Antibodies to guinea pig lymphokines. VII. Reactivity with products of lymphoid and nonlymphoid cells.

It was shown previously, that an antiserum directed against highly purified fractions of migration inhibitory factor inhibits delayed hypersensitivity reactions in vivo and in vitro. Using radiolabeling techniques we determined that the anti-lymphokine serum reacted primarily with three lymphocyte activation products (m.w. 60,000, 45,000, and 30,000) all of which had a similar isoelectric point of 5.2. The cellular origin of this material was investigated. It was found that activated B cells, B leukemia cells (L2C), and growing fibroblasts produced material of a similar m.w. as analyzed on SDS-PAGE. No cross-reaction was found with radiolabeled products of activated murine and human lymph node cells and of SV 40-infected African green monkey kidney cells. The isoelectric point of the reactive material from B cells, leukemia cells, and fibroblasts was determined at 5.2. In addition to material with pI 5.2, lymph node cells also produced material with pI 3.5 to 4.5, which focused at pH 5.0 to 5.4. After neuraminidase treatment macrophage migration inhibitory activity in fibroblast culture supernatants could be absorbed specifically to insolubilized anti-lymphokine antibody. These findings suggests that lymphoid and nonlymphoid cells are capable of producing molecules whose physicochemical and functional properties appear to be identical.     

Blocking of delayed hypersensitivity by humoral antibody in an in vivo mouse transfer assay using sensitized guinea pig cells

Humoral antibody was shown to interfere specifically with the expression of cell-mediated immunity (delayed hypersensitivity) in an in vivo system. Mice that received peritoneal exudate cells obtained from guinea pigs sensitized to 1-chloro-2,4dinitrobenzene (DNCB) exhibited delayed hypersensitivity reactions after challenge with the sensitizing agent. While control groups that received either normal sera, saline, or anti-BSA (bovine serum albumin) in addition to peritoneal exudate cells from sensitized guinea pigs exhibited positive delayed reactons to challenge with DNCB, mice that received anti-DNP (dinitrophenyl group) in addition to the senstized cells were prevented from exhibiting a delayed reaction to DNCB.     

Further evidence for non-T-cell regulation of delayed hypersensitivity in the guinea pig.

The nature of the suppressor activity in the spleens of guinea pigs immunized with dinitrophenyl-bovine γ-globulin in Freund's incomplete adjuvant was investigated. An anti-T-cell serum was prepared in rabbits and, after extensive absorption, showed specific killing for T-lymphocytes. After treatment with this antiserum and complement, spleen cells from animals immunized with the antigen in Freund's complete adjuvant showed marked reduction in ability to transfer sensitivity to normal recipients. However, when immune spleen cells, treated in the same way, were transferred into antigen immunized animals which had been pretreated with cyclophosphamide, the suppressor activity was unaltered. These results confirm earlier impressions that the regulation of delayed hypersensitivity reactions in the guinea pig is normally mediated by non-T-cells.     

Production of an antibody against guinea pig MIF. I. Specificity of the anti-MIF antibody.

An antibody was produced in rabbits against partially purified MIF which was released from the specifically stimulated lymphocytes of tuberculin-hypersensitive guinea pigs. The MIF used as an antigen was fractionated by polyacrylamide gel electrophoresis. The antibody thus prepared was then examined for its specificity for several lymphokines by affinity column chromatography. It was observed that the antibody column adsorbed MIF, but not the other three lymphokines, MCF, NCF, and SRF, indicating a keen specificity of the antibody against MIF.     

Suppression of humoral and delayed hypersensitivity responses by distinct T cell subpopulations.

Immunization of mice with a supraoptimal dose of sheep red blood cells (SRBC) results in splenic T cell populations capable of specifically suppressing recipients' plaque forming cell (PFC) and delayed-type hypersensitivity (DTH) responses to SRBC when tested in an adoptive transfer system. By localization on discontinuous bovine serum albumin (BSA) gradients and relative sensitivity to Cytoxan, two distinct T cell subpopulations suppressing DTH reactivity were identified. One population could not be distinguished from T cells capable of inhibiting direct and indirect PFC responses. However, another population appeared quite distinct and capable of inhibiting DTH, but not PFC responses.     

Studies on delayed hypersensitivity to protein antigen. Induction of delayed hypersensitivity by chemically modified antigen.

it was shown in our previous paper that mice primed with chemically modified bacterial alpha-amylase (BaA), which was neither cross-reactive with anti-BaA antibody nor able to induce a humoral anti-BaA response, developed enhanced responses to a subsequent challenge with native BaA and that the magnitude of the immunological memory was closely related to the priming dose of modified BaA. This paper describes the experimental conditions for induction of delayed hypersensitivity (DH) by modified BaA in relation to the development of immunological memory for antibody response to native BaA. Mice primed with either an intraperitoneal (i.p.) or subcutaneous (s.c.) injection of modified BaA in complete Freunds adjuvant (CFA) developed enhanced anti-BaA as the immunogen and modified BaA as the eliciting antigen, the relationship of anti-BaA responses to a subsequent challenge with BaA. In contrast, when mice were immunized with an s.c. injection of the modified BaA only, a significant level of DH to native BaA could be induced, as measured by the footpad reaction (FPR). The highest degree of DH was observed in mice given 50 micrograms of modified BaA. DH was detectable within 5 days and persisted for 25 days after immunization. In the reciprocal combination of native BaA as the immunogen and modified BaA as the eliciting antigen, the relationship of anti-BaA responses to DH was examined. The primary anti-BaA responses induced by an i.p. injection of large doses of BaA was markedly higher than those induced by an s.c. injection, while DH was exhibited only in mice given s.c. injection of BaA in CFA. With respect to DH to native BaA induced by the modified BaA, it was shown that C3H/He mice were high and C57BL/6 mice were low responders.     

Studies on delayed hypersensitivity to protein antigen. Antigen-specific suppression of delayed hypersensitivity by chemically modified antigen.

An extensively modified protein antigen (methylated bacterial α-amylase, M-BαA) which was neither reactive with anti-BαA antibody nor able to induce a humoral anti-BαA response, retained the ability to prime native BαA-specific T cells which were responsible for the enhanced anti-BαA response to subsequent immunization with BαA and delayed hypersensitivity (DH). The splenic T cell-rich fraction from mice primed with M-BαA collaborated with a native BαA-primed B cell-rich fraction to give a good adoptive IgG anti-BαA response in syngeneic irradiated mice, whereas M-BαA-primed B cell fractions failed to cooperate with native BαA-primed T cell fractions. Splenic T cells from mice given a subcutaneous (s.c.) injection of M-BαA in complete Freund's adjuvant (CFA) exhibited DH in syngeneic cyclophosphamide-treated mice. In the present study, native and methylated BαA were tested for their ability to generate suppressor T cells capable of inhibiting the development of DH. An intraperitoneal (i.p.) injection of either native or methylated BαA in incomplete Freund's adjuvant (IFA) interferred with the development of DH to M-BαA by an s.c. injection of the same antigen in CFA. Transfer of spleen cells from mice given an i.p. injection of either of these antigens 5 days previously, suppressed antigen-specifically induction and expression of DH in the syngeneic recipient mice. The suppressive activity was sensitive to treatment with anti-θ antiserum plus complement. These results indicate that the early phase of inhibition of DH after an i.p. injection is in part mediated by suppressor T cells and that M-BαA cross-reacts with native BαA at the suppressor T cell level as well as the level of effector T cells in DH.     

Murine transfer factor. II. Transfer of delayed hypersensitivity to synthetic antigens

Synthetic polyaminoacid antigens were used to examine the specificity of transfer of delayed-type hypersensitivity with spleen cell dialysates in mice. Dialysates from GAT10-sensitized donors sensitized recipients to GAT10, but not GLA5 or cytochrome c. Dialysates from GLA5-sensitized donors sensitized recipients to GLA5, but not GAT10 or cytochrome c. We interpret these findings as consistent with the concept that passive transfer of delayed hypersensitivity with dialyzable materials is an immunologically specific event.