Humoral and cell-mediated immune response to crude antigens of Dermatophilus congolensis during experimental infection of rabbits.

Rabbits were infected with Dermatophilus congolensis and tested for humoral immune response by indirect haemagglutination and for cell-mediated immune response to crude antigens of D. congolensis. Lymphocyte transformation and macrophage migration inhibition assays were used as in vitro correlates of cell-mediated immune response while cutaneous delayed hypersensitivity was used in vivo. Endo-antigen and whole cell antigen were found to significantly induce cell-mediated immune response. In contrast, humoral responses were found to be more significantly induced by exo-antigen. A biphasic immune response was revealed by the lymphocyte transformation test.     

Cell mediated responses in a porcine enterovirus infection in piglets.

Sixteen pathogen-free piglets were infected orally with procine enterovirus strain T80 and the cell mediated response to the virus was measured at intervals after infection. Five uninfected piglets were used as controls. Indirect macrophage migration inhibition tests were performed with lymphocytes from blood, ileal lamina propria and mesenteric lymph node. Blood lymphocyte culture supernatants showed no consistent T80 specific on macrophage migration, suggesting the absence of a systemic cell-mediated response. Ileal lamina propria lymphocyte culture supernatants showed irregular migration stimulation. The mesenteric lymph node lymphocyte culture supernatants produced migration inhibition at seven days postinfection, followed by stimulation of migration from ten to 22 days postinfection. Subsequently, migration was again inhibited from 24 to 31 days postinfection. Mesenteric lymph node lymphocyte culture supernatants contained only trace amounts of interferon activity at 28 and 31 days postinfection. It was concluded that the cell mediated responses in this infection were weak and localized and not associated with significant antiviral activity.     

A comparison of extracted proteins of isolates of Dermatophilus congolensis by sodium dodecyl sulphate-polyacrylamide gel electrophoresis and Western blotting.

Antigenic diversity within a collection of 18 isolates of Dermatophilus congolensis from different Continents was examined by sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) and by Western blotting with sera from cattle with clinical dermatophilosis using whole cell extracts obtained by three methods and one extract of extracellular products of D. congolensis. One of the methods involving the release of a lysostaphin-solubilized protein (LSP) of whole cells of D. congolensis revealed a number of discrete and easily-identifiable bands in SDS-PAGE which were found suitable for characterizing protein patterns and was, therefore, subsequently used for a comparative analysis of the proteins of all the D. congolensis isolates. Six electropherotypes (ET) of D. congolensis were identified among the 18 isolates using the protein profiles based on the presence of four protein bands at Molecular weights (MW) 62, 28, 17.4 and 16.4 kDa. The ETs were found among isolates from different animal species and from different sources with ET1 consisting of three bovine and two equine isolates; ET2, two bovine and three ovine isolates; ET3, two bovine isolates; ET4, two bovine isolates; ET5, one bovine and one ovine isolates and ET6, two bovine isolates. Immunoblotting of the extracts of D. congolensis isolates with sera from cattle with clinical dermatophilosis infection demonstrated protein bands of MW ranging from 9 kDa to 188 kDa. Sera from chronic dermatophilosis infection demonstrated a 28 kDa protein which was immunodominant in the LSP extracts of all the 18 isolates of D. congolensis tested while sera from mild infections demonstrated mainly the 62 kDa protein in the same extracts. However, many protein bands were demonstrated in surface membrane (TSMP) and extracellular protein extracts with sera from only mildly infected animals. The protein patterns observed in all isolates of D. congolensis revealed global antigenic similarities and distinct differences among isolates which could not be associated with either geographic, climatic or host factors. Also sera from infected animals from endemic regions of dermatophilosis could not differentiate isolates of D. congolensis. This suggests the possibility that such sera must have come from animals that had been infected by a multitude of D. congolensis strains present in the herd environment and strains an animal could have come across during the 'ritual' annual cross-country migration of the cattle herds.     

Inflammatory cell and immune function in Merino sheep with chronic dermatophilosis

Components of inflammatory and immunological responses were compared in 17 Merino sheep with chronic dermatophilosis (Group 1) and 15 Merino sheep that had recovered from the disease (Group 2). The functions studied included: (i) total and differential white cell counts; (ii) phagocytic function and intracellular killing by neutrophils; (iii) humoral immune response to T-dependent and T-independent antigens and to Dermatophilus congolensis. (iv) lymphocyte blastogenic responses to phytohaemagglutinin; (v) bovine serum albumen and D. congolensis antigens; (vi) quantification of T-lymphocyte subsets in skin lesions resulting after re-infection with D. congolensis zoospores. After all lesions were treated and the sheep were shorn, both groups of sheep were re-infected with D. congolensis. Both groups had similar infection rate, severity of lesions and rate of resolution after re-infection. The Group 2 sheep had significantly higher primary and secondary antibody responses to killed Brucella abortus cells than Group 1 sheep, but Group 1 sheep had higher levels of specific D. congolensis antibody throughout the trial. Neutrophils from Group 1 sheep showed a higher phagocytic rate for D. congolensis zoospores than Group 2 sheep when the zoospores were opsonised by sera from the Group 1 sheep, but there was no difference in their ability to kill ingested zoospores. Although there were some differences between the groups in the proportion of lymphocytes in lesions that reacted with monoclonal antibodies to T4, T8 and T19-19 lymphocyte markers at various times after re-infection, the sheep in Group 2 consistently had higher levels of lymphocytes reacting to a monoclonal antibody for the T6 lymphocyte antigen in skin biopsies collected 9, 15 and 21 days post-inoculation (p.i.) than did sheep in Group 1. Group 2 sheep also had higher levels of epidermal cells with immunohistochemical properties of Langerhans cells at lesion sites 15 and 21 days p.i.     

Relationship between chronic ovine dermatophilosis and levels of T6 lymphocyte antigen staining in peripheral blood mononuclear cells.

Quantification of a T6-lymphocyte antigen in peripheral blood mononuclear cells of sheep was used to select 15 from 48 one year old Merino ewes not previously exposed to Dermatophilus congolensis infection. These sheep were compared in response to challenge with D. congolensis zoospores and levels of T-6 lymphocyte antigen in peripheral blood mononuclear cells with 15 Merino ewes of similar age and strain from a different site that had been treated and recovered from chronic dermatophilosis. The T-6 lymphocyte antigen levels were significantly lower in the chronic dermatophilosis sheep and they developed significantly more severe lesions than the selected, previously unexposed sheep despite the former sheep having high serum antibody levels to D. congolensis. Measurement of the fleece characteristics, wax and suint concentration showed no differences between the groups that might have explained the considerable differences in their susceptibility to dermatophilosis.     

Inhibition of Dermatophilus congolensis by substances produced by bacteria found on the skin

Bacteria, isolated from the skins of clinically normal sheep, were tested for inhibitory activity against Dermatophilus congolensis grown in vitro. Out of 85 bacterial isolates, 19, mainly Bacillus spp., showed zones of inhibition when grown together with D. congolensis. The inhibitory activity was shown to be due to the metabolites released by the bacteria.     

Humoral antibody response to glutaraldehyde-treated antigens of Dermatophilus congolensis

Glutaraldehyde-treated whole cell antigens (GA.WcA) of Dermatophilus congolensis induced in guinea pigs immunological memory in contrast to cell wall antigens treated similarly (GA.CwA). However, GA.WcA could not induce a secondary response in animals primed with untreated WcA while GA.CwA on the other hand did stimulate a secondary response in animals primed with untreated CwA. Primary antibody production was induced by both GA.CwA and untreated CwA to a similar level in their respective hosts but it was the secondary response that was found similar in response to GA.WcA and untreated WcA. However, both untreated WcA and CwA induced primary and secondary antibody production in their respective hosts though these responses were considerably higher in guinea pigs given untreated CwA. This study showed that both untreated and GA-treated antigens of D. congolensis are capable of stimulating antibody production in guinea pigs but they differ in their levels of stimulation.     

Humoral antibody response to glutaraldehydetreated antigens of Dermatophilus congolensis

Summary

Glutaraldehyde‐treated whole cell antigens (GA.WcA) of Dermatophilus congolensis induced in guinea pigs immunological memory in contrast to cell wall antigens treated similarly (GA.CwA). However, GA.WcA could not induce a secondary response in animals primed with untreated WcA while GA.CwA on the other hand did stimulate a secondary response in animals primed with untreated CwA. Primary antibody production was induced by both GA.CwA and untreated CwA to a similar level in their respective hosts but it was the secondary response that was found similar in response to GA.WcA and untreated WcA. However, both untreated WcA and CwA induced primary and secondary antibody production in their respective hosts though these responses were considerably higher in guinea pigs given untreated CwA. This study showed that both untreated and GA‐treated antigens of D. congolensis are capable of stimulating antibody production in guinea pigs but they differ in their levels of stimulation.     

Hemolytic interactions of Dermatophilus congolensis.

The strains of Dermatophilus congolensis grew on blood agar with washed sheep erythrocytes with marked total hemolysis. In testing for hemolytic interactions they gave a significant synergistic effect of a characteristic shape with Rhodococcus equi and Streptococcus agalactiae, whereas with Staphylococcus aureus producing beta hemolysin and with Staphylococcus aureus producing delta hemolysin a simultaneous synergistic as well as antagonistic effect were observed. First of all a conspicuous inhibition of in the beta hemolysin zone began and then the hemolytic effect of D. congolensis was enhanced. A similar double reaction was also observed with Listeria ivanovii. With delta hemolysin there was an inhibition of the hemolytic effect of D. congolensis and at the same time a synergistic effect could be observed. Also D. congolensis gave a weak synergistic effect with Micrococcus lylae and Listeria monocytogenes, and a further weak antagonistic effect with alpha hemolysin of Staphylococcus aureus, Staphylococcus hyicus, Staphylococcus chromogenes and Micrococcus luteus. No interaction of D. congolensis was established with Corynebacterium pseudotuberculosis.     

Transmissible gastroenteritis virus antibody production in vitro by porcine peripheral blood leukocytes.

The purpose of this study was to demonstrate the in vitro production of transmissible gastroenteritis virus (TGEV)-specific antibodies by peripheral blood leukocytes (PBL) harvested from piglets infected with TGEV. Piglets were infected with the virulent Purdue strain of TGEV and at intervals postinfection their PBL were cultivated in the presence of TGEV antigen, control antigen or pokeweed mitogen (PWM). The culture supernatants were tested for TGEV antibodies by a fixed cell enzyme immunoassay. Antibodies were never found in the supernatants of unprimed PBL cultures from control piglets, nor in cultures stimulated with control antigen, and antibodies were produced more frequently in response to stimulation of primed PBL with viral antigen than with PWM. In PBL cultures stimulated with viral antigen, TGEV antibodies of the IgG class were produced more frequently than IgA class antibodies. Optimal antibody responses were produced by PBL harvested two weeks after infection and cultivated at a concentration of 10(7) cells/mL for five days.     

Interferon-gamma response of PBMC indicates productive pseudorabies virus (PRV) infection in swine

In Chinese Meishan/German Landrace cross-bred swine F2 generation interferon gamma (IFN-gamma) production by peripheral blood mononuclear cells (PBMC) was determined directly ex vivo at different time points after survival of a virulent pseudorabies virus (PRV) infection. This reactivity was compared with the reactivity of na?ve PBMC. Significant IFN-gamma production was determined in ELISA and ELISPOT only after in vitro PBMC re-stimulation with PRV and not with the closely related bovine herpesvirus BHV-1. The PRV-specific IFN-gamma secretion from re-stimulated PBMC showed high levels 6 days after infection, before the presence of serum antibodies, and it persisted at a high level over a 3 months period. The response of a group of eight piglets infected intranasally with PRV varied. Only two animals showed the expected typical fever response. PRV specific IFN-gamma production by PBMC clearly indicated that infection had occurred. Early significant IFN-gamma production by primed PBMC turned out to be a reliable and specific ex vivo marker for cellular response against productive PRV infection in swine before antibody formation.     

In vitro and in vivo inhibition of Dermatophilus congolensis by coagulase-negative antibiotic-producing staphylococci from pigs

When tested on solid media the growth of 19 Dermatophilus congolensis strains was inhibited by antibiotic-producing staphylococci isolated from pigs. Two strains, D congolensis D11 and D15, which were very sensitive to the producers and caused lesions of dermatophilosis in a mouse model, were further used to investigate the ability of the producers to inhibit lesion formation by the strains of D congolensis. The simultaneous application of the antibiotic-producing staphylococci and D congolensis suppressed formation of the lesions in the mouse.     

Dual infection of a white-tailed deer by Dermatophilus congolensis and Alternaria alternata.

Infection by both Dermatophilus congolensis and Alternaria alternata was found in a 5 1/2-year-old, female white-tailed deer (Odocoileus virginianus). Encrusted lesions characteristic of dermatophilosis were observed on the hocks, flanks, and back. Giemsa-staining of smears of material from beneath the crusts revealed branching filaments, transversely and longitudinally divided into packets of coccoid cells typical of D congolensis. Hyphae morphologically consistent with those of A alternata were found in methenamine-silver- and hematoxylin-and-eosin-stained sections of tissue from the ears, flanks, and back. Nutrient agar cultures inoculated with tissue from an ear and hindlimb of the deer yielded, respectively, A alternata and D congolensis.     

Immune response to haemophilus parahaemolyticus (HP) infection in the pig I. In vitro tests to detect sensitized cells in the blood of infected and vaccinated animals

The in vitro immune response of pigs in herds infected or non-infected with H. parahaemolyticus (HP) was investigated by lymphocyte stimulation and leucocyte migration inhibition tests. The stimulation of pig lymphocytes with HP bacteria has been measured by ³H-thymidine incorporation. The response of the cells seems to be specific, lymphocytes from chronically HP-infected animals showed positive reactions with high frequency, while on the contrary, cells from SPF (specific pathogen free) animals reacted only occasionally to the HP antigens. However, in the leucocyte migration inhibition test the reactions were less specific; the widely occurring H. parasuis bacteria seem to possess antigen(s) which causes cross reactions with HP in this test.Vaccination with HP bacteria induced sensitive lymphocytes in the blood of SPF pigs and an increase of the in vitro lymphocyte reactions in already positive animals.     

Avian Reovirus Induces an Inhibitory Effect on Lymphoproliferation in Chickens

The cellular immune responses of chickens inoculated with the vaccine strain S-1133 and/or a field isolate VA-1 of avian reovirus (ARV) were studied. Both strains of virus caused inhibition of the phytohaemagglutinin (PHA)-induced lymphoproliferative response of peripheral blood mononuclear cells (PBMC) and splenic mononuclear cells (SMC) during the initial stage from day 4 up to day 10 post-inoculation (PI), with a later return to the normal value. The inhibition in the PHA-induced lymphoproliferation of SMC could be partially overcome by depletion of adherent cells. The supernatant of the PHA-stimulated SMC culture was also checked in vitro for the presence of suppressive factor(s) produced in response to ARV infection. The culture supernatant from chickens at day 5 PI caused significant inhibition of the PHA-induced lymphoproliferation of control birds, suggesting the presence of suppressive factor(s). ARV infection also significantly inhibited IL-2 production on day 5. There was a significant increase in nitric oxide production by the splenic mononuclear cells of chickens inoculated with either strain of ARV.     

Strain variation in Dermatophilus congolensis demonstrated by cross-protection studies

Cross-protection studies were conducted with vaccines prepared from two isolates of Dermatophilus congolensis (designated strain 1 and strain 2). The vaccines were prepared as either heat-inactivated, washed, formalized filamentous phase bacterium, mixed with alum as an adjuvant, and inoculated intramuscularly (type A vaccine) or sedimented live filaments inoculated intradermally (type B vaccine). The vaccinated sheep were challenged with D. congolensis zoospores of one or other strain. Challenge sites were observed for the presence and severity of lesions. Serum antibody levels to D. congolensis were monitored after vaccination and challenge. Type A and B vaccines from both strains produced some reduction in the severity of lesions when sheep were challenged with strain 1 but not with strain 2. Unvaccinated control sheep developed more severe and persistent lesions when challenged with strain 2 than controls challenged with strain 1. Serum antibody levels to the type B vaccine prepared from strain 1 were significantly higher (P less than 0.05) than antibody levels to type B vaccine from strain 2. These findings showed there was significant variation in virulence and antigenicity between these two isolates of D. congolensis.     

Cellular responses in the skin of merino sheep to repeated inoculation with Dermatophilus congolensis

The cellular response in the skin of Merino sheep was examined after three successive inoculations with Dermatophilus congolensis. There was a massive neutrophil influx into the infected epidermis and underlying dermis at 4-10 days after the first inoculation. A lymphocyte-macrophage response occurred at 10-12 days, followed by a plasma cell response at 14-38 days. Resolution of skin lesions after the first inoculation corresponded to the time when the plasma cell response in the skin was most intense. A second inoculation with D. congolensis, 70 days after the first, failed to produce skin lesions typical of dermatophilosis. Typical lesions of dermatophilosis did develop after a third inoculation of the same sheep 140 days after the first inoculation, but the lesions resolved in most sheep within 13 days. Dermatophilosis did not develop in some of these sheep at sites inoculated with 100-1000-fold lower infective doses of D. congolensis, whereas control sheep did develop lesions.     

Temporal changes in the populations of immune cells at the site of experimental Dermatophilus congolensis infection in mice and sheep

Abstract The temporal patterns of dermal immune cell influx were compared in mice and sheep, species reputedly resistant and susceptible, respectively, to infection with Dermatophilus congolensis. In both species, the response involved early mast cell degranulation, vasodilatation and an influx of dendritic cells which accumulated and apparently differentiated beneath the infected epidermis. A concomitant dermal invasion by neutrophils and T and B lymphocytes led to epidermal infiltration, particularly by neutrophils and thence to the formation of the surface scab. Hypertrophy of the epidermis also indicates keratinocyte involvement in the host response. The duration of the response, however, was considerably shorter in the mouse (about 5 days) and B cells' were the predominant lymphocyte under and adjacent to the lesion. During the more protracted response in the sheep (> 21 days), T cells, including T19 antigen +γδ T cells, outnumbered B cells. Résumé— Des modifications dans les populations des cellules immunes dans le derme sont comparées chez la souris et le mouton, espèces respectivement résistantes et sensibles à Dermatophilus congolensis. Dans ces deux espèces, la réponse fait intervenir d'abord la dégranulation des mastocytes, la vasodilatation et l'arrivée de cellules dendritiques qui s'accumulent et se différencient apparemment sous l'épiderme infecté. Une invasion concomittente dermique par des neutrophiles, des lymphocytes T et B est observée et aboutit à l'infiltration épidermique, particulièrement par les neutrophiles et pour cette raison, à la formation de croûtes superficielles. L'hypertrophie de l'épiderme indique aussi l'implication du kératinocyte dans la réponse de l'hôte. Cependant, la durée de cette réponse, est bien plus courte chez la souris (environ 5 jours) et les lymphocytes B sont les lymphocytes prédominants, sous-jacents à la lésion. Chez le mouton, la réponse est prolongée (plus de 21 jours) et les lymphocytes T, incluant les lymphocytes CD 19 et γδ surpassent en nombre les lymphocytes B. [Sasiak, A.B., Lloyd, D.H., McEwan Jenkinson, D., Kitson, S., Elder, H. Y. Temporal changes in the populations of immune cells at the site of experimental Dermatophilus congolensis infection in mice and sheep (Particularités de la population cellulaire immunitaire aux sites d'infections expérimentales à Dermatophilus congolensis chez la souris et le mouton). Veterinary Dermatology 1996; 7 : 59–66.] ResumeAn Se compararon los patrones temporales de llegada de células inmunitarias en el ratón y en la oveja, especies consideradas resistentes y susceptibles, respectivamente a la infección por Dermatophilus congolensis. En ambas especies la respuesta implicó degranulación temprana de mastocitos, vasodilatación y llegada de células dendríticas que se acumulaban y aparentemente diferenciaban bajo la epidermis infectada. La invasión dérmica concomitante por netrófilos y linfocitos T y B llevó a una infiltración epidérmica, especialmente por neutrófilos y consecuentemente a la formación de una costra superficial. La hipertrofi de la epidermis también indica la implicación de queratinocitos en la respuesta del huésped. Sin embargo, la duración de la respuesta fue considerablemente más corta en el ratón (unos 5 dias) y los linfocitos B fueron la célula predominante en la zona adyacente a la lesión y debajo de ella. Durante la respuesta más prolongada en la oveja (> 21 días), las células T, incluyendo el antigeno T19, células T γδ, superaban en número las células B. [Sasiak, A.B., Lloyd, D.H., McEwan Jenkinson, D., Kitson, S., Elder, H. Y. Temporal changes in the populations of immune cells at the site of experimental Dermatophilus congolensis infection in mice and sheep (Alteraciones temporales en las poblaciones de celulas inmunitarias en zonas cutaneas de infeccion experimental por Dermatophilus congolensis en raton y en la oveja). Veterinary Dermatology 1996; 7 : 59–66.] Zusammenfassung— Die temporären Muster des Influx dermaler Immunzellen wurden bei Maus und Schaf verglichen, Tierarten, die angeblich resistent und empfänglich speziell für die Infektion mit Dermatophilus congolensis sind. Bei beiden Spezies bezog die Reaktion eine frühe Mastzelldegranulation ein, weiterhin Vasodilatation und einen Influx dendritischer Zellen, die sich unter der infizierten Epidermis anhäuften und offensichtlich differenzierten. Eine begleitende Invasion der Dermis durch Neutrophile, T- und B-Lymphozyten führte zu einer epidermalen Infiltration, besonders durch Neutrophile und von dort an zur Bildung von Oberflächenschorf. Die Hypertrophic der Epidermis zeigt außerdem eine Beteiligung der Keratinozyten bei der Antwort des Wirtstieres. Die Dauer der Reaktion jedoch war bei der Maus beträchtlich kürzer (etwa 5 Tage) und die B-Zellen waren die vorherrschenden Lymphozyten unter und angrenzend an die Läsion. Während der mehr protrahierten Reaktion beim Schaf (> 21 Tage) übertrafen die T-Zellen einschließlich T19-Antigen und gamma-delta-T-Zellen die Anzahl der B-Zellen. [Sasiak, A. B., Lloyd, D. H., McEwan Jenkinson, Kitson, S., Elder, H. Y. Temporal chnges in the populations of immune cells at the site of experimental Dermatophilus congolensis infection in mice and sheep (Temporäre Veränderungen in den Populationen von Immunzellen an der Stelle experimenteller Infektionen mit Dermatophilus congolensis bei Maus und Schaf). Veterinary Dermatology 1996; 7 : 59–66.]     

Effects of various induced local environmental conditions and histopathological studies in experimental Dermatophilus congolensis infection on the bovine skin.

Although localised to the site of inoculation, experimental cutaneous streptothricosis was readily produced on scarified and/or defatted bovine skin infected with nutrient broth cultures of Dermatophilus congolensis. There was no difference in the extent and duration of lesions produced by either method. D congolensis failed to infect intact normal skin. Simulated rainfall and insect bite did not effect spread and production of generalized streptothricosis. On the other hand, localised experimental lesions regressed more rapidly when subjected to simulated rainfall. The histopathological changes were characterised by invasion of hair follicles by the germinating hyphae and mycelia of D gongolensis, accumulation of neutrophilic exudate beneath the infected epidermis, migration of some neutrophils through the epidermis resulting in intra-epidermal microabscess formation and regeneration of new epidermis from follicular sheath epithelium.     

Production and consumption of T cell growth factor by peripheral blood lymphocytes of cattle infected with Taenia saginata

Calves were infected with 25,000 or 50,000 viable eggs of Taenia saginata. Larval numbers ranged between 2077 and 6005. During infection the animals developed leucocytosis, which was mainly due to lymphocytosis. An apparently positive correlation was observed between the lymphocytosis and the in vitro proliferative response of the lymphocytes to antigen prepared from proglottids. Maximal in vitro blast transformation of the cells stimulated with antigen occurred on Days 12 and 32 post-infection (p.i.). Specific antibodies to T. saginata were demonstrated on Day 14 p.i. At that time, the proliferative response of the cells paralleled the formation of specific antibodies, particularly of the IgG class. The stimulated cells produced a lymphokine showing interleukin 2 (IL 2)-like activity, since the addition of supernatant of such cells to IL 2-dependent concanavalin A (Con A)-blast cells supported the in vitro growth of the cells. In addition, peripheral blood lymphocytes (PBL) specific for T. saginata could be maintained in long-term cultures when they were cultured in medium containing supernatants of MLA-144 cell lines. The data presented in this study indicate that cells specific for T. saginata produced and consumed T cell growth factor (TCGF).