Regulatory mechanism of delayed-type hypersensitivity in mice. III. In vitro analysis of memory T cells involved in augmentation of DTH responses

Isolation and characterization of mouse nasal-associated lymphoid tissue

A method for isolation of mouse nasal-associated lymphoid tissue (NALT), which is a principal mucosal lymphoid tissue of the respiratory tract in rodents, was developed. The paired lymphoid organs could be separated from the upper jaw by peeling away the palate where NALT was localized bilaterally on the posterior side. About 3 x 10(5) lymphocytes could be obtained from one NALT fragment. The NALT lymphocyte fraction from normal BALB/c mice contained T- and B-cells in about equal numbers, and contained about 4 times as many CD4+ T-cells as CD8+ T-cells when analyzed with a FACScan fluorescence analyzer. The composition of the NALT lymphocytes was similar to that of the lymphocytes from the portion of the nasal cavity remaining after isolation of the NALT. The NALT lymphocyte fraction from mice infected 7 days previously with influenza virus was also characterized. The numbers of NALT T- and B-cells from the infected mice were approximately 2 and 3 times higher than those of non-infected mice, respectively. In parallel with the cell increase, NALT lymphocytes produced IFN-gamma when cultured for 24 h and contained cells secreting influenza virus-specific IgA and IgG antibodies. The results suggest that this method can be successfully used for investigating cellular dynamics of mucosal immunology in the upper respiratory tract.

Characterization of mouse nasal lymphocytes isolated by enzymatic extraction with collagenase

A reproducible method for isolation of mouse nasal lymphocytes was developed. The cells were released from tissue fragments of dissected mouse nose by enzyme extraction with collagenase and separated by a stepwise Percoll gradient centrifugation. The partially purified nasal lymphocyte fraction from normal BALB/c mice contained CD4+ T cells (18-23%), CD8+ T cells (7-10%) and B cells (20-38%), when analysed with a FACScan fluorescence analyser. The ratio of T to B cells and that of CD4+ to CD8+ T cells in the nasal cell fraction were about twice as high as those in Peyer's path lymphocytes. The nasal lymphocyte fraction from the mice infected with influenza virus was then characterized. The nasal lymphocytes contained a twice larger number of CD4+ and a three times larger number of CD8+ T cells than those of normal mice 7 days after infection. They produced IFN-gamma which increased after infection. They contained the cells secreting influenza virus-specific IgA and IgG antibodies 4 weeks after infection. Moreover, the nasal lymphocytes from infected C3H mice lysed the virus infected-target cells. These results suggest that this method can successfully be used for investigating cellular dynamics of mucosal immunity in the upper respiratory tract of experimental animals.

Mechanism by which pertussis toxin breaks unresponsiveness of delayed-type hypersensitivity to sheep red blood cells in mice

The mechanism by which pertussis toxin (PT) breaks the unresponsiveness of delayed-type hypersensitivity (DTH) to sheep red blood cells (SRBC) was examined in B10 mice. The unresponsiveness of DTH was induced in mice by iv injection of 10(9) SRBC and broken antigen-specifically by iv injection of 500 ng of PT into mice 1 or more days after SRBC injection. The restored DTH response in the SRBC-primed and PT-treated mice was accompanied by the appearance of Lyt-1-positive splenic T cells, capable of mediating DTH, fractionated in the low-density layers on a discontinuous bovine serum albumin density gradient. To examine the action of PT on the appearance of the DTH-effector cells, the splenic T cells from 10(9) SRBC-primed mice were treated with 100 ng/ml of PT for 60 min in vitro and then transferred into naive recipient mice. The PT-treated T cells acquired the ability to manifest DTH in the recipient mice several days after transfer. A large proportion of them were Lyt-1-positive small cells fractionated in the high-density layers before transfer and transformed into DTH-effector cells fractionated in the low-density layers in the recipient mice after transfer. Moreover, the ability of the PT-treated cells to manifest DTH on transfer was resistant to treatment with mitomycin C. These results suggest that PT acts on the sensitized, small Lyt-1-positive T cells from the unresponsive mice to differentiate them into large T-cell blasts, capable of mediating DTH, as one of the mechanisms by which PT breaks the unresponsiveness of DTH to SRBC.

Properties of cloned T cells that mediate delayed-type hypersensitivity against ovalbumin in mice

Cloned T-cell lines that mediate delayed-type hypersensitivity (DTH) against soluble protein antigen, ovalbumin (OA), were established in (C57BL/6 X DBA/2)F1 mice and their properties were examined. They induced antigen-specific delayed-type footpad reactions, characterized histologically by a predominant mononuclear cell infiltration, when transferred intravenously into syngeneic mice. Morphologically, they were medium or large lymphoblasts with granules in the cytoplasm and expressed Lyt 1 cell surface antigens. One of them proliferated antigen specifically under the presence of both C57BL/6 and F1 accessory cells, while others proliferated antigen specifically only under the presence of F1 accessory cells. They also produced macrophage-activating factor (MAF) and substances which mediate a DTH-like footpad inflammatory reaction with a maximum 6 hr after injection into the footpad of normal mice, when incubated in the presence of specific antigen and specific accessory cells in a serum-free medium for 24 hr. These results demonstrate that cloned DTH-effector T cells, established here against soluble protein antigen, are Lyt 1-positive, large lymphoblasts and that they produce MAF and footpad-reactive inflammatory substances antigen specifically under the presence of specific accessory cells.

Production by cultured spleen cells of inflammatory substances and other lymphokines that mediate delayed-type hypersensitivity in mice

In vitro cultivation of normal mouse spleen cells with human serum albumin generated effector cells that mediate the delayed-type hypersensitivity (DTH) reaction. The cultured cells, when incubated in a serum-free medium for a further 24 hr, released substances (FPRF) which caused a footpad inflammatory reaction at a maximum of 6 hr after injection into normal syngeneic or allogeneic strains of mice, as well as macrophage migration inhibition factor (MIF) and macrophage activating factor (MAF). The DTH-effector cells in the culture were fractionated in the low density layers by discontinuous bovine serum albumin density gradient centrifugation. The effector cells in the low density layers were further enriched in the Lyt 1 subpopulation of T cells when fractionated on a fluorescence activated cell sorter. Cells capable of producing the inflammatory substances (FPRF), MIF and MAF were also enriched in the same fraction containing DTH-effector cells. These results suggest that low density, Lyt 1-positive T cells mediating the DTH reaction produce FPRF as well as MIF and MAF.

Regulatory mechanism of delayed-type hypersensitivity in mice. V. Augmentor cells for DTH responses

Mice primed with 1 microgram of reduced and alkylated ovalbumin (RA-OA) developed not only long-lived memory cells for delayed-type hypersensitivity (DTH), capable of differentiating into DTH-effector T cells (DTH-Te) against ovalbumin (OA) when restimulated in vitro with OA, but also spleen cells capable of augmenting recipients' DTH responses to OA when transferred into cyclophosphamide (CY)-pretreated mice. The augmenting activity in spleen cells, upon transfer, was found 7 days, but not 21 or 91 days, after priming with RA-OA, although memory DTH-Te were present throughout the period of observation. The loss of augmenting activity after day 7 of priming was not due to the presence of suppressor cells; spleen cells taken 21 days after priming failed to suppress, upon transfer, the augmenting activity in 7-day-primed spleen cells as well as induction and expression of DTH responses to OA. When 7-day-primed spleen cells were fractionated on a discontinuous bovine serum albumin density gradient, the augmenting activity was found only in the medium-density-cell layer, although memory DTH-Te were separated in the high-density layer. Augmentation of DTH-Te generation could also be demonstrated in vitro when 7-day-primed spleen cells, but not 21-day-primed spleen cells, were added to cultures of spleen cells from CY-pretreated mice. These results indicate that, in the 7-day-primed spleen, there is an augmentor cell population which is different from memory DTH-Te and interacts with CY-resistant unprimed cells to facilitate DTH-Te generation.

Regulatory mechanism of delayed-type hypersensitivity in mice. IV. Effect of suppressor T cells on the development of memory T cells involved in accelerated generation of DTH-effector cells in vitro

The effect of suppressor T cells (Ts) on the induction and the subsequent development of memory T cells for delayed-type hypersensitivity (DTH) was examined. The memory cells were induced in the spleens of mice primed previously with a low dose of reduced and alkylated ovalbumin (Ra-OA), and they generated DTH-effector T cells (DTH-Te) in a significantly accelerated fashion when cultured with OA in vitro. Ts were obtained from the spleens of mice which received OA-coupled spleen cells i.v. 4 days previously, and they inhibited antigen-specifically the induction of DTH responses in the recipient mice sensitized with alum-absorbed OA only when transferred with 5 weeks before sensitization. The spleen cells from mice given Ts together with the priming antigen 7 weeks before culture failed to generate DTH-Te in an accelerated manner on restimulation with OA in vitro. The memory cells from primed mice also did not cause accelerated generation of DTH-Te, when cultured with Ts in the presence of OA in vitro. These results indicate that both the induction of the memory cells by priming with antigen in vivo and the subsequent development of memory cells to DTH-Te by restimulation in vitro are inhibited independently by Ts. This corresponded well with the effect of Ts on the development of DTH-memory in vivo.

Acute effects of cadmium on delayed-type hypersensitivity in mice

A single exposure of mice to cadmium resulted in suppression of the induction of primary delayed-type hypersensitivity (DTH) responses as well as memory T-cell and suppressor T-cell activities, augmenting and inhibiting DTH respectively. Furthermore, cadmium suppressed the expression of already established DTH, in immune mice, even though DTH-effector T cells in the spleen of immune mice were not affected by cadmium injection. Such suppressive effects were demonstrated when cadmium was administered within 2 days before immunization or elicitation for DTH. Cadmium caused also within 2 days in mice thymic involution and splenomegaly. These results indicate that cadmium inhibits not only the generation of certain populations of T lymphocytes for DTH but also some mechanisms in the host involved in the expression of DTH.