Upper respiratory infection of lactating sows with transmissible gastroenteritis virus following contact exposure to infected piglets.

Ten breeding sows were left in direct contact with their newborn piglets that had been experimentally infected with transmissible gastroenteritis (TGE) virus. All sows became infected with the virus. The sows developed fever and showed mild clinical signs of the disease for a few days. The sows excreted virus in the nasal secretion, feces, and milk during the acute febrile phase of illness. Virus was isolated from the nasal secretion of one sow as early as 20 hours after contact exposure to the infected piglets. At necropsy, the virus was more frequently isolated from the tissues of the upper respiratory tract than from small intestines; this finding indicated that the TGE coronavirus replicated in the upper respiratory tract and induced an acute respiratory infection in susceptible adult swine. Neutralizing antibody was present in the sera 8 sows after 12 to 36 days during the convalescent period. From these results, we conclude that susceptible sows in direct contact with ill piglets can become infected and by excreting virus can serve as a source of TGE virus for other susceptible pigs on the premises.     

Immune response in sows given transmissible gastroenteritis virus or canine coronavirus

Twelve pregnant sows were inoculated oral-nasally 8 weeks before farrowing with attenuated transmissible gastroenteritis virus (TGEV), tissue culture-adapted canine coronavirus (CCV), or fluids from mock-infected culture (controls). A 2nd dose of the same inoculum, one-half oral-nasally and one-half intramammarily, was given 6 weeks later. Neutralizing antibodies for TGEV and CCV were demonstrated in sera, colostrum, and milk whey from the virus-vaccinated sows. Homologous geometric mean neutralizing titers were generally 4-fold higher than were heterologous titers. After challenge exposure of the nursing pigs with virulent TGEV, average morbidity and mortality for the pigs were 81% and 34% (mortality range = 11% to 63%), respectively, in the TGEV-vaccinated group; 83% and 39% (mortality range = 15% to 83%), respectively, in the CCV-vaccinated group; and 97% and 84% (mortality range = 78% to 100%), respectively, in the controls. Seemingly, sera from swine exposed to CCV could test serologically positive for TGEV-neutralizing antibody, and TGEV and CCV share at least 1 common neutralizing determinant that may be involved in protection.     

Mild transmissible gastroenteritis in pigs suckling vaccinated sows

A strain of transmissible gastroenteritis (TGE) virus of low virulence was isolated from 14-day-old pigs suckling sows vaccinated with an attenuated TGE vaccine. Diarrhea developed in suckling pigs approximately 14 days after farrowing in 4 farrowings; however, none of these pigs died from diarrhea. Diarrhea ceased after the 4th farrowing, when vaccination of sows was discontinued. Experimentally, both the field isolate and the vaccine strain were infective and in some instances lethal for 2-day-old pigs exposed orally; however, neither strain was as virulent as the Purdue strain.     

Isolation of transmissible gastroenteritis virus from pharyngeal swabs obtained from sows at slaughter.

A virologic survey was conducted to determine the frequency of transmissible gastroenteritis (TGE) virus infection in farm-raised sows. Pharyngeal swab specimens collected in an abattoir were examined for TGE virus by inoculation onto swine-testes cell culures. The virus was detected in 61 (3%) of a sample of 2,058 Iowa sows after slaughter. All TGE viral isolates, given orally to 2- or 3-day-old pigs, caused acute gastroenteritis and in some cases death. All pigs that recovered from illness had serum antibody to TGE virus.     

Lesions of transmissible gastroenteritis virus infection in experimentally inoculated pigs suckling immunized sows

Intestinal lesions of transmissible gastroenteritis (TGE) virus infection in conventionally reared pigs suckling either nonvaccinated, vaccinated, or previously infected sows were studied by scanning electron microscopy, light microscopy, and immunofluorescent microscopy for TGE viral antigen. Pigs were inoculated with virulent TGE virus when they were 5 or 21 days old and were euthanatized shortly after the onset of diarrhea or 96 hours after inoculation if no diarrhea developed. Pigs inoculated when they were either 5 or 21 days old and suckling nonvaccinated sows developed severe lesions, including swelling and necrosis of enterocytes and severe villus atrophy. Pigs inoculated when they were 5 days old and suckling sows vaccinated with attenuated vaccines developed less-severe villus atrophy, and those suckling sows immunized by exposure to nonattenuated TGE virus developed moderate or no villus atrophy. Pigs inoculated when they were 21 days old and suckling sows vaccinated with attenuated vaccines had severe villus atrophy, whereas those suckling sows immunized by exposure to nonattenuated virus had more-moderate villus lesions. Villus atrophy was inhibited to various degrees in pigs suckling immunized sows, depending in part on the antibody titer in the colostrum and milk.     

Protective effect of immunoglobulins in serum and milk of sows exposed to transmissible gastroenteritis virus.

Experimental exposure of susceptible pregnant sows by various routes to the gut-origin transmissible gastroenteritis virus stimulated production of milk and serum antibodies. These antibodies neutralized the cytopathic effect of transmissible gastroenteritis virus propagated in cell culture. This in vitro neutralizing antibody resided in the IgG and IgA immunoglobulin classes. On the other hand, protection for baby pigs resided in the IgA class of milk immunoglobulin of sows exposed orally or intramammarily but not of sows exposed intramuscularly to the virus.     

Methanol precipitation of transmissible gastroenteritis virus.

Methanol precipitation of transmissible gastroenteritis virus was tested at Ph 4.0, 5.0, 6.0, and 7.0 and at methanol concentrations of 15%, 25%, and 30%. Supernatant and precipitate fractions were tested for complement-fixing and agar-diffusion soluble antigens and plaque-forming units, and were examined by electron microscopy. Virus could be obtained free of detectable agar-diffusion antigens and most of the complement-fixing antigens. Most of the virions were without peplomers after methanol treatment but they retained infectivity.     

猪传染性胃肠炎病毒(TGEV)研究进展

猪传染性胃肠炎 (TGE)是由猪传染性胃肠炎病毒 (TGEV)引起的一种以严重腹泻、呕吐和脱水为临床特征的高度接触性传染病。 TGE首次由Doyle和 Hutchings1 946年在美国报道 ,日本 (1 95 6年 )和英国 (1 95 7年 )先后报道该病 ,这之后欧洲、北美、亚洲等多个国家相继报道发生了 TGE,现已成为一种世界性猪的疾病。我国从 6 0年代起就有TGE的报道 ,近些年来有进一步流行的趋势 ,尤其是冬季和早春寒冷季节常呈地方性暴发流行 ,给养猪业造成极大危害。在 1 984年和 1 986年间 ,欧洲北美等地又报道了一种特别的 TGEV自然缺失变异株 -猪呼吸…     

Clinical evaluation of transmissible gastroenteritis virus vaccines and vaccination procedures for inducing lactogenic immunity in sows

Two federally licensed attenuated live transmissible gastroenteritis (TGE) virus vaccines (an IM vaccine and an oral-IM vaccine) and 1 nonlicensed nonattenuated live TGE virus vaccine were evaluated and compared in sows free of TGE virus-neutralizing antibodies. Litters from the sows were challenge exposed at 3 and 5 days of age, and results were combined according to the vaccine administered to the sows. The survivability of pigs suckling sows vaccinated with the nonattenuated vaccine was significantly (P less than 0.01) greater than that of pigs suckling sows vaccinated with the IM attenuated vaccine, significantly (P less than 0.05) greater than that of pigs suckling sows vaccinated with the oral-IM attenuated vaccine, and significantly (P less than 0.05) greater than that of pigs suckling sows that had not been vaccinated. The differences, however, between survivability of litters from sows vaccinated with the IM attenuated vaccine or the oral-IM attenuated vaccine and that of litters from the sows not vaccinated were not significant (P greater than 0.10). The nonattenuated TGE vaccine, although giving a higher level of protection than the attenuated vaccine, was eventually overwhelmed. Dexamethasone did not increase the incidence of diarrhea, and levamisole did not potentiate the lactogenic immunity in sows after given their first dose of the nonattenuated vaccine. Survivability in litters suckling sows that developed diarrhea after given their first dose of the nonattenuated vaccine was not greater than that in litters suckling sows that did not develop diarrhea. The best results were obtained when 3-day-old suckling pigs were challenge exposed with virulent TGE virus.     

Molecular biology of transmissible gastroenteritis virus

The causative agent (TGEV) of porcine transmissible gastroenteritis belongs to the Coronaviridae, a family of enveloped viruses with a positive, single-stranded RNA genome. Important progress has recently been made concerning the molecular biology of TGEV. The research work of our group has been focused on two main aspects: genome structure and functional domains of the envelope proteins. TGEV genomic RNA is organised into seven regions. The sequence of six of them, i.e. the 3' most 8300 nucleotides, has been established from cDNA clones. Three genes encoding the structural proteins, the peplomer protein E2, the transmembrane protein E1 and the nucleoprotein, have been identified. Additional open reading frames allowed for the prediction of four non-structural polypeptides, the role of which remains to be discovered. The remaining part of the genome (estimated length 20 kb) is thought to encode the polymerase. Expression of TGEV genes involves the production of six subgenomic mRNAs, which together with the virion RNA, form a 3' terminal nested set. The peplomer glycoprotein E2 (220 kDa) is 1431 residues long and highly glycosylated. Several domains were identified, including a C-terminal anchoring region and at least four major antigenic sites, which cluster in the amino half part of the molecule. Two sites containing most of the critical neutralisation determinants are highly conserved among TGEV strains. The glycoprotein E1 (29kDa) is mostly embedded in the membrane and plays a crucial role in the virion architecture. However, a short N-terminal domain protruding out of the particle mediates complement-dependent neutralisation, and induces alpha interferon synthesis, likely through a direct interaction with the lymphocyte membrane.     

Vaccination of pregnant sows against transmissible gastroenteritis with two attenuated virus strains and different inoculation routes

Summary

Two attenuated transmissible gastro‐enteritis (T. G. E.) virus strains were used for vaccination experiments in sows.

Four different experiments were carried out (see Table 1). In each experiment, 9 sows were vaccinated during pregnancy and 3 sows served as controls. They were kept together in one farrowing house. The sows were due to farrow at about the same time. The sows and their litters were challenged shortly after farrowing by exposing 3 piglets of 2 control litters to virulent TGE virus.

The following vaccination schedules were used (see Table 1): twice intramuscularly with TGE‐vac (a commercially available TGE‐vaccine), one oral administration followed by an intramuscular vaccination with an attenuated TGE Purdue (Pu) strain, twice orally with Pu strain in enteric coated capsules, and one direct intra intestinal administration followed by 2 intramuscular vaccinations or 3 intramuscular vaccinations with the Pu strain.

All sows, except most of those treated with enteric coated capsules, seroconverted demonstrably (Table 2). The geometric mean seroneutralization (SN) titer log 2 varied from 4.1 to 7.5 after the first vaccination and from 7.6 to 10 after the second vaccination.

None of the vaccination schedules resulted in an effective lactogenic immunity. The morbidity in the piglets was 100% within 3 to 5 days after challenge. The mortality rate varied from 44 to 80% in litters from vaccinated sows and from 71 to 100% in litters from control sows (see Table 3). Clinical signs were observed in 33,3% of the control sows and in 36% of the vaccinated sows.

No correlation was found between the titer of SN antibodies in the sera of the piglets and their survival rate (Table 4).

A rapid decrease in antibody concentration was observed, during the first week of lactation in milk samples collected from 4 orally and intramuscularly vaccinated sows (Table 5).     

Intrafetal inoculation of swine with transmissible gastroenteritis virus.

Fetuses in 3 sows were inoculated (intramuscularly) with transmissible gastroenteritis (TGE) virus on 95th, 77th, and 74th days of the gestation. At 15, 14, and 37 days later (or days when pigs were obtained by hysterectomy), there was evidence of intestinal localization of virus, with villous atrophy and subsequent repair. All intrafetal-inoculated pigs became serologic-positive for TGE. A noninoculated pig shown to be seropositive for TGE at 15 days of age (after hysterectomy) was resistant to challenge exposure with virulent TGE virus given on the 32nd day, in contrast to 3 seronegative littermates that developed typical disease when challenge exposed.     

Vaccination of pregnant sows against transmissible gastroenteritis with two attenuated virus strains and different inoculation routes

Summary Two attenuated transmissible gastro-enteritis (T. G. E.) virus strains were used for vaccination experiments in sows. Four different experiments were carried out (see Table 1). In each experiment, 9 sows were vaccinated during pregnancy and 3 sows served as controls. They were kept together in one farrowing house. The sows were due to farrow at about the same time. The sows and their litters were challenged shortly after farrowing by exposing 3 piglets of 2 control litters to virulent TGE virus. The following vaccination schedules were used (see Table 1): twice intramuscularly with TGE-vac (a commercially available TGE-vaccine), one oral administration followed by an intramuscular vaccination with an attenuated TGE Purdue (Pu) strain, twice orally with Pu strain in enteric coated capsules, and one direct intra intestinal administration followed by 2 intramuscular vaccinations or 3 intramuscular vaccinations with the Pu strain. All sows, except most of those treated with enteric coated capsules, seroconverted demonstrably (Table 2). The geometric mean seroneutralization (SN) titer log 2 varied from 4.1 to 7.5 after the first vaccination and from 7.6 to 10 after the second vaccination. None of the vaccination schedules resulted in an effective lactogenic immunity. The morbidity in the piglets was 100% within 3 to 5 days after challenge. The mortality rate varied from 44 to 80% in litters from vaccinated sows and from 71 to 100% in litters from control sows (see Table 3). Clinical signs were observed in 33,3% of the control sows and in 36% of the vaccinated sows. No correlation was found between the titer of SN antibodies in the sera of the piglets and their survival rate (Table 4). A rapid decrease in antibody concentration was observed, during the first week of lactation in milk samples collected from 4 orally and intramuscularly vaccinated sows (Table 5).     

Transmissible gastroenteritis in neonatal dogs: experimental intestinal infection with transmissible gastroenteritis virus.

Fourteen neonatal dogs (4 through 11 days of age) were exposed orally to the Purdue strain of transmissible gastroenteritis (TGE) virus, and six dogs of similar age were noninoculated controls. Clinical signs of enteric disease did not develop. Both exposed and control dogs had normal fecal passages and appetite throughout the experiment. Jejunal epithelium from dogs euthanatized at 12, 24, 48, and 96 hours and at 10 days after exposure did not exhibit morphologic alterations detectable by light microscopy. Electron microscopic examination indicated that jejunal epithelial cells contained TGE viral particles as early as 12 hours after dogs were exposed. There were no apparent morphologic alterations or signs of desquamation of virus-infected cells, however. Results of pig transmission studies indicated that viable TGE virus was in jejunal tissue of the dogs as early as 12 hours and as late as 10 days after exposure to the virus.     

猪传染性胃肠炎病毒的诊断研究进展

猪传染性胃肠炎（Swine transmissble gastroenteritis,TGE）是由猪传染性胃肠炎病毒（Swine transmissble gastroenteritis virus,TGEV）引起的主要以2周龄以内的仔猪发生呕吐、严重腹泻和脱水为特征的一种高度接触性病毒传染病。1933年,美国的依利诺斯州就有本病的报道,     

Individual differences in dunging patterns in loose-housed lactating sows

This research investigated individual differences in dunging patterns in loose-housed lactating sows. Farrowing pens were divided into six sectors and in study 1 each sector was given a dung score from 0 (no manure) to 3 (≥2 deposits). There were significant positive correlations between dung score and the weight of manure within sectors. In study 2, pen cleanliness was scored in 24 farrowing pens for loose-housed sows on three consecutive days in weeks 3, 4 and 5 of lactation (9 observations). One-third of the sows received a dung score of 0 for the solid floor area, in seven to nine of the observations. These sows could be categorized as ‘clean’ sows. However, 46% of sows scored 0 in the solid floor area for less than two observations, and these sows could be categorized as ‘dirty’ sows. Overall, older parity sows were ‘cleaner’ than gilts and mid-parity sows.     

Interferon induction in porcine leukocytes with transmissible gastroenteritis virus

Leukocytes were harvested from the peripheral blood, mesenteric lymph node and small intestinal lamina propria from groups of three piglets before, and 1,2 and 3 weeks after infection with virulent transmissible gastroenteritis virus (TGEV) at 2 weeks of age. The donor piglets developed clinical signs of transmissible gastroenteritis which persisted for up to 3 days, and they developed peak serum titres of TGEV-neutralizing antibodies 2 weeks post-infection. The leukocytes were cultured in the presence of pokeweed mitogen (PWM), various dilutions of purified TGEV, or control media for 3 or 5 days, and the culture supernatants were tested for antiviral activity in MDBK cells challenged with vesicular stomatitis virus. The antiviral activity was characterized as porcine interferon (IFN)- or porcine IFN-τ on the basis of its stability at pH 2.0 and neutralization by anti-human IFN- antibodies. Viability of the leukocytes in culture, determined by trypan blue exclusion, was highest for the peripheral blood leukocytes and lowest for the mesenteric lymph node leukocytes. There were no consistent differences in antiviral activity between cultures incubated for 3 or 5 days. Porcine IFN- was found in the supernatants of the leukocyte cultures stimulated with TGEV antigen, harvested before or after infection of the donor piglets with TGEV. Porcine IFN-τ was demonstrated in the supernatants of the leukocyte cultures stimulated with PWM, more frequently when the leukocytes were harvested post-infection. This was the first demonstration of IFN induction in vitro in leukocytes from porcine gut-associated lymphoid tissue.     

猪传染性胃肠炎病毒检测基因芯片的构建

采用PCR扩增制备TGEV的靶基因并进行纯化,对基因芯片的最佳靶基因点样质量浓度、探针质量浓度、杂交温度、杂交时间进行筛选,选择构建检测芯片的最适靶基因,进行基因芯片探针最佳标记方法试验.结果表明,质粒PCR扩增和采用异丙醇沉淀纯化的靶基因质量好,基因芯片最佳靶基因点样质量浓度为200mg/L,最佳探针质量浓度为3 000 μg/L,预杂交时间为1 h,杂交时间为3～6 h,杂交温度为48℃,以S、S3、sM、M、N、ORF7、POL等7个靶基因为构建TGEV检测芯片的最适靶基因,确定了多重PCR扩增标记TGEV探钟的最佳体系,Cy3-dCTP标记浓度为2.5 μmol/L,构建的TGEV检测芯片与标记的混合探针杂交效果好.