肠毒素大肠杆菌定居因子CS3和肠毒素融合抗原基因在减毒鼠伤寒沙门氏菌中的共表达

不耐热肠毒素（LT）和耐热肠毒素（ST）是产肠毒素大肠杆菌的主要致病因素,CS3为该菌的优势定居因子,是定居因子CFA/Ⅱ菌毛抗原的共有抗原组分。采用基因操作技术将编码CS3和融合肠毒素蛋白基因转化到减毒鼠伤寒沙门氏菌疫苗侯选株X4072中进行表达。用重组菌株口服免疫小鼠后,免疫动物能产生抗CS3、LT和ST的血清抗体。特别有意义的是,所产生的抗ST抗体能中和天然ST的生物活性。这一结果为研究载体疫苗防治肠毒素大肠杆菌腹泻疾病奠定了基础。     

大肠杆菌和霍乱弧菌肠毒素的进化起源

<正> 产毒性大肠杆菌(ETEC)产生两种不同型肠毒素:不耐热毒素(LT)和耐热毒素(ST)。LT具有与霍乱弧菌肠毒素(霍乱毒素,CT)共同的结构和功能的特征,因抗原决定簇不同又可分为两型(i)LTp,由使小猪致病的ETEC所产生。(ii)LTh,由使人致病的ETEC产生。STI也有两个     

人产肠毒素大肠杆菌ST、LT—B肠毒素基因融合的研究

将人产肠毒素大肠杆菌(ETEC),编码耐热肠毒素(ST)的基因片段与编码不耐热肠毒素B亚基(LT—B)的基因进行融合,并在此基础上进行不同数目sT基因的串联,ELJlSA检测融合基因表达蛋白产物观察到sT与LT－B之间存在着相互影响。ST的检测滴度随基因串联个数增加而逐渐升高,而LT的ELISA滴度则减弱。说明了ST可以通过基因串联提高表达产物抗原活性,这为产肠毒素大肠杆菌多价疫苗的研制提供了重要的研究基础。     

东方铃蟾消化道组织学的初步研究

采用组织学方法对东方铃蟾的消化道进行了研究。结果表明:肠分为十二指肠、空肠和大肠。消化道管壁由粘膜层、粘膜下层、肌层和浆膜层构成。食道、胃和肠均为单层柱状上皮。胃和十二指肠的粘膜皱褶最丰富。食道腺为复泡状腺,胃腺属于单管状腺,肠的各段无多细胞腺体,但空肠和大肠有丰富的杯状细胞。肌层均为平滑肌,内层环肌较厚,外侧纵肌较薄,其中大肠的外侧纵肌最发达。     

人产肠毒素大肠杆菌ST、LT—B肠毒素基因融合的研究

将人产肠毒素大肠杆菌(ETEC),编码耐热肠毒素(ST)的基因片段与编码不耐热肠毒素B亚基(LT-B)的基因进行融合,并在此基础上进行不同数目ST基因的串联,ELISA检测融合基因表达蛋白产物观察到ST与LT-B之间存在着相互影响。ST的检测滴度随基因串联个数增加而逐渐升高,而LT的ELISA滴度则减弱。说明了ST可以通过基因串联提高表达产物抗原活性,这为产肠毒素大肠杆菌多价疫苗的研制提供了重要的研究基础。     

人胎儿早中期肠壁肌层发育分化的研究

目的探讨人胚早中期肠壁肌层的发育分化过程.方法采用形态学及免疫组织化学方法对24例4-28周胎儿空肠、回肠、结肠肠壁肌层进行形态学及免疫组化观察.结果α-SMA阳性的环行肌层与纵行肌层在10周胎儿已形成完整环形,空肠、回肠的黏膜肌层在10周时刚开始形成,13周时才刚刚形成完整环形,而结肠的黏膜肌层迟至15周才形成完整环形,此时细胞均呈圆形或卵圆形,绒毛中央α-SMA阳性的细胞在13周胎儿各段肠已出现,但结肠较空肠、回肠少.此后,随着胎龄的增大,各肌层均明显增厚,细胞形态也逐渐由卵圆形变为梭形.结论环行肌层与纵行肌层的发育分化早于黏膜肌层;空肠、回肠各肌层的发育分化早于结肠.     

人毒素原性大肠杆菌肠毒素ST、LT-B基因的融合

将毒素原性大肠杆菌(ETEC)编码耐热肠毒素(ST)的基因片段与编码热敏肠毒素B亚基(LT—B)的基因进行融合,并在此基础上进行不同数目ST基因的串联。ELISA检测融合基因表达蛋白产物,观察到ST与LT-B之间存在着相互影响。ST的检测滴度随基因串联个数增加而逐渐升高,而LT的ELISA滴度则减弱。本研究说明ST可以通过基因串联提高表达产物抗原活性。这为毒素原性大肠杆菌多价疫苗的研制提供了重要的研究基础。     

黑眶蟾蜍和黑斑蛙消化道5-羟色胺免疫活性细胞的免疫组织化学

对黑眶蟾蜍（Bufo melanostictus）和黑斑蛙（Rana nigromaculata）消化道5-羟色胺免疫活性细胞的形态、分布进行了免疫组织化学定位。5-羟色胺免疫活性细胞在黑眶蟾蜍和黑斑蛙消化道各段中均有分布,分布密度均呈升-降-升-降的波浪式分布特点,二者在幽门部和回肠都有个分布的高峰值。黑眶蟾蜍回肠最高,空肠、幽门部次之,十二指肠、直肠最低;黑斑蛙幽门部最高,回肠、空肠次之,食道、贲门部、直肠最低。5-羟色胺免疫活性细胞位于胃的胃腺上皮、食道及肠的粘膜上皮,有圆形、椭圆形、梭形、楔形等,有的有胞突。文中讨论了5-羟色胺免疫活性细胞分布型的原因及形态与功能的关系。     

新腹泻原性大肠杆菌的致病机理

<正> 以往的研究将肠道病原性大肠杆菌分成三类。一类是主要引起婴幼儿流行性腹泻的致病性大肠杆菌(BPEC);另一类是引起旅游者腹泻和发展中国家婴幼儿腹泻的产毒性大肠杆菌(ETEC);再一类是导致痢疾等疾病的侵袭性大肠杆菌(EIEC)。关于ETEC和EIEC的致病机理研究的比较清楚,ETEC中要产生LT和ST肠毒素,EIEC象志贺氏菌一样能侵入肠上皮细胞并繁殖。EPEC的致病性可能与某种粘附因子和细胞毒素产生有关。近来人们又提出两类新的腹泻性大肠杆菌,即肠出血性大肠杆菌(En-     

人源产肠毒素大肠杆菌疫苗的研发进展

腹泻是全球范围内引起5岁以下幼童死亡的第二大病因,而产肠毒素大肠杆菌(ETEC)是引起腹泻的最常见病原菌,其产生的细菌定植因子(CFs)和肠毒素是关键的毒力因子。CFs介导细菌黏附宿主小肠上皮细胞并完成定植,产生热敏肠毒素(LT)和热稳定肠毒素(ST)破坏宿主上皮细胞内的体液平衡,使体液和电介质过量分泌从而导致腹泻。预防ETEC腹泻的首选方法是使用能激发宿主产生抗黏附素免疫力和抗肠毒素免疫力的疫苗,阻断ETEC黏附和定植并中和肠毒素。目前一种名为Dukoral~的霍乱疫苗因能刺激机体产生抗热敏毒素免疫,已经被一些国家批准用于短期保护和预防旅行者腹泻。新型试验性ETEC候选疫苗正在研发中,旨在提供保护期长、反应谱广的抗ETEC感染免疫保护力。本文针对疫苗研发的关键问题和研究现状作一综述,并对未来的研究作出展望。     

Role of heat-stable enterotoxins in the induction of early immune responses in piglets after infection with enterotoxigenic Escherichia coli

Enterotoxigenic Escherichia coli (ETEC) strains that produce heat-stable (ST) and/or heat-labile (LT) enterotoxins are cause of post-weaning diarrhea in piglets. However, the relative importance of the different enterotoxins in host immune responses against ETEC infection has been poorly defined. In the present study, several isogenic mutant strains of an O149:F4ac(+), LT(+) STa(+) STb(+) ETEC strain were constructed that lack the expression of LT in combination with one or both types of ST enterotoxins (STa and/or STb). The small intestinal segment perfusion (SISP) technique and microarray analysis were used to study host early immune responses induced by these mutant strains 4 h after infection in comparison to the wild type strain and a PBS control. Simultaneously, net fluid absorption of pig small intestinal mucosa was measured 4 h after infection, allowing us to correlate enterotoxin secretion with gene regulation. Microarray analysis showed on the one hand a non-toxin related general antibacterial response comprising genes such as PAP, MMP1 and IL8. On the other hand, results suggest a dominant role for STb in small intestinal secretion early after post-weaning infection, as well as in the induced innate immune response through differential regulation of immune mediators like interleukin 1 and interleukin 17.     

Acquisition and maintenance of enterotoxin plasmids in wild-type strains of Escherichia coli

Enterotoxigenic strains of Escherichia coli (ETEC) may produce a heat-labile enterotoxin (LT), a heat-stable enterotoxin (ST) or both enterotoxins. Certain serogroups are represented more frequently than others in ETEC isolated from humans. The transfer of three plasmids encoding enterotoxin production (Ent) to 22 non-toxigenic E. coli strains of many different O:H serotypes was studied. The Ent plasmids encoded ST (TP276), or LT (TP277), or ST + LT (TP214), and all carried antibiotic-resistance determinants. Twenty-one recipient strains acquired TP214, 18 acquired TP277 and 14 acquired TP276. Strains of those serotypes to which ETEC in diarrhoeal studies commonly belong neither acquired nor maintained Ent plasmids with a higher frequency than strains of those serotypes to which ETEC rarely belong. The recipient strains, with one exception, all expressed ST, or LT, or ST and LT, when they had acquired the appropriate plasmid; a non-motile strain belonging to O serogroup 88 expressed LT but failed to express ST when it acquired TP214 or TP277.     

产肠毒素大肠杆菌的热敏肠毒素B亚基(LT-B)和耐热肠毒素(ST)基因融合及其表达

采用基因重组技术构建了表达产肠毒素大肠杆菌(ETEC)的耐热肠毒素(ST)基因和热敏肠毒素B亚基(LT-B)基因融合抗原的疫苗候选株。将ST基因的5’端与LT-B基因的3’端连接,并置于同一阅读框。编码ST的基因是通过PCR从pSLM004质粒中扩增得到的,含有ST的pro序列(其编码ST前体的pro区域),并应用寡核苷酸定点突变技术将编码ST的第14位氨基酸残基发生突变,使ST的第14位氨基酸残基Ala突变为Leu。在所构建的结构中,于LT-B和proST之间分别插入了不同长度的氨基酸Linkers。表达的融合多肽同时具有ST和LT-B的抗原性,并保留结合GM-1神经节苷脂的能力,且无LT和ST的生物毒性。表达的融合蛋白免疫动物,能诱导产生相应的特异性抗体。     

In vivo expression of the heat stable (estA) and heat labile (eltB) toxin genes of enterotoxigenic Escherichia coli (ETEC)

Enterotoxigenic Escherichia coli (ETEC) colonize the intestine and adhere to the epithelium by means of different host specific colonization factors (CFs). Colonizing ETEC produce one or both of two enterotoxins; the heat stable (ST) and heat labile (LT) toxins which are both able to cause diarrhoea. The regulation of virulence genes in ETEC during infection of the human intestine is mainly unknown. In this study we analysed the level of mRNA expression of estA, coding for ST, and eltB, coding for the B subunit of LT, during human infection. The expressions of the toxins in ETEC strains expressing both ST and LT were investigated in bacteria isolated directly from patient stool without sub-culturing, (in vivo) and compared to the expression pattern of the corresponding ST/LT strains grown in liquid broth (in vitro) by quantitative competitive RT-PCR using fluorescent primers. We found that estA and eltB are expressed in the in vivo samples but no significant up-or down regulation of the expression levels of either estA or eltB could be determined in vivo as compared to in vitro.     

携带定居因子抗原的非毒素原性大肠杆菌 CF138 株特性的鉴定

对自腹泻病人粪便标本中分离的携带定居因子抗原的菌株（命名为ＣＦ１３８）的特性,侧重从两个方面进行了鉴定。通过电子显微镜观察,发现其菌体表面具有ＣＳ１及ＣＳ３纤毛结构,聚乙烯珠粘附试验结果证实具有粘附作用,甘露糖抗性血凝试验呈抗性凝集,与ＣＦＡ／Ⅱ抗血清作用显示强凝集阳性,属０６：Ｈ１６血清型,采用家兔肠攀试验,乳鼠ＳＴ活性测定及用ＬＴ、ＳＴ放射性ＤＮＡ探针检测等现行测定ＬＴ及ＳＴ肠毒素的方法,证实该株不产生肠毒素,结果表明该株属具有定居因子抗原的非毒素原性大肠杆菌自然诱变株。灌注该株菌体的免疫豚鼠产生了抵抗肠毒原性大肠杆菌攻击的保护力,表明该株系一潜在的抗ＥＴＥＣ感染的侯选菌苗株。     

Biological properties of enterotoxigenic Escherichia isolated from patients with acute intestinal diseases of unknown etiology

As the result of the comparative examination of adult patients with acute enteric diseases and normal adults, 173 E. coli enterotoxigenic strains were isolated (161 strains from the patients and 12 strains from normal persons). 83% of the isolated enterotoxigenic E. coli (ETEC) produced two enterotoxins: thermolabile (LT) and thermostable (ST). Enterotoxigenicity was most pronounced in the strains of ETEC belonging to the prevaling variant ST + LT +. The enterotoxigenic properties of ETEC were highly stable: the production of ST and LT in the strains remained unchanged after their storage for up to 4 years. The isolated ETEC comprised 48 serogroups and 61 strains. The strains belonging to the same seroval had a similar degree of toxigenicity. The strains belonging to different serovars considerably differed in the activity of their enterotoxins. The production of two kinds of enterotoxins in the isolated E. coli strains was inter-related: the strains with a high activity of ST were, as a rule, good producers of LT.     

Detection of heat-stable and heat-labile enterotoxin genes of Escherichia coli in diarrhoeic faecal samples of mithun (Bos frontalis) calves by polymerase chain reaction

Aims:  To find out the prevalence of different serogroups of Escherichia coli ( E. coli ) and to detect heat-stable (ST) and heat-labile (LT) enterotoxin genes of enterotoxigenic E. coli (ETEC) from the faeces of mithun calves with diarrhoea.
Methods and Results:  Faecal samples obtained from 65 diarrhoeic mithun calves of under 2 months of age were examined for E. coli using polymerase chain reaction (PCR). Fifty-four E. coli isolates were obtained from those samples, which belonged to 38 different serogroups. Out of 54 isolates tested by PCR, two isolates (3·70%) belonging to serogroups O26 and O55 were found to possess gene that code for ST enterotoxin and one isolate (1·85%) belonging to serogroup O125 was found to carry LT enterotoxin gene.
Conclusions:  Escherichia coli isolates from diarrhoeic mithun calves were found to possess ST and LT enterotoxin genes, which are designated as ETEC, and these isolates can be detected through PCR using specific primers.
Significance and Impact of the Study:  This study reports the isolation of ETEC possessing ST and LT enterotoxin genes for the first time and ETEC could be a cause of diarrhoea in mithun calves leading to calf mortality.     

Evaluating the A-Subunit of the Heat-Labile Toxin (LT) As an Immunogen and a Protective Antigen Against Enterotoxigenic Escherichia coli (ETEC)

Diarrheal illness contributes to malnutrition, stunted growth, impaired cognitive development, and high morbidity rates in children worldwide. Enterotoxigenic Escherichia coli (ETEC) is a major contributor to this diarrheal disease burden. ETEC cause disease in the small intestine by means of colonization factors and by production of a heat-labile enterotoxin (LT) and/or a small non-immunogenic heat-stable enterotoxin (ST). Overall, the majority of ETEC produce both ST and LT. LT induces secretion via an enzymatically active A-subunit (LT-A) and a pentameric, cell-binding B-subunit (LT-B). The importance of anti-LT antibodies has been demonstrated in multiple clinical and epidemiological studies, and a number of potential ETEC vaccine candidates have included LT-B as an important immunogen. However, there is limited information about the potential contribution of LT-A to development of protective immunity. In the current study, we evaluate the immune response against the A-subunit of LT as well as the A-subunit’s potential as a protective antigen when administered alone or in combination with the B-subunit of LT. We evaluated human sera from individuals challenged with a prototypic wild-type ETEC strain as well as sera from individuals living in an ETEC endemic area for the presence of anti-LT, anti-LT-A and anti-LT-B antibodies. In both cases, a significant number of individuals intentionally or endemically infected with ETEC developed antibodies against both LT subunits. In addition, animals immunized with the recombinant proteins developed robust antibody responses that were able to neutralize the enterotoxic and cytotoxic effects of native LT by blocking binding and entry into cells (anti-LT-B) or the intracellular enzymatic activity of the toxin (anti-LT-A). Moreover, antibodies to both LT subunits acted synergistically to neutralize the holotoxin when combined. Taken together, these data support the inclusion of both LT-A and LT-B in prospective vaccines against ETEC.     

Production of enterotoxins by strains of Escherichia coli isolated from pigs

The production of enterotoxins by 237 hemolytic strains of Escherichia coli isolated from pigs was determined with the use of CTE in CHO. Vero and Hela cells and ILT. More frequent (p less than 0.01) production of enterotoxins, determined by ILT, was found for the serotypes being pathogenic for the animals (63.8% of the strains). No correlation between intensity of ILT and particular serotype was observed. Both the serotypes pathogenic for pigs and other serotypes produced LT enterotoxins and ST toxin. The frequency of LT enterotoxin production was statistically insignificant compared to the frequency of ST enterotoxin production by strains with serotypes pathogenic for the pigs. Strains of E. coli producing only enterotoxin ST belonged both to the pathogenic serotypes as well as to other hemolytic serotypes. The cytotoxic activity of supernatants of E. coli strains with different serotypes isolated from pigs in Vero and Hela cells and simultaneous CTE in CHO cells was observed. This suggests the production by the strains of enterotoxin LT and cytotoxin VT. Seven out of the 96 isolates showing CTE in CHO cells gave no reaction in the ILT in pigs. This suggests the production by these isolates of a toxin (toxins) differing from the E. coli enterotoxins.