Protein A gold identification of ureaplasmas on the bovine zona pellucida.

The object of this study was to develop a prefixation protein A gold labelling technique for Ureaplasma diversum and to apply this to bovine embryos. Sixteen hour cultures of Ureaplasma diversum strain 2312 were incubated with either specific antiserum or nonimmune serum, followed by exposure to protein A gold and negative staining. The ureaplasmas which were incubated with specific antiserum were labelled with gold particles while those ureaplasmas which were incubated with nonimmune serum were not labelled. Twenty-three unhatched, day 7 bovine embryos were then incubated in either embryo culture medium (ECM) alone, ECM with sterile ureaplasma broth added or ECM with 1.7 X 10(6) colony forming units of Ureaplasma diversum strain 2312 per embryo. After 16 hours, the embryos were washed twice and incubated with either specific antiserum or nonimmune serum. The embryos were then incubated with medium containing protein A gold and examined by electron microscopy. No ureaplasmas were identified on the zona pellucida of the control embryos. Ureaplasmas were identified on the outer surface of the zona pellucida of 13 of the 17 embryos which had been exposed to the organism. Of these, the embryos which were incubated with specific antiserum had labelled ureaplasmas while the embryos which were incubated with nonimmune serum had unlabelled ureaplasmas on the zona pellucida. It was concluded that the protein A gold method was a suitable technique for the identification of ureaplasmas in EM preparations. The presence of ureaplasmas on the outer surface of the bovine zona pellucida following in vitro exposure to the organism was confirmed.(ABSTRACT TRUNCATED AT 250 WORDS)     

Susceptibility of bovine naked 2- and 4-cell embryos and hatched blastocysts produced in vitro to infection with noncytopathogenic bovine viral diarrhea virus.

To investigate the susceptibility of early bovine embryos to noncytopathogenic bovine viral diarrhea virus (NCP BVDV), 2- and 4-cell embryos produced in vitro from which zona pellucida had been removed by pronase treatment, and hatched blastocysts were exposed to 10(6) TCID50/m/ of NCP BVDV No. 12 strain. The virus was detected in all embryo samples immediately prior to cultivation but not in the medium. After 24-hr culture, the virus was isolated from four media and two embryo samples in four experiments in the blastocyst group, and the viral antigen was demonstrated in the cytoplasm of the embryo cells by the immunofluorescent technique. By contrast, no virus was recovered from, or viral antigen detected in samples from the 2- and 4-cell embryo group in any of the experiments, even though they were exposed to the virus after removal of the zona pellucida. These findings suggest that 2- and 4-cell embryos are unlikely to be susceptible to NCP BVDV, but that blastocysts are capable of being infected with the virus. hatched blastocyst, noncytopathogenic bovine viral diarrhea virus.     

Resistance of preimplantation bovine embryos to infection with Brucella abortus

Preimplantation bovine embryos were exposed in vitro to Brucella abortus to determine if the bacteria would adhere to zona pellucida (ZP)-intact embryos or adhere to or infect ZP-free embryos. Brucella abortus was not isolated from ZP-intact or ZP-free groups of embryos after 10 sequential antibiotic-free washings. Brucella abortus was isolated from all groups containing ZP-defective embryos after the exposure period and washing. Detrimental effects on healthy in vitro development of embryos were not observed.     

Experimental transmission of bovine viral diseases by insemination with contaminated semen or during embryo transfer

Three experimental approaches were used to study transmission of blue tongue (BT), infectious bovine rhinotracheitis (IBR) and bovine virus diarrhoea (BVD) viruses. These were insemination with contaminated semen, experimental infection of embryo donor cows, or transfer of embryos experimentally exposed to virus in vitro to normal recipients. Parameters assessed included number and quality of embryos produced, virus detection (isolation and electron microscopy), serology and histopathology. All superovulated sesceptible cows inseminated with semen containing blue tongue virus (BTV) (n = 2) or infectious bovine rhinotracheitis virus (IBRV) (n = 2) became infected. One cow inseminated with semen containing BTV produced seven virus-free seven-day-old embryos; the second cow failed to produce any embryos. One of two cows inseminated with semen containing IBRV produced two underdeveloped, virus-free embryos while no embryos were produced by the second cow. One of two cows inseminated with semen containing bovine viral diarrhoea virus (BVDV) became infected. Two poorly developed, virus-free seven-day-old embryos were recovered from one of these cows. Superovulated susceptible cows inoculated either intramuscularly with BTV (n = 3) or intranasally with IBR virus (n = 2) became infected. Virus was isolated from some tissues of two BTV-infected cows, neither of which produced embryos. A third BTV-infected cow produced two virus-free embryos collected at necropsy five days after inoculation. One of two cows experimentally infected with IBR virus, produced three embryos but virus was not detected either by electron microscopy (1 embryo) or in cell culture by cytopathic alterations (1 embryo).(ABSTRACT TRUNCATED AT 400 WORDS)     

The effectiveness of trypsin treatment to remove Sendai virus adhering to the zona pellucida of mouse preimplantation embryos.

The standard washing and trypsin treatment procedures to remove viruses adhering to the zona pellucida (ZP) were evaluated. Mouse embryos at the early blastocyst stage were exposed to Sendai virus, and then washed or treated with trypsin. Even after washing or trypsin treatment, Sendai virus was detected in the twelfth and final wash. The virus was still shown to adhere to the ZP by immunofluorescence assay. The embryos developed into expanded blastocysts following 24 hours of in vitro culture. Viral antigen was clearly demonstrated in the cells forming the expanded blastocysts, indicating that viral replication occurred in these cells. The present results suggest that the standard washing or trypsin treatment are not sufficient to remove Sendai virus adhering to the ZP of mouse embryos.     

Adherence of bovine viral diarrhea virus to bovine oocytes and embryos with a hardened zona pellucida cultured in vitro

The purpose of this study was to investigate the adherence of bovine viral diarrhea virus (BVDV) to bovine mature, or immature, cumulus-free oocytes and to in vitro fertilized embryos, maintained in vitro in a ligated bovine oviduct to allow for the hardening of the zona pellucida. Incubation of the oocytes and embryos in the oviduct for 5 h caused hardening of the zona pellucida as measured by resistance to pronase digestion (which increased from approximately 3 min to 7 h; P >0.001). However, there was no difference between the number of infected oocytes and embryos (n = 965 in 193 samples) following experimental exposure to BVDV regardless of whether or not they were previously incubated in the oviduct (P > 0.05). It was concluded that the modification of the proteolytic resistance properties of the zona pellucida during in vitro oviductal incubation did not influence the adherence of BVDV to zona pellucida of oocytes or in vitro fertilized embryos.     

Leptospira borgpetersenii serovar hardjo type hardjobovis in bovine embryos fertilized in vitro.

The association of Leptospira borgpetersenii serovar hardjo type hardjobovis with bovine embryos produced by in vitro fertilization was examined by scanning electron microscopy (SEM) and transmission electron microscopy (TEM). Morula stage embryos with an intact zona pellucida (ZP) were exposed to this spirochete for 24 h in culture medium, washed by the standard washing procedure as recommended by the International Embryo Transfer Society, and then examined. SEM showed typical helicoid leptospires on the surface and in the pores of the ZP. TEM showed cross and longitudinal sections of leptospires in the matrix and channels of the ZP, in the perivitelline and intercellular spaces, on the vitellus and in the embryonic cells. Some of the embryos that were penetrated showed damage to the membranes and the cytoplasm. The ineffectiveness of the washing procedure, for the removal of hardjobovis from exposed embryos may be of importance to the industry.     

Uterine tubal cells remain uninfected after culture with in vitro-produced embryos exposed to bovine viral diarrhea virus

Bovine viral diarrhea virus (BVDV) has been isolated from washed and sonicated, in vitro-produced embryos, but the infectivity of BVDV associated with intact, developing, embryos has not been demonstrated. The objective of this study was to determine if a dose of BVDV infective for co-culture cells was associated with individual, developing embryos, following artificial exposure to the virus and washing. In 5 replicates, zona pellucida-intact, in vitro-produced embryos were assigned to a negative control embryo group, or were incubated in 10(5)-10(6) cell culture infective doses (50%, CCID50) per milliliter of a type I, noncytopathic (strain SD-1) BVDV for 2 h. Unexposed negative control embryos and exposed positive control embryos were washed, sonicated and assayed for BVDV using virus isolation with immunoperoxidase monolayer assay. Immediately or following cryopreservation, remaining virally-exposed, washed embryos were co-cultured individually with BVDV-negative cultures of bovine uterine tubal cells in a medium free of BVDV-neutralizing activity. After two days in culture, uterine tubal cells and embryos (including the zona pellucida) were separated and washed. The culture medium, uterine tubal cells and embryos were then assayed for BVDV. Bovine viral diarrhea virus was not isolated from any negative control embryo group, but was isolated from all positive control embryo groups. Although all uterine tubal cell populations were confirmed to be susceptible to BVDV, virus was never isolated from uterine tubal cells or embryos from post-exposure culture. In conclusion, although BVDV remains associated with washed in vitro-produced embryos, the virus associated with unsonicated embryos was not infective for uterine tubal cells in vitro.     

Interaction of bluetongue virus with preimplantation embryos from mice and cattle

Preimplantation embryos from mice and cattle were exposed to bluetongue virus in vitro to determine whether the virus would replicate in these early embryos and, if so, what pathologic consequences would ensue. A high proportion of zona pellucida-free, 2-cell embryos and morulae from mice, and morulae from cattle became infected. The infection was rapidly cytopathic in embryos from both species. Indirect immunofluorescence was used to demonstrate accumulation of virus antigen in the blastomeres of these embryos. The zona pellucida of both murine and bovine embryos provided effective protection from virus present in culture fluid.     

Adherence of Haemophilus somnus to bovine embryos after in vitro exposure

Preimplantation bovine embryos were exposed in vitro to Haemophilus somnus to determine whether the bacteria would adhere to zona pellucida-intact embryos or would adhere to or infect zona pellucida-free embryos. The effect of H somnus on in vitro embryonic development also was investigated. After exposure to H somnus and before washing, some of the zona pellucida-intact embryos were held in antibiotic-containing medium. Haemophilus somnus was isolated from 10 to 42 zona pellucida-intact embryos and none of the zona pellucida-free embryos. Haemophilus somnus was not recovered from any of the 32 antibiotic-treated embryos. The coculture system was not compatible with normal embryonic development, and all embryos had begun to degenerate by the end of the 18-hour exposure period.     

Trypsin treatment of bovine ova after in vitro exposure to vesicular stomatitis virus

Preimplantation bovine ova were exposed in vitro to vesicular stomatitis virus, Indiana serotype, to document adherence of the virus to the zona pellucida. To determine the efficacy of this treatment, some of the ova were treated with trypsin after exposure to the virus. Vesicular stomatitis virus was isolated from 5 of 10 groups of zona pellucida-intact ova after 12 sequential washes without trypsin treatment. Vesicular stomatitis virus was also isolated from 4 of 11 groups of zona pellucida-intact ova after trypsin treatment.     

Serological survey of viral antibodies in llamas (Lama glama) in Argentina.

This study analysed sera from 390 llamas (Lama glama) from nine farms located in three different Argentine provinces: Buenos Aires, Cordoba and Jujuy. The samples were tested for antibodies against 8 virus known to infect cattle: bovine herpesvirus type 1 (BHV-1), bovine viral diarrhea virus (BVDV), bovine adenovirus (BAdV III), bovine enterovirus (BEV), bovine rotavirus (BRV), bluetongue virus (BTV), bovine leukaemia virus (BLV), and foot-and-mouth virus (FMDV) by conventional methods such as seroneutralization, immunoperoxidase staining, and agar gel immunodiffusion. The antibody prevalences detected in llamas were: BHV-1 in 0.77% (3/390), BVDV in 2.05% (8/390), BAdV III in 5.13% (20/390), BEV in 4.10% (16/390), BRV in 87.69% (342/390). No antibodies against BTV, BLV and VIAA (FMDV infection associated antigen) were detected.     

Relationship between plasminogen activator production and bovine embryo development in vitro

The relationship of plasminogen activator (PA) production to cell stage, cell number and changes in overall diameter and zona pellucida thickness for bovine embryos developing in vitro was determined. Late morulae to blastocysts (n = 80) were collected nonsurgically from naturally mated, estrous-synchronized, superovulated crossbred beef cows. Embryos were cultured, one embryo per 25-microliters microdrop, for 6 d. At 24-h intervals, embryos were evaluated for stage of development and transferred to fresh microdrops; media were recovered for PA analysis. In addition, embryo diameter and zona pellucida thickness were measured with an ocular micrometer. Plasminogen activator production was determined using a caseinolytic assay with urokinase as the standard. Changes in diameter, zona pellucida thickness and PA production per 24-h interval for each embryo were plotted, and the graphs were cut out and weighed. Sixty-one embryos (76%) completed the hatching process. Total PA production was correlated positively (P less than .005) to embryonic size (r = .40), developmental stage (r = .35) and cell number (r = .35) and negatively, but weakly, correlated to zona pellucida thickness (r = -.13; P = .267). Hatched embryos produced more total PA than embryos that did not hatch (.140 +/- .011 vs .070 +/- .019 g; P less than .01). These results suggest that as embryonic size and cell number increase and development progresses, bovine embryos liberate more PA.     

Bovine Immunodeficiency Virus in Relation to Embryos Fertilized In Vitro

The association of bovine immunodeficiency virus (BIV) with embryos derived by in vitro fertilization from oocytes of experimentally infected heifers or oocytes/embryos exposed to the virus in vitro was investigated. Using a nested-PCR assay, proviral DNA of BIV was not detected in follicular fluid or in embryos derived from BIV-infected donors. In vitro exposure of oocytes to BIV during maturation or insemination with BIV-infected semen resulted in zona pellucida-intact embryos testing negative for BIV provirus. However, exposure of zona pellucida-free day-7 embryos to the virus resulted in a positive BIV assay for 28% of the batches of embryos, suggesting that the zona pellucida has a role in protecting against BIV infection. The presence of BIV in the IVF system had no apparent effect on the development of bovine embryos to the blastocyst stage.     

Serological Survey of Viral Antibodies in Llamas (Lama glama) in Argentina

This study analysed sera from 390 llamas (Lama glama) from nine farms located in three different Argentine provinces: Buenos Aires, Cordoba and Jujuy. The samples were tested for antibodies against 8 virus known to infect cattle: bovine herpesvirus type 1 (BHV-1), bovine viral diarrhea virus (BVDV), bovine adenovirus (BAdV III), bovine enterovirus (BEV), bovine rotavirus (BRV), bluetongue virus (BTV), bovine leukaemia virus (BLV), and foot-and-mouth virus (FMDV) by conventional methods such as seroneutralization, immunoperoxidase staining, and agar gel immunodiffusion. The antibody prevalences detected in llamas were: BHV-1 in 0.77 % (3/390), BVDV in 2.05 % (8/390), BAdV III in 5.13 % (20/390), BEV in 4.10 % (16/390), BRV in 87.69 % (342/390). No antibodies against BTV, BLV and VIAA (FMDV infection associated antigen) were detected.     

4种动物虫媒病病毒多重RT-PCR检测方法的建立

分别设计和合成4对特异性引物,通过对反应条件的优化,初步建立了鉴别蓝舌病病毒(BTV)、鹿流行性出血病病毒(EHDV)、水疱性口炎病毒(VSV)和赤羽病病毒(AKV)的多重RT-PCR检测方法,并对其特异性和敏感性进行了检测。结果表明,所设计的4对引物可对同一样品中的VSV、BTV、EHDV和AKV进行特异性扩增,所扩增的目的片段的长度分别为301、351、537、250bp。建立的四重RT-PCR检测方法能够检测出10-7稀释的细胞培养病毒液,4种病毒之间没有发生交叉反应,说明该检测方法特异性强,敏感性较高。所建立的多重RT-PCR方法可用于上述4种动物虫媒病病毒的快速鉴别诊断,在动物检疫、临床诊断和流行病学调查方面具有较好的应用前景。     

Infection of early bovine embryos with bovine herpesvirus-1

Recently hatched bovine embryos were exposed in vitro to 1 of 4 strains of bovine herpesvirus-1 to determine whether the viruses would replicate in these embryos and, if so, what pathologic consequences would ensue. Exposure to each of the viruses resulted in embryonic infection and death, and replication of the agents was demonstrated by electron microscopy and titration of progeny virus. There were no dramatic differences between virus strains in pathogenicity or in the ultrastructural pathologic findings of infection.     

Transfer of bovine demi-embryos with and without the zona pellucida

Bisected bovine embryos with or without the zona pellucida were transferred to recipients nonsurgically in five field trials. Embryos were collected from superovulated donors 6.5 to 7.5 d after estrus; only embryos of good and excellent quality were bisected. Demi-embryos were transferred either within a zona pellucida, without a zona pellucida, without a zona pellucida, or in the third and fourth trials, without a zona but embedded in 7% gelatin. Pregnancies were diagnosed at 44 to 68 d of gestation. In a preliminary trial, 9/29 zona pellucida-intact demi-embryos developed into fetuses compared with 1/10 zona pellucida-free demi-embryos (P greater than .1). The proportion of zona-free demi-embryos developing to fetuses was not significantly different from the zona-intact group in the second trial either, 24/49 and 5/19, respectively. In trial 3, the proportion of zona pellucida-free demi-embryos developing was 8/25; of zona-enclosed embryos, 29/88; and of zona-free demi-embryos embedded in gelatin, 8/22 (P greater than .1). Similarly, in the fourth trial the rate of development of zona-free demi-embryos to fetuses was 5/12, that of zona-enclosed embryos was 32/81, and that of zona-free demi-embryos embedded in gelatin was 3/12 (P greater than .1). In trial 5, survival of zona-enclosed demi-embryos to fetuses was 40/105, and of zona-free demi-embryos, 46/109 (P greater than .1). Except for trial 2, half of the demi-embryos were twinned, one to each uterine horn; twinning did not significantly affect the proportion developing to fetuses for any of the demi-embryo groups. It is concluded that placing post-compaction demi-embryos into the zona pellucida for transfer does not improve pregnancy rates significantly.     

4种重要虫媒病的核酸液相芯片高通量检测方法的建立

为建立可检测鹿流行性出血热病毒(EHDV)、阿卡斑病毒(AKV)、蓝舌病病毒(BTV)和水泡性口炎病毒(VSV)的液相芯片快速检测技术,用DNAStar软件对GenBank中BTV的VP7基因、EHDV的VP7基因、AKV的N基因和VSV的NP基因序列进行序列分析,设计针对这些基因的特异性探针并标记生物素,分别与不同编号的荧光编码微球偶联后再与这些病毒相应基因的PCR产物杂交反应,用液相芯片检测仪(Liquichip 200)检测荧光信号建立了以上4种虫媒病的快速液相芯片检测方法。检测结果显示,该方法具有较好的特异性,偶联特异性探针的微球只与相应的病毒基因的PCR产物反应,而不与其他虫媒病病毒反应;检测灵敏度达到50~100个TCID50。本研究建立了可以同时检测鹿流行性出血热病毒、阿卡斑病毒、蓝舌病病毒和水泡性口炎病毒的快速高通量液相芯片技术,为其他类似病毒的快速高通量检测提供了借鉴和经验。     

Prospects for the use of embryos in the control of disease and the transport of genotypes

Transfer and low temperature storage of embryos are now proven techniques for a number of mammalian species. These techniques are useful in control of disease and in saving genotypes from infected animals. The place of embryos in the epidemiology of disease depends upon whether the causative organism can gain entry to the oocyte before or at fertilisation and on whether the young embryo can be invaded by organisms in the uterine environment. There is little evidence that important live-stock diseases are transmitted via gametes. The zona pellucida surrounding the embryo is an effective barrier against a number of important disease organisms; in some cases the embryo is susceptible once it has hatched from the zona pellucida. It is important therefore in considering the use of embryos in disease control, to ensure that virus is not attached to the surface of the zona pellucida from where it can infect the recipient and/or the embryo after hatching. Washing procedures have been devised together with the use of enzymes and antisera to remove virus from the surface of embryos. Some viruses enter pores and sperm tracks in the zona and removal of these may present a problem. African swine fever virus has been shown to resist removal by treatment with enzymes. There are no guidelines as to the likely interaction between a certain virus and embryos. Therefore each virus of interest must be tested to determine whether it can be transmitted via washed embryos. Nevertheless there are numerous instances of the use of embryo transfer to eradicate a specific disease or to save valuable genetic material from infected animals without transmitting disease.