Prediction of chicken embryo lethality with the avian Escherichia coli traits complement resistance,colicin V production,and presence of the increased serum survival gene cluster (iss)

Differentiating between virulent and avirulent avian Escherichia coli isolates continues to be a problem for poultry diagnostic laboratories and the study of colibacillosis in poultry. The ability of a laboratory to conduct one simple test that correlates with virulence would simplify studies in these areas; however, previous studies have not enabled researchers to establish such a test. In this study, the occurrence of certain phenotypic and genotypic traits purported to contribute to avian E. coli virulence in 20 avian E. coli isolates was correlated with the results of embryo challenge studies. This analysis was undertaken in an effort to determine which trait(s) best identified each avian E. coli isolate as virulent or avirulent. Traits selected were complement resistance, production of colicin V (ColV), motility, type F1 pili expression, presence of the temperature-sensitive hemagglutinin gene (tsh), and presence of the increased serum survival genetic locus (iss). ColV production, complement resistance, and presence of the iss genetic element were the three traits most highly correlated with high embryo lethality. A logistic regression model was used to predict the embryo lethality results on the basis of the most frequent isolate characteristics. Results indicate that ColV, complement resistance, and if are significant predictor variables for the percentage of embryo lethality resulting from challenge with a specific avian E. coli isolate. However, no single trait has the ability to predict virulent isolates 100% of the time. Such results suggest the possibility that the embryo lethality assay may prove to be the one test needed to determine if an avian E. coli isolate is virulent.     

Failure of the Congo red dye uptake test to discriminate between virulent and avirulent avian Escherichia coli.

Twenty avian Escherichia coli isolates from normal and diseased chickens were compared by use of three virulence tests. These tests included the uptake of Congo red dye, an embryo lethality test, and a quantitative microtiter complement resistance test. A direct correlation was seen between the results of the complement resistance test and the embryo lethality test. The results of the Congo red test did not correlate with the two other tests.     

Comparison of the intravenous chicken challenge method with the embryo lethality assay for studies in avian colibacillosis

In previous studies, the embryo lethality assay (ELA) was able to discriminate between virulent and avirulent avian Escherichia coli isolates and to predict percent mortality of the embryos resulting from an isolate based on three traits. The abilities to resist host complement, presence of Colicin V activity, and presence of the increased serum survival gene cluster (iss), were used together in a logistic regression analysis to predict the percentage of embryo deaths resulting from each of 20 avian E. coli isolates used in the ELA. In the present study, the same 20 isolates are used in an intravenous chicken challenge model in an effort to determine whether the ELA could be used to replace chicken challenge studies. Correlations between the mortality and a combination of mortality and morbidity (the survivors at trial termination with lesions suggestive of colibacillosis) and the previous ELA results and with selected isolate traits were performed. Additionally, resulting body weights in surviving chickens were compared between groups. The highest positive correlations were observed between the ELA and the combined mortality/morbidity of the intravenous challenge (r = 0.861, P < 0.0001 for the first ELA challenge, and r = 0.830, P < 0.0001 for the second ELA challenge). The IV challenge combined mortality/morbidity results had the highest correlation coefficients with the presence of iss (r = 0.864, P < 0.0001) and the expression of ColV (r = 0.878, P < 0.0001). The presence of tsh was slightly correlated with mortality (r = 0.465, P = .0389) but demonstrated a higher correlation with the combined mortality and morbidity of the IV challenge (r = 0.558, P = 0.0106). Even though the ELA results in a higher number of nonspecific deaths, the two challenge methods exhibit similar results and a high correlation with each other. Interestingly, some of the isolates showed differences in their ability to cause mortality between the ELA and the IV challenge model. Furthermore, some isolates reflected significant differences in body weights of surviving birds at IV trial termination.     

Comparison of chicken plasma and guinea pig serum in a quantitative microtiter method of determining microbial complement resistance.

A quantitative microtiter method using chicken plasma is described for determining the degree of complement resistance or sensitivity of avian Escherichia coli isolates. Results obtained with the microtiter method using chicken plasma were compred with results obtained using commercially available standardized guinea pig serum as the source of complement. The test organisms consisted of five isolates of E. coli isolated from chickens. Three isolates were from flocks with colisepticemia; one was from a flock with omphalitis; and one isolate was a non-pathogenic control. Data were accumulated from the five avian E. coli isolates incubated at 35 C with either chicken plasma or guinea pig serum and with heat-inactivated chicken plasma or guinea pig serum. The microtiter results of the chicken plasma and guinea pig serum had a statistically positive correlation. The use of commercially available guinea pig serum in the test system will allow for standardization of this method.     

Pathogenicity of Mycoplasma synoviae in chicken embryos.

Pathogenicity of Mycoplasma synoviae (MS) was examined in specific-pathogen-free (SPF) white leghorn chicken embryos. Six isolates of MS were inoculated into 7-day embryos via the yolk sac. Isolates were evaluated for gross and microscopic lesions through 19 days' incubation and for embryo lethality through 20 days' incubation. Isolates in decreasing order of lethality, from lowest to highest 50% embryo lethal dose, were WVU 1853, K1968, K1858, FMT, 92D8034, and F10-2AS. Embryo lethality was consistent with lesion incidence and severity. Embryo lethality did not correlate with previous results regarding pathogenicity of these same six isolates in SPF broiler chickens.     

Complement resistance,as determined by viable count and flow cytometric methods,and its association with the presence of iss and the virulence of avian Escherichia coli

Previous work in our labs has shown that avian Escherichia coli virulence is correlated with resistance to complement. Also, our studies have revealed that the presence of the increased serum survival gene (iss), known to contribute to the complement resistance and virulence of mammalian E. coli, may predict the virulent nature of an avian E. coli isolate. This relationship warrants further research, but further clarification of the relationship among virulence, complement resistance, and iss sequences requires use of complement susceptibility assays. Such assays, unfortunately, are labor-intensive, expensive, and difficult to perform. In the present study, the results of two complement susceptibility assays for 20 E. coli isolates, 10 incriminated in avian colibacillosis and 10 from the intestinal tracts of apparently healthy birds, were compared in an attempt to determine if flow cytometric analysis was a reasonable alternative to a viable count assay. In addition, the virulence of these isolates for chick embryos was determined, and each isolate was examined for the presence of iss using amplification techniques. The flow cytometric method was found to be repeatable for most isolates, and its results showed moderate agreement with those obtained through viable counts. All intestinal isolates of healthy birds proved avirulent using the embryo lethality assay; however, not all isolates from sick birds were demonstrated to be virulent. Possible explanations of these results include that the methods originally used to isolate these organisms failed to detect the illness-inciting strains or that the virulence of these strains had declined following initial isolation. Additionally, we must consider the possibility that the embryo lethality assay of virulence used here might not be sensitive enough to detect differences between these two groups of isolates. Also, it should be noted that virulence assays, such as the one used here, fail to account for predisposing host or environmental conditions, enabling a less virulent isolate to cause disease under natural conditions. Interestingly, the complement resistance of a strain was significantly associated with its lethality in embryos, and iss-containing isolates were significantly more likely than those lacking iss to be classified as complement-resistant and virulent. Such results, at least for this group of avian E. coli, suggest that there is a compelling but imperfect relationship among complement resistance, virulence, and the presence of iss. These results also suggest that the flow cytometric assay may be a reasonable alternative to the viable count method of determining complement resistance.     

The embryo lethality of Escherichia coli isolates and its relationship to various in vitro attributes

Based on the hypothesis that bacteria with minimal embryo lethality might be good candidates for vertical transmission, 103 lactose-positive Escherichia coli isolates were collected from different broiler-related conditions (sources) and analyzed using a variety of in vitro assays: biochemical profiles, sensitivity to antimicrobials, and the presence of plasmids in the 2000- to 16,000-base pair range. The results of these assays were analyzed to determine if they were associated with, or could be used as predictors of, the degree of lethality these isolates produced in 12-day-old embryos. In addition, the in vitro assay results were analyzed to determine if there was any correlation between any particular pair of factors. On the basis of biochemical profiles, the isolates were classified into 17 different groups; however, only a limited number of biochemical reactions separated a majority of the isolates. The isolates varied considerably in the number and size of plasmids they contained and in their sensitivity to the antimicrobials evaluated. The isolates also varied in their ability to kill chicken embryos--killing from 0% to 100% of those inoculated--yet significant differences were detected in lethality based on source and biochemical profile of the isolate. In addition, a predictive model for embryo lethality was constructed and evaluated based on three characteristics of these 103 isolates, namely, their ability to ferment raffinose and sorbose and their sensitivity to gentamicin.     

Relationship between resistance to complement, virulence and outer membrane protein patterns in pathogenic Escherichia coli O2 isolates

To establish a possible relationship between resistance to complement, virulence and outer membrane protein banding patterns, ten E. coli O2 strains isolated from chickens with colibacillosis were studied for: (1) resistance to the bactericidal effect of complement by a quantitative microtiter method, (2) virulence, as determined by chicken lethality test, and (3) outer membrane protein banding patterns yielded by SDS-polyacrylamide gel electrophoresis. The ten isolates were classified into three groups: (1) Group 1, consisting of four isolates showed: (a) high resistance to complement, (b) high virulence, and (c) different pattern between 35 and 40 kDa with a weak peptide band at 35 kDa. (2) Group 2, consisting of one isolate showed: (a) high resistance to complement, (b) low virulence, and (c) a weak peptide band at 35 kDa. (3) Group 3, consisting of five isolates showed: (a) low resistance to complement, (b) low virulence, and (c) identical OMP pattern between 35 and 40 kDa exhibiting a strong peptide band at 35 kDa. The results suggest that high resistance to complement may be necessary but no sufficient for virulence and that OMP banding patterns may be a marker for virulence.     

Characteristics of conjugative R-plasmids from pathogenic avian Escherichia coli.

Three of four virulent avian Escherichia coli isolates transferred a single large molecular-weight R-plasmid to two recipient E. coli strains. Antibiotic resistances transferred included streptomycin (two isolates) and streptomycin-tetracycline-sulfa (one isolate). Production of colicin and siderophores, complement resistance, and embryo lethality present in the virulent isolates were not transferred to recipient organisms. From the results, it appears that the R-plasmids of these virulent avian E. coli are not associated with virulence.     

Development of a one-step strip test for the diagnosis of chicken infectious bursal disease

A rapid diagnostic strip for chicken infectious bursal disease (IBD) was developed based on membrane chromatography using high-affinity monoclonal antibodies directed to chicken infectious bursal disease virus (IBDV). The diagnostic strip has high specificity for detection of chicken IBDV antigen and recognizes a variety of the virus isolates, including virulent and attenuated strains, with no cross-reactivity to other viruses, such as Newcastle disease virus, Marek's disease virus, infectious bronchitis virus, infectious laryngotracheitis virus, and egg-drop-syndrome virus. The results showed that its specificity was highly consistent with the agar-gel precipitation test (AGP). The diagnostic strip detected as low as 800 median egg lethal dose (ELD50) viruses in the IBDV BC6/85-infected sample, which was comparable with AC-ELISA (400 ELD50) and 32 times more sensitive than the AGP test (2.56 x 10(4) ELD50). In experimental infection, IBDV was detected in the bursa as early as 36 hr postinfection with the diagnostic strip before the clinical signs and gross lesions appeared. It takes only 1-2 min to do a strip test to detect chicken IBDV antigen after the specimen is grounded in a whirl pack with finger massage.     

Pathogenicity of infectious laryngotracheitis virus as measured by chicken embryo inoculation

A comparison was made between pathogenicities for chicken embryos of unattenuated and attenuated strains or isolates of infectious laryngotracheitis (ILT) virus. All 11-day-old chicken embryos inoculated with 10(3.0) or 10(4.0) TCID50 of unattenuated strain NS175 via allantoic cavity died within 6 days. On the contrary, no chicken embryos of the same age died when inoculated with the same amount of cell-culture-attenuated isolate C7 in a like manner. The mortality index for chicken embryos (MICE) was obtained by dividing the cumulative number of embryos dying within 7 days by the cumulative number of embryos surviving 7 days. The reliability of the MICE test was confirmed by duplicate and triplicate experiments with strain NS175 and isolate C7. MICE obtained in the experiments with 9 different strains or isolates of ILT virus ranged from 0 to 1, and the values were well correlated with the pathogenicities for chickens. The results from the present work suggest that strains or isolates with MICE less than 0.16 would have low or no pathogenicity for chickens, and those with MICE more than 0.27 would be highly pathogenic. Further studies are needed using additional isolates of ILT virus with varied pathogenicities.     

Chicken embryo lethality assay for determining the virulence of avian Escherichia coli isolates

Multiple isolates of Escherichia coli from clinical cases of colibacillosis and E. coli from the intestinal tracts of normal broilers at slaughter were assayed by the embryo lethality test to determine their virulence. The assay was repeated five times in order to establish reproducibility and determine the statistical parameters of the test. This study showed that the inoculation of approximately 100 colony-forming units in the allantoic cavity of 12-day-old embryos discriminated between virulent and avirulent E. coli isolates. Gross lesions included cranial and skin hemorrhages in addition to encephalomalacia in embryos inoculated with virulent isolates. Abnormalities were observed by microscopic examination of the heart, brain, and liver in embryos inoculated with virulent isolates. Analysis of data indicated that the length of the test should be 4 days. In the virulent group, day 2 postinoculation had the most significant death patterns. Sample size calculations indicated that 11 embryos are sufficient for the assay. On the basis of death rates, isolates considered to be avirulent had an embryo death rate of <10%, moderately or secondary pathogens had a 10%-29% death rate, and virulent isolates had a death rate of >29%. An important aspect of this assay is the accessibility of good-quality fertile embryonated eggs.     

球虫抗药性检测方法评述

抗药性是药物预防鸡球虫病的主要障碍,鸡球虫抗药性的检测方法主要包括笼饲试验法(鸡体测定法)、鸡胚试验法、细胞培养法、聚丙烯酰胺凝胶电泳法、同工酶测定法、PCR测定法等,本文对上述各种检测方法及其判定标准进行了综述.     

Comparison of a quantitative microtiter method, a quantitative automated method, and the plate-count method for determining microbial complement resistance.

A quantitative microtiter method for determining the degree of complement resistance or sensitivity of microorganisms is described. The microtiter method is compared with a quantitative automated system and the standard plate-count technique. Data were accumulated from 30 avian Escherichia coli isolates incubated at 35 C with either chicken plasma or heat-inactivated chicken plasma. Analysis of data generated by the automated system and plate-count techniques resulted in a classification of the microorganisms into three groups: those sensitive to the action of complement; those of intermediate sensitivity to the action of complement; and those resistant to the action of complement. Although the three methods studied did not agree absolutely, there were statistically significant correlations among them.     

Comparison of several challenge models for studies in avian colibacillosis

In previous studies, the embryo lethality assay (ELA) discriminated between virulent and avirulent avian Escherichia coli isolates, and also proved to be highly correlated with mortality and morbidity results of the intravenous (IV) challenge model. In the current study, the same 20 avian E. coli isolates were used in subcutaneous (subQ) and intratracheal (IT) chicken challenge models in order to determine whether the results from the prior ELA challenges and/or the IV challenge model correlate with these models. The correlation observed between the two previous ELA trials and the combined mortality/morbidity percentages of the subQ challenge model were r = 0.792, P > 0.0001 for the first ELA trial and r = 0.738, P = 0.0002 for the second ELA trial. The IV challenge results were more highly correlated with the subQ challenge results (mortality/morbidity comparison, r = 0.894, P < 0.0001). The IV challenge mortality results were slightly correlated (r = 0.4810, P=0.0319) with the IT challenge results. Several of the isolates differed in their ability to produce mortality and/or morbidity with the different challenge models. The mortality/morbidity results of the IV and subQ challenges and the mortality results of the ELA were all positively correlated with the ability of an E. coli isolate to produce Colicin V (ColV) (r = 0.7131, P = 0.0004). The IT mortality results were slightly correlated with the production of ColV (r = 0.455, P = 0.049). The IT challenge results were only slightly correlated with resulting IV mortality and ColV production. Previous results indicate that the ELA correlates extremely well with the IV challenge model. The current study demonstrates that ELA also correlates well with the subQ challenge model. Overall, the conclusion of this study is that the ELA, IV, and subQ challenge models similarly demonstrate the ability to discriminate between virulent and avirulent avian E. coli isolates.     

Studies on the response of ewes to live chlamydiae adapted to chicken embryos or tissue culture.

Ewes infected before gestation with chicken embryo or tissue culture adapted chlamydial strain B-577 were challenge inoculated with the homologous strain at four to 18 weeks of gestation. The ewes responsed with group specific complement fixing antibody titers of 1:8 to 1:256 by the second week after initial infection. A secondary antibody response in the surviving challenge inoculated ewes occurred at the time of lambing and reached titers of 1:32 to 1:256 by the second week after parturition. Group specific complement fixing antibodies did not appear to play a significant role in resistance to chlamydial infection. Ewes infected with the chicken embryo adapted strain B-577 excreted chlamydiae in their feces 60 days after inoculation. However, chlamydiae were not recovered from feces of ewes infected with the tissue culture adapted strain B-577. Placentas of ewes challenge inoculated by the intravenous route were consistently infected. Chlamydiae were recovered from placentas, some fetuses and lambs. In two instances when challenge inoculation was given by the intramuscular route, infection was detected only by the direct fluorescent antibody method.     

天津地区2型猪链球菌的分离鉴定及耐药性分析

为了解天津地区2型猪链球菌的流行及耐药情况,本研究收集该地区部分规模化养猪场疑似猪链球菌病病料317份,通过病原分离培养、染色特性观察、生化试验、PCR扩增等方法进行鉴定,并对分离菌进行致病性及药敏试验。结果从样品中分离鉴定出11株2型猪链球菌。对小鼠的致病力试验结果显示,应用0.5×10⁸ CFU/mL的细菌攻击小鼠,11株2型猪链球菌分离株中有6株具有致死性,其中1株致死率较强,5株致死率较弱。药敏试验结果表明,11株分离菌对9种临床常见药物均表现出很强的耐药性,其中对阿米卡星、四环素和强力霉素耐药性最强,耐药率达到100.00%;且所有分离株均呈多重耐药,其中4个分离株为9重耐药,占36.36%（4/11）。本试验结果表明,天津地区存在2型猪链球菌感染情况,且对多种抗菌药均产生了耐药性,应引起养殖户的高度重视,在防制猪链球菌病时,应有针对性地合理、科学、规范用药和交替用药。     

腺病毒表达鸡GM-CSF及其对鸡骨髓细胞增殖活性的检测

为了方便鸡粒细胞/巨噬细胞集落细胞刺激因子（GM-CSF）作为疫苗佐剂使用,用PCR方法扩增出鸡GM-CSF基因,将其连入人腺病毒穿梭载体pAdTrack-CMV,将重组穿梭载体与腺病毒骨架重组后,获得重组腺病毒骨架载体,线性化后转染293SD细胞,获得能够表达鸡GM-CSF的腺病毒。将获得的重组腺病毒转导鸡成纤维细胞系DF1,细胞培养上清中,可以检测到GM-CSF刺激鸡骨髓细胞活性,为鸡GM-CSF进一步应用奠定了基础。     

鸡病原肠杆菌的鉴定

为明确两起鸡细菌性感染症的病原种类,本研究对11株分离菌进行了形态特征、理化特性等主要表观性状的鉴定,测定了代表菌的16S rRNA基因序列,构建了系统发育树;以代表菌株对健康鸡做人工感染试验,测定其致病作用;对分离菌以琼脂扩散(K-B)法进行对抗菌类药物的敏感性测定.结果表明11株菌7株为阴沟肠杆菌(Enterobacter cloacae),4株为产气肠杆菌(Enterobacter aerogenes).其中所测序的代表菌分离株HQ040619-1的16S rRNA基因序列长度1421 bp(EU073021)、HC050612-1为1449 bp(EU047701)及HC050612-4为1451 bp (EU047702);人工感染试验表明这些分离株均具有较强的致病作用;药物敏感性试验结果显示,在不同分离菌株间的敏感与耐药等差异不明显.     

鸡源绿脓杆菌的分离鉴定及药敏试验

为确诊引起秦皇岛某鸡场细菌性疾病的主要病原菌,分析其耐药情况,为临床用药和治疗提供依据,本试验对送检的病死鸡肝脏中分离得到的4株菌进行形态特征观察、生化鉴定、免疫荧光染色观察、细菌16S rRNA基因PCR扩增与测序分析及药敏试验.结果显示,4株分离菌均为革兰氏阴性、带绿色荧光的短杆菌,PCR扩增出的特异性条带与预期大小相吻合,确定为绿脓杆菌.药敏试验结果显示,分离株对庆大霉素、阿米卡星、大观霉素、头孢他啶、头孢曲松、左氧氟沙星、恩诺沙星、氟苯尼考、多黏菌素B和磷霉素高度敏感,对四环素和强力霉素中度敏感,而对新霉素、头孢噻肟、头孢噻吩、阿莫西林、氨苄西林、红霉素、复方新诺明和磺胺甲氧异唑耐药.提示,该分离菌对常用抗生素耐药情况严重,养殖场应根据药敏试验结果选择敏感药物进行合理用药.