Escape from antibody-mediated immune suppression in vitro by delayed-type hypersensitivity reaction (original) (raw)
Related papers
The Journal of Immunology
Six different monoclonal IgG antibodies with specificities for sheep erythrocytes (SRBC) were tested for immunosuppressive ability. Four of them, one IgG3, two IgG2a, and one IgG1, could yield suppression of more than 90% of the anti-SRBC response. The remaining two antibodies, which were both IgG2a, were found to have no significant effect. The degree of suppression correlated well with the amount of antibodies used that could bind to SRBC, as measured by an ELISA assay. High avidity for SRBC was also a factor making the monoclonal antibody more efficient as an immunosuppressor. The response against antigenic determinants on the SRBC other than those for which the monoclonals were specific, was suppressed to an equal degree. This was established by immunizing mice with SRBC using monoclonal anti-SRBC antibodies that did or did not bind to goat RBC (GRBC). The PFC responses against both SRBC and GRBC were then measured. The anti-SRBC and GRBC responses were suppressed in parallel re...
Regulation of the Immune Response
Allergy, 1983
Anti-sheep erythrocyte antibody suppressed the in vitro CBA/H spleen cell immune response to sheep erythrocytes. This suppression required the Fc portion of antibody. Irradiated (500 tad) allogeneic Swiss spleen cells augmented the CBA/H spleen cell immune response to sheep erythroeytes. If antibody was added to cultures 24 hr after initiation of the CBA/H anti-sheep erythrocyte response in the presence of allogeneic cells, the suppression was less than when no allogeneic cells were included. On the other hand, when antibody was added at the start of the cultures rather than 1 day later, the presence of an allogeneic augmentory effect did not induce resistance to antibody feedback. The relation between the nonspeeific T cell factor (s) and antibody feedback is discussed in terms of the Fc-dependent model for antibody-mediated suppression of the B cell response to antigen.
Cellular Immunology, 1985
The direct splenic anti-sheep erythrocyte (anti-SRBC) responses as well as the serum IgG,, IgGzn, IgG2t,, and IgGs anti-SRBC responses of CBA/Cal mice were monitored 4-35 days after immunization with: (1) a suboptimal dose of SRBC, (2) a suboptimal dose of SRBC plus monoclonal IgM anti-SRBC, or (3) a high dose of SRBC. The direct plaque-forming cell (PFC) responses of mice in treatment group 2 were significantly higher than those in group 1 but similar to the responses in group 3. The serum anti-SRBC antibody responses of all IgG sub&sses were significantly enhanced by IgM anti-SRBC and were generally even higher than the responses obtained with high doses of SRBC. The relative proportions of each serum IgG subclass were similar in all three groups. These data suggest that the enhancement of suboptimal anti-SRBC antibody responses by IgM anti-SRBC extends through IgM and all of the IgG subclasses and, further, that the isotype profile in antibody-enhanced responses is similar to that obtained with high doses of SRBC. o 1985 Academic PBS, IX.
Infection and Immunity, 1979
The interdependence of the local and systemic immune systems in the development of the immune responses relating to the lung was evaluated. Hamsters were inoculated with 10 9 sheep erythrocytes (SRBC) via local (intratracheal) or systemic (intravenous) routes of immunization. The local immune response was quantitated by the specific antibody-forming cell (sAFC) response in the pulmonary draining lymph nodes (pdLNC). sAFC in the spleens and serum hemagglutination titers evaluated the systemic immune response. The local inoculation of antigen was superior for induction of the maximal numbers of immunoglobulin M (IgM) and non-IgM sAFC in the pdLNC at 4 days post-immunization. However, the local response coould be enhanced by a concomitant splenic response. The local route of inoculation did not consistently induce an sAFC response in the spleen, but when the spleen was involved, two unique observations were recorded regarding the IgM response: (i) an approximate twofold increase in the...
Modulation of sheep erythrocyte receptor expression by anti-CD4, anti-CD8, and anti-HLA antibodies
Scandinavian journal of immunology, 1988
The modulation of E receptors on T cells by anti-CD4 and/or anti-CD8 is reported. The percentage of E rosette-forming cells (RFC) was decreased when sheep erythrocyte and mononuclear cells were incubated in the presence of monoclonal antibodies anti-CD4 and/or anti-CD8. This inhibition was not due to shedding of the E receptor and it was reversed by 8-Br.-3',5' cyclic guanosine monophosphate (cGMP). In contrast, anti-HLA antibodies induced an enhancement of sheep erythrocyte receptor expression evaluated by RFC.
Cellular Immunology, 1979
Regulation of the transfer of delayed-type hypersensitivity (DTH) reactions to SRBC was studied using two assays. In the systemic transfer, SRBC immune cells were transferred intravenously and the recipient challenged by injecting antigen into the footpad. In the local transfer assay, SRBC immune cells were mixed with antigen before transfer into the footpad of the recipient. These studies utilized BlO.D2 and BlO.BR mice which are congenic strains differing only at H-2 region. DTH reactions can be transferred across H-2 barriers using a local transfer assay. When the immune cells were transferred intravenously or depleted of adherent cells prior to local transfer, DTH reactions cannot be transferred to an H-2 congenic recipient. Spleen cells from naive mice syngeneic to the intravenously transferred cells supply the necessary accessory cell when mixed with the antigen prior to injection into the footpad. This accessory cell may be a macrophage.
Journal of immunology (Baltimore, Md. : 1950), 1987
The expression of an antigen on porcine T lymphocytes detected by murine monoclonal antibody (mAb) 8/1 was investigated by functional studies and dual-parameter immunofluorescence. mAb 8/1 reacts with greater than 95% of thymocytes and in peripheral blood with all T lymphocytes and with cells of the monocyte/macrophage lineage, but not with B cells, erythrocytes, and platelets. Pretreatment of peripheral blood lymphocytes with mAb 8/1 plus complement abrogated the proliferative response in vitro to mitogen, soluble antigen, and MHC determinants. Dual-parameter immunofluorescence revealed that resting porcine T8+ as well as T4+ lymphocytes express the 8/1 antigen, whereas after in vitro activation, cell surface expression of the antigen was low or absent in both T cell subsets. Thus, the 8/1 antigen represents a marker that discriminates between resting and activated T lymphocytes. Distribution and functional criteria indicate that 8/1 represents a novel marker not described before f...
Mycobacterium avium subspecies paratuberculosis (MAP) is the causative agent of Johne's disease (JD), a chronic granulomatous enteritis in ruminants. Understanding the protective immune response following infection is crucial to improve the diagnosis and the development of vaccines against this disease. The goal of this work was to assess whether specific antibodies were able to modulate the macrophage response to MAP infection by evaluating apoptosis and TNF-secretion in an in vitro model. Sera from healthy (n = 2), MAP-infected (n = 3) and lipoarabinomannan (LAM)-immunized (n = 3) bovines were evaluated. LAM was chosen as immunogen due to its relevant role in mycobacterial pathogenesis. We demonstrated by two different techniques (Acridine Orange/Ethidium Bromide microscopy and Annexin V/7-Amino-Actinomycin D flow cytometry) that the immune sera from both, MAP-infected and LAM-immunized bovines, significantly increased macrophage apoptosis in infected cultures. Comparable levels of apo-ptosis were detected when MAP was pre-incubated with purified specific antibodies instead of whole serum. Furthermore, this effect was accompanied by a significantly higher secretion of TNF-. These results strongly suggest that specific antibodies could limit the impact of MAP on the apoptosis of bovine cells. This work would contribute to elucidate the role of the specific antibody response in bovine JD and its prevention.