源弯曲菌的分离鉴定及多位点序列分型

【背景】弯曲菌是一种重要的食源性人兽共患病原菌,革兰氏阴性、微需氧、弯曲螺旋状。【目的】为了解安徽地区弯曲菌流行状况和分子遗传特征,对安徽6个不同地区动物源的弯曲菌进行分离鉴定,并研究分离株分子分型。【方法】通过形态学及培养特性观察、生化试验、PCR方法对菌株进行鉴定。以弯曲菌7个管家基因asp A、gln A、glt A、gly A、pgm、tkt和unc A为目的基因对分离株进行多位点序列分型,并制成遗传进化树。【结果】共分离到42株弯曲菌菌株,源自6个地区的分离株具有较为一致的形态特性和相似的生化特性。多位点序列分型结果显示,本研究中共获得32种ST型,共发现9种新的ST型(8190、8222、8223、8831、8833、8841、8832、8834和8843)和6个新的等位基因(gln A606、gln A607、glt A518、gly A680、pgm863和unc A541)。进化树结果显示,空肠弯曲菌与结肠弯曲菌遗传关系相差甚远,聚集归为两个大群,分别有5个分支和3个分支。【结论】安徽6个地区不同来源的空肠弯曲菌与结肠弯曲菌均有丰富的基因型,且没有明显优势的基因型。从遗传变异的角度来看,空肠弯曲菌复杂多样,结肠弯曲菌相对保守。     

Prevalence and genetic diversity of bartonella species detected in different tissues of small mammals in Nepal

Bartonellae were detected in a total of 152 (23.7%) of 642 tissues from 108 (48.4%) of 223 small mammals trapped in several urban areas of Nepal. Based on rpoB and gltA sequence analyses, genotypes belonging to seven known Bartonella species and five genotypes not belonging to previously known species were identified in these animals.     

Infection of macaque monkeys with simian immunodeficiency virus from African green monkeys: virulence and activation of latent infection

The virulence of three isolates of simian immunodeficiency virus from African green monkeys (SIVagm) was studied in rhesus and pigtailed macaques. None of 15 rhesus monkeys and one of four pigtailed monkeys died from infection during the time they were studied (up to 33 months). SIVagm was only isolated from rhesus monkeys for up to 2 months after inoculation. However, when these animals were secondarily infected with Simian acquired immunodeficiency syndrome retrovirus type 1 (SRV-1), SIVagm was activated and isolated. Dual infection caused increased mortality.