Cellular immune responses of pigs after primary inoculation with porcine respiratory coronavirus or transmissible gastroenteritis virus and challenge with transmissible gastroenteritis virus.

The contribution of cell-mediated immunity to protective immunity against virulent transmissible gastroenteritis virus (TGEV) infection conferred by primary porcine respiratory coronavirus (PRCV) or TGEV exposure was assessed in pigs that were challenged with TGEV 24 days after a primary oronasal inoculation with PRCV or TGEV when 11 days old. PRCV exposure induced partial protection against TGEV challenge in suckling pigs based upon a decreased number of diarrhea cases (42% vs. 90% in age-matched control pigs), limited virus shedding in feces, and increases in virus-neutralizing serum antibody titers; in contrast, all 11-day-old pigs inoculated with TGEV were completely protected after challenge. Weaned pigs were also studied to eliminate any possibility that lactogenic immunity from contact PRCV-exposed sows contributed to protection against TGEV. Once weaned, none of the PRCV-exposed or age-matched control pigs had diarrhea after TGEV challenge; moreover, both groups exhibited less rectal virus shedding than suckling pigs. Vigorous lymphocyte proliferative responses (> 96,000 counts per minute (cpm)) were detected in mononuclear cells prepared from mesenteric (MLN) and bronchial (BLN) lymph nodes of TGEV-primed pigs. Analyses of these responses indicate that virus-specific cell-mediated immune responses correlated with protection against rectal and nasal virus shedding after TGEV challenge. Primary inoculation of 11-day-old pigs with PRCV induced moderate, transient virus-specific lymphocyte proliferation (> 47,000 cpm) in MLN from both suckling and weaned pigs after TGEV challenge. Substantial BLN proliferative responses (> 80,000 cpm) correlated with failure to detect TGEV in nasal secretions from these pigs. Virus-specific lymphocyte proliferation in spleens was delayed in onset and of lower magnitude than that observed in MLN and BLN. Virulent TGEV exposure resulted in increased percentages of T cell subsets, especially in the lamina propria and MLN, mucosa-associated lymphoid tissues in proximity to the primary replication site of TGEV in the small intestine. Our results confirm that PRCV infection primes anti-viral immune responses and, thus, contributes to partial immunity against virulent TGEV challenge.

Immunity to transmissible gastroenteritis virus and porcine respiratory coronavirus infections in swine.

Despite the pioneering efforts to identify correlates of passive immunity to transmissible gastroenteritis virus (TGEV), effective vaccines for the control of TGE in suckling pigs have remained elusive. The initial concept of an enteromammary immunologic axis in monogastrics originated from studies of lactogenic immunity to TGEV in swine. These studies revealed that infection of pregnant swine with virulent TGEV stimulated high titers of SIgA antibodies in milk which correlated with protection of suckling pigs against TGE; parenteral or oral inoculation with live attenuated or killed TGEV vaccines induced mainly IgG antibodies in milk which generally provided poor protection to suckling pigs. The recent appearance of PRCV infections in swine and continuing studies of TGEV infections, present a unique model for further studies of mucosal immunity. Research using these viruses has increased our understanding of the various components of the common mucosal immune system and their interactions. Although the most important consideration in designing an effective vaccine for TGEV is the stimulation of GALT through intestinal virus replication, studies addressing the contribution of BALT to immunity to TGEV and PRCV may provide insights for alternative vaccine approaches. The mechanism by which exposure to PRCV elicits a variable-degree of immunity to TGEV challenge is unknown. Virus replication in the gut or respiratory tract is a major factor affecting the magnitude of the immune response at the respective site and may be necessary for the recruitment of specific immune cells from other mucosal inductive sites, i.e., GALT to BALT and BALT to GALT migration.(ABSTRACT TRUNCATED AT 250 WORDS)

Lymphocyte proliferation responses of pigs inoculated with transmissible gastroenteritis virus or porcine respiratory coronavirus.

Cell-mediated immunity was evaluated in intestinal, respiratory, and systemic lymphoid tissues of pigs exposed when 11 days old to virulent transmissible gastroenteritis virus (TGEV), attenuated TGEV, or porcine respiratory coronavirus (PRCV), 3 antigenically related porcine coronaviruses with distinct enteric and respiratory tissue tropisms. Mononuclear cells were prepared from mesenteric lymph nodes (MLN), bronchial lymph nodes (BLN), and spleens of pigs and tested for virus-specific responses by use of lymphocyte proliferation assays. Vigorous MLN and BLN proliferation responses to virulent TGEV and PRCV, respectively, at postinoculation days 8 to 24 were strongly associated with prior detection of TGEV in rectal swab samples and PRCV in nasal swab samples. Gastrointestinal disease and intestinal virus replication, assessed on the basis of rectal virus shedding, were almost exclusively found in the virulent TGEV-inoculated pigs, even though virulent TGEV and a high dose of attenuated TGEV elicited the highest proliferation responses in MLN. Pigs exposed to PRCV or attenuated TGEV did not have clinical signs of disease, and only 1 pig given a high dose of attenuated TGEV shed virus in feces. Porcine respiratory coronavirus replicated in the respiratory tract after either oronasal or aerosol inoculation of virus and induced strong BLN, but not MLN, proliferation responses. A high dose of attenuated TGEV (4 x 10(8) plaque-forming units) was more effective than a lower dose of attenuated TGEV (7 x 10(6) plaque-forming units) in eliciting significant lymphocyte proliferation in MLN and BLN.(ABSTRACT TRUNCATED AT 250 WORDS)

Contribution of antibody-secreting cells induced in mucosal lymphoid tissues of pigs inoculated with respiratory or enteric strains of coronavirus to immunity against enteric coronavirus challenge.

Two antigenically related porcine coronaviruses, transmissible gastroenteritis virus (TGEV) which infects primarily the intestinal tract and causes severe diarrhea, and porcine respiratory coronavirus (PRCV) which infects the respiratory tract and causes subclinical or mild respiratory infections, presented a unique opportunity to study the interrelationship of gut-(GALT) and bronchus-associated lymphoid tissues (BALT) and their contribution to protective immunity against TGEV infection. Pigs were inoculated oral-nasally with TGEV or with PRCV at eleven days of age and challenged 24 days later with TGEV. All pigs initially given TGEV developed diarrhea and were completely protected against disease upon challenge. In contrast, pigs given PRCV had no clinical disease and shed virus in nasal secretions only; after challenge, 5 of 12 pigs developed diarrhea. Virus-specific IgG and IgA Ab-secreting cells (ASC) were enumerated by ELISPOT in the mesenteric and bronchial lymph nodes, spleens, and gut lamina propria at challenge and various post challenge days. Before challenge, in pigs exposed to TGEV, IgA-ASC in the duodenum and jejunum constituted the major ASC response. Conversely, PRCV-exposed pigs had mainly IgG-ASC in bronchial lymph nodes, with low ASC responses in the gut. After challenge, numbers of IgG-ASC increased rapidly in the gut lamina propria and mesenteric lymph nodes of only PRCV-primed pigs. Our results suggest that virus-specific IgG-ASC precursors derived in BALT of PRCV-primed pigs may migrate to the gut in response to TGEV challenge and contribute to the partial protection observed. The presence of IgA-ASC in the gut lamina propria of TGEV-primed pigs at the time of challenge correlated with complete protection against TGEV challenge. Thus a dichotomy exists in the BALT and GALT ASC responses; immunization via BALT induced a systemic type of response (IgG-ASC) and provided imperfect protection against an enteric pathogen, whereas immunization via GALT induced IgA-ASC and provided complete protection.

Isotype-specific antibody-secreting cells to transmissible gastroenteritis virus and porcine respiratory coronavirus in gut- and bronchus-associated lymphoid tissues of suckling pigs.

Antibody-secreting cells (ASC) were enumerated in gut- and bronchus-associated lymphoid tissues of pigs exposed to three antigenically related coronaviruses: virulent transmissible gastroenteritis virus (TGEV), attenuated TGEV, and porcine respiratory coronavirus (PRCV). Exposure of 11-day-old pigs to virulent TGEV resulted in severe gastroenteritis and virus shedding mainly in feces but also to a limited extent in nasal secretions. PRCV and attenuated TGEV exposure produced no clinical signs and only one pig given a high dose of attenuated TGEV shed virus in feces, but virus was shed from the nasal passages. Nasal virus titers were highest after PRCV inoculation of pigs. Mononuclear cells were isolated from spleens, mesenteric, and bronchial lymph nodes of pigs and assayed for virus-specific IgG and IgA antibody secretion by an enzyme-linked immunospot assay. Virus-specific ASC peaked at postinoculation days 12 to 24 and IgG-ASC outnumbered IgA-ASC in all tissues tested. The greatest numbers of ASC were in mesenteric lymph nodes of virulent TGEV-exposed pigs and in BLN of PRCV-exposed pigs. Attenuated TGEV induced intermediate ASC responses in the gut and respiratory tract. Secondary in vitro ASC responses to inactivated TGEV or PRCV paralleled the primary responses except in BLN where the numbers of memory ASC were high for both TGEV- and PRCV-exposed pigs. We conclude that: 1) a single exposure of pigs to PRCV either oral-nasally or by aerosol leads to potent systemic and bronchus-associated, but not gut-associated, ASC responses; 2) a high dose of attenuated TGEV (4 x 10(8) plaque-forming units) is more effective than PRCV (6 x 10(5) or 2 x 10(8) plaque-forming units) or a lower dose of attenuated TGEV (7 x 10(6) plaque-forming units) in eliciting gut-associated ASC; 3) although virulent and a high dose of attenuated TGEV induce high numbers of ASC in the tissues tested, virulent TGEV induces the most ASC in the gut and IgA-ASC in all lymphoid tissues; and 4) virus replication in the gut or respiratory tract is a major factor affecting the magnitude of an ASC response at that site and may be necessary for the recruitment of IgG- and IgA-ASC and memory cells in large numbers from other mucosal inductive sites. This unique model of mucosal immunity using antigenically related viruses with distinct tissue tropisms may help to clarify interactions of the various components of the common mucosal immune system.

Competition ELISA, using monoclonal antibodies to the transmissible gastroenteritis virus (TGEV) S protein, for serologic differentiation of pigs infected with TGEV or porcine respiratory coronavirus.

Monoclonal antibodies (MAB) to subsite A (25C9) and subsite D (44C11) of the S protein of transmissible gastroenteritis virus (TGEV) were used in a blocking ELISA on fixed TGEV-infected swine testis cells to differentiate sera from pigs experimentally inoculated with either TGEV or porcine respiratory coronavirus (PRCV). Serum samples were obtained from pigs at various intervals from postinoculation day (PID) 0 through at least PID 22 to 40. Eleven-day-old pigs, seronegative for TGEV-neutralizing antibodies at the time of inoculation, were inoculated orally and nasally with either the virulent Miller (M5C) strain or the attenuated Purdue (P115) strain of TGEV, or with the ISU-1 strain of PRCV. Gastroenteritis was observed in 100% of the M5C-TGEV-inoculated pigs; but clinical signs of disease were not observed in either the P115-TGEV- or PRCV-inoculated pigs. Virus-neutralization (VN) antibody titer in sera was determined by use of a plaque-reduction assay. Blocking ELISA antibody titer for subsites A and D was determined from the serum dilution that produced 50% reduction in the absorbance values when it competed with biotinylated MAB 25C9 and 44C11, respectively. In sera from the inoculated pigs, the VN antibody titer began to increase by PID 7 and reached maximum by PID 15 to 16. For pigs inoculated with TGEV M5C, subsite A and subsite D blocking antibody titers in the serum paralleled the VN antibody titer, began to increase after PID 7, and reached maximum by PID 15 to 16.(ABSTRACT TRUNCATED AT 250 WORDS)

Pasteurella multocida and Bordetella bronchiseptica in atrophic rhinitis and pneumonia in swine.

A total of 163 pigs from nine farrow-to-finish herds representing various levels of atrophic rhinitis (AR) were selected for postslaughter examination of AR and pneumonia. Nasal swabs and lungs were cultured for detection of Bordetella bronchiseptica and Pasteurella multocida. Seventy-three pigs were examined at eight weeks of age and 90 contemporaries at six months of age. Mean AR scores were 1.21 and 1.11 for the eight week and six month old pigs, respectively (0 = normal, 3 = severe). In individual pigs increasing AR score was related to increasing pneumonia score in eight week old pigs but not in six month old hogs. In eight week old pigs, B. bronchiseptica and P. multocida were isolated more frequently from pigs with higher AR scores. From nasal swabs of six month old hogs, Bordetella was almost never recovered while Pasteurella was frequently isolated score. Toxigenic type DP. multocida was isolated from nasal cultures of only seven (4%) pigs and from lung cultures of only one pig. Pasteurella was never isolated from lungs of the eight week old pigs and Bordetella never from the six month old hogs. The isolation rate of P. multocida, predominantly type A, from lungs of six month old pigs increased from 11% in grossly normal lungs to 86% in lungs with severe pneumonia. Pigs from one herd free from lesions of AR and pneumonia were also examined; type AP. multocida was isolated from nasal cultures of one of six eight week old pigs. Somatic antigens of P. multocida were determined for 94 nasal and 20 lung isolates. Somatic serovar 3 was found in 93% of the nasal isolates and in all lung isolates.(ABSTRACT TRUNCATED AT 250 WORDS)

Turbinate perimeter ratio as an indicator of conchal atrophy for diagnosis of atrophic rhinitis in pigs.

Transverse sections of snouts from 171 cross-bred (principally Yorkshire X American Landrace) pigs were evaluated for evidence of turbinate atrophy by use of conventional (atrophic rhinitis [AR] score) and morphometric methods. Of the 171 pigs, 35 were clinically normal (AR score, 0), 65 had mild AR (AR score, 1), 41 had moderate AR (AR score, 2), and 30 had severe AR (AR score, 3). Turbinate cross-sectional area (TA) and the ratio of TA to nostril cross-sectional area, called turbinate area ratio (TAR), had the lowest correlations (r = 0.24 to 0.55) with conventional AR score. Among clinically normal pigs, TA was greater in older pigs as expected, but the TAR values also were significantly (P less than 0.0001) different between 15-week-old pigs (55 kg) and 22-week-old pigs (100 kg). Turbinate perimeter and turbinate perimeter ratio (TPR) were not influenced by pig age or source. The TPR values were closely correlated with subjective visual AR scores (r = 0.73), with AR scores derived by measuring the space between the ventral portion of the scroll and the floor of the nasal cavity (r = 0.72), and the actual size of this space in millimeters (r = 0.71). Mean TPR values for pigs assigned visual AR scores of 0, 1, 2, or 3 were 1.54, 1.25, 0.97, and 0.73, respectively. The 95% confidence intervals around these mean TPR values were discreet and did not overlap. Turbinate perimeter ratio, therefore, may be a more reliable morphometric measure of atrophic rhinitis and also provides parametric data suitable for quantitative analysis.

Development of turbinate lesions and nasal colonization by Bordetella bronchiseptica and Pasteurella multocida during long-term exposure of healthy pigs to pigs affected by atrophic rhinitis.

Natural transmission of atrophic rhinitis from pigs from a herd with an endemic atrophic rhinitis problem to pigs from a herd free of atrophic rhinitis was demonstrated. Six replicates each with five pigs from the endemic atrophic rhinitis herd (Group A) and five pigs from the atrophic rhinitis-free herd (Group B) were housed together from 5 wk of age, with each replicate kept in isolation rooms maintained at optimal and controlled environmental conditions. Three replicates each with six pigs/room from the atrophic rhinitis-free herd (Group C), served as nonexposed controls. Group C pigs remained healthy and had no turbinate atrophy at either 10 or 17 wk of study (atrophic rhinitis score = 0 on a 0 to 3 scale). Group A pigs had a mean atrophic rhinitis score of 1.85 +/- 0.84, and group B pigs developed atrophic rhinitis to a mean score of 1.57 +/- 0.70. The isolation rate and quantity of Pasteurella multocida found on nasal swabs was directly related to lesions while those for Bordetella bronchiseptica were inversely related to turbinate atrophy. Of the various types of P. multocida evaluated, nontoxigenic type A and toxigenic type D were both directly related to atrophic rhinitis while nontoxigenic type D strains were not. No toxigenic type A P. multocida strains were isolated.

Studies on equine recurrent uveitis. II: The role of infection with Leptospira interrogans serovar pomona.

An enzyme linked immunosorbent assay was developed for the detection of immunoglobulin class specific antibodies to Leptospira interrogans serovar pomona in the serum and aqueous humor of horses. Serum antibody was also assayed by microscopic agglutination tests. Although higher levels of antibody were found in sera from horses with signs of uveitis, the association was not statistically significant. Antibodies to pomona were detected in the aqueous of 12 eyes from the 101 horses sampled at a slaughterhouse, and in most instances, a comparison of the aqueous/serum antibody level with that of the total aqueous/serum IgG level indicated intraocular antibody synthesis. Antibodies were also found in 4 aqueous (or vitreous) samples out of 9 obtained from horses with clinically documented uveitis and the above comparison again indicated intraocular antibody synthesis. The data point to an important role for pomona as an etiology of equine recurrent uveitis but also emphasize that the initiating cause for this disease is often obscure in that association with leptospirosis cannot be shown in many instances.