J.M. Aynaud

Natural infection with the porcine respiratory coronavirus induces protective lactogenic immunity against transmissible gastroenteritis

Abstract Our objective was to evaluate the level of passive protection against transmissible gastroenteritis (TGE) among 57 newborn piglets nursing from seven seropositive sows previously naturally infected with porcine respiratory coronavirus (PRCV). After challenge exposure we observed mortality rates of 44% for litters of seven PRCV-infected sows, 40% for litters of four sows orally immunized with the attenuated TGEV strain Nouzilly, and 91% for litters of seven seronegative susceptible sows. A blocking ELISA with two appropriate monoclonal antibodies distinguished serological responses of PRCV-infected sows from those of TGEV-immunized sows. The results suggest that natural infection of the sow with PRCV may induce a degree of protective lactogenic immunity against TGE.

Neutralizing secretory IgA and IgG do not inhibit attachment of transmissible gastroenteritis virus.

Secretory IgA (sIgA) and IgG from porcine milk and serum, respectively, [3H]uridine-labelled virus, swine testis and pig kidney cell lines were used to examine the neutralized virus-cell interaction. Transmissible gastroenteritis virus (TGEV), 99.99% neutralized by immunoglobulin, was able to attach to the cells. Moreover, sIgA enhanced virus attachment. However, the neutralized virus was unable to enter cells, as demonstrated by the action of proteinase K which removed it from the cell surface. It was also found that pre-attached virus was still neutralizable and that IgG and sIgA had similar TGEV-neutralizing capacities.

Étude comparée de trois souches du coronavirus de la gastroentérite transmissible: Conditions de la réplicationvirale et de la synthèse des antigènes structuraux

Summary Purdue-115 and D-52 strains of TGEV were compared with the 188-SG strain, which was obtained by means of a survivor selection process in gastric juice of adult pig. The 188-SG strain was characterized by (a) low infectivity, (b) delayed and restricted growth associated with low and delayed RNA synthesis, and (c) a high content of structural antigens. In contrast, Purdue-115 and D-52 strains were characterized by (a) high infectivity, and (b) a normal pattern of virus replication and RNA and structural antigen synthesis. Tunicamycin induced the inhibition of synthesis of El and E2 glycoproteins (detected by the ELISA test using monoclonal and polyclonal antibodies) as well as a significant reduction in the NP protein. The inhibitory effect of tunicamycin was influenced by the cell type and virus strain.

Lactogenic immunity to transmissible gastroenteritis (TGE) of swine induced by the attenuated Nouzilly strain of TGE virus: passive protection of piglets and detection of serum and milk antibody classes by ELISA.

Abstract Piglets of eight sows vaccinated by different routes with the attenuated TGE mutant coronavirus, Nouzilly (N) strain, and piglets from two field seropositive sows were challenged with a virulent TGE strain. On the day of challenge and 10 days after challenge, milk and serum samples from sows were analysed for their level of neutralizing antibodies, total immunoglobulin classes and TGE antibody classes by an ELISA. No direct relationship was seen between the level of protection of the litters and the titres of the different antibody classes on the day of challenge. However, an inverse correlation was seen 10 days after challenge between protection and the level of TGE antibodies.

Transmissible gastroenteritis (TGE) of swine: In vitro virus attachment and effects of polyanions and polycations

Abstract Four transmissible gastroenteritis virus (TGEV) strains (Purdue-115, D-52, 188-SG and Gep-II) and two cell lines (swine testis-ST and pig kidney-RPD) were used to study virus attachment and cell susceptibility. Virus attachment was partially thermodependent and the rate varied, depending on the strain. Identical TGEV inocula produced a higher plaque number by plaque assay in the swine testis cell line (ST) than in the pig kidney cell line (RPD) but [3H]uridine-labèlled virus was found associated equally well with both cell lines. A field TGEV strain (Gep-II), which was unable to multiply in cell cultures, appeared able to inhibit the attachment of radiolabelled cell-passaged virus. Therefore, the susceptibility to TGEV infection was apparently not determined at the virus-to-cell attachment stage. The attachment sites on the cell surface were specific, however, differences in TGEV attachment determinant between strains were not observed. Attachment of all the virus strains tested was enhanced by DEAE-dextran and inhibited by dextran sulfate, poly-L-lysine (PLL), poly-L-α-ornithine (PLO) and protamine sulfate.

Induction of lactogenic immunity to transmissible gastroneteritis virus of swine using an attenuated coronavirus mutant able to survive in the physicochemical environment of the digestive tract

Abstract A trasmissible gastroenteritis (TGE) coronavirus mutant (188-SG), selected as attenuated and resistant to acidity and proteases of the digestive tract of adult pigs, was used as vaccine (“Nouzilly strain”) in sows to protect suckling piglets against a challenge exposure carried out with a higly virulent TGEV strain. The pregnant sows were immunized once (42–49 days before farrowing) or twice (42–49 and 7–15 days before farrowing) by the oral, intramuscular or conjunctival route with the 188-SG strain. Sows exposed to virulent TGEV in the field and experimentally infected sows (two oral inoculations during pregnancy) were used as positive controls leading to high protection. The neutralizing antibody response to vaccination and/or infection was studied in serum and milk. No protection against mortality was observed in the litters of (1) the nine seronegative, susceptible sows, with piglet mortality of 65/70, (2) the seven once orally vaccinated sows, with mortality of 44/54, (3) the seven sows vaccinated twice by the conjunctival route, with mortality of 55/76. Moderate protection was observed in (1) the eight sows vaccinated intramuscularly twice with piglet mortality of 36/90, (2) the seven orally and intramuscularly vaccinated sows with piglet mortality of 31/51. In contrast, improved protection was observed in (1) the 10 sows vaccinated twice orally, with piglet mortality of 23/95, (2) the four naturally infected sows with piglet mortality of 6/41, (3) the six sows experimentally infected with virulent TGEV with piglet mortality of 1/59. No correlation was found between neutralizing antibodies titers in serum and milk and protection rate of the piglets. The results indicate that relative protective lactogenic immunity against TGEV is induced only by repeated ingestion of -SG attenuated 188-SG strain of TGEV.

Effect of deoxycholate, amphotericin B and fongizone on transmissible gastroenteritis coronavirus

Summary At a concentration of 2 μg/ml, neither amphotericin B nor deoxycholate had an inactivating effect upon transmissible gastroenteritis Coronavirus in-fectivity. However, amphothericin B stimulated plaque formatin in agarose and facilitated the entry of viral RNA into swine testis cells. The combination of amphotericin B + deoxycholate inactivated virus infectivity and induced a decrease in plaque diameter. Finally, in the presence of these agents, the production of infectious virus and interferon was unchanged.

Effect of TGE coronavirus strains on numbers and Ig-isotope expression of specific antibody-secreting cells from mesenteric lymph node after oral administration

Transmissible gastroenteritis (TGE) is lethal for piglets under two weeks of age but usually results in a transient diarrhea in older pigs (Hooper et al.(1966)). Caused by a coronavirus which preliminary infects intestinal epithelial cells, this swine disease can be used as model for studies on the regulation of the secretory IgA response. It is well established that the majority of IgA antibody-secreting cells (ASC) of the intestinal mucosa, before homing back to the lamina propria, transit through the mesenteric lymph node (MLN) where they undergo a maturation step (Mc Williams et al.(1977); Roux et al.(1981)). Mesenteric cells were isolated from adult pigs 3, 11 or 30 days after oral immunization with either a virulent (GEP-II) or two attenuated (Purdue-115, Nouzilly) strains of coronavirus and were co-cultured with the virus for one week. Responses to TGE virus were measured by enumeration of specific ASC according to the Ig-isotype (ELISASPOT assay) from these mesenteric leukocyte cultures (Berthon et al.(manuscript in preparation)).

Oral immunization of sows against transmissible gastroenteritis using the T.G.E.-coronavirus strain 188-SG

HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L’archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d’enseignement et de recherche français ou étrangers, des laboratoires publics ou privés. Oral immunization of sows against transmissible gastroenteritis using the T.G.E.-coronavirus strain 188-SG J.M. Aynaud, E. Bottreau, A. Brun, T.D. Nguyen, Serge Bernard, P. Bernardet, P. Vannier, H. Salmon