Enhanced elimination of Listeria monocytogenes at the site of delayed footpad reaction

A late-lineage murine neutrophil precursor population exhibits dynamic changes during demand-adapted granulopoiesis

Homeostasis of neutrophils—the blood cells that respond first to infection and tissue injury—is critical for the regulation of immune responses and regulated through granulopoiesis, a multi-stage process by which neutrophils differentiate from hematopoietic stem cells. Granulopoiesis is a highly dynamic process and altered in certain clinical conditions, such as pathologic and iatrogenic neutropenia, described as demand-adapted granulopoiesis. The regulation of granulopoiesis under stress is not completely understood because studies of granulopoiesis dynamics have been hampered by technical limitations in defining neutrophil precursors. Here, we define a population of neutrophil precursor cells in the bone marrow with unprecedented purity, characterized by the lineage⁻CD11b⁺Ly6G^loLy6B^intCD115⁻, which we call NeuPs (Neutrophil Precursors). We demonstrated that NeuPs differentiate into mature and functional neutrophils both in vitro and in vivo. By analyzing the gene expression profiles of NeuPs, we also identified NeuP stage-specific genes and characterized patterns of gene regulation throughout granulopoiesis. Importantly, we found that NeuPs have the potential to proliferate, but the proliferation decreased in multiple different hematopoietic stress settings, indicating that proliferating NeuPs are poised at a critical step to regulate granulopoiesis. Our findings will facilitate understanding how the hematopoietic system maintains homeostasis and copes with the demands of granulopoiesis.

Macrophages activated by Listeria monocytogenes induce organ-specific autoimmunity

We have previously reported an experimental autoimmune model induced by the local infection of Listeria monocytogenes. The unilateral inoculation of virulent Listeria into a testis of a normal mouse induced a delayed-type hypersensitivity response against testicular antigen and caused autoimmune orchitis in the contralateral testis. The orchitis was transferred to naive mice by T cells from the intratesticularly infected mice. In this paper, we demonstrated that avirulent Listeria, which lacks the expression of listeriolysin O, failed to induce any anti-testicular responses or contralateral orchitis even when it was inoculated at a high dose into the testis. Furthermore, the intraperitoneal inoculation of virulent Listeria with testicular antigen induced the anti-testicular responses and orchitis although intraperitoneal inoculation of testicular antigen with avirulent Listeria failed to induce them. The difference between virulent and avirulent Listeria in the induction of anti-testicular responses was supposed to be dependent on the difference in macrophage activation by the two bacterial strains because, first, the anti-testicular responses were elicited in normal mice when macrophages from virulent Listeria-infected mice were intraperitoneally transferred with testicular antigen although no viable bacteria were detected from the macrophages, and secondly, in contrast, the intraperitoneal co-inoculation of macrophages from avirulent Listeria-infected mice and testicular antigen failed to elicit any anti-testicular responses. Finally, we found that the virulent Listeria-induced macrophages expressed a higher level of CD80 (B7-1) and CD86 (B7-2) molecules than did the avirulent Listeria-induced macrophages and naive peritoneal macrophages. These results thus suggest that virulent Listeria activates macrophages to induce autoreactive T cells while avirulent Listeria does not. The up-regulation of B7 molecules by virulent Listeria infection is a candidate of the mechanism for the activation of autoreactive T cells.

Listeria monocytogenes infection in mice treated with pentoxifylline

The course of L. monocytogenes infection was followed in mice treated with pentoxifylline (POF), a known inhibitor of endogenous tumor necrosis factor (TNF) formation. Administration of POF caused a delay in L. monocytogenes elimination which was probably related to a reduction the listericidal activity of macrophages and to an attenuation of delayed type hypersensitivity (DTH) to Listeria antigens. In spite of this, some POF-treated mice were protected from lethal effects of virulent L. monocytogenes bacteria.

Effect of the new immunostimulator HAB 439 on cell-mediated immunity against intracellular bacteria

The isoxazoline derivative HAB 439 was tested for its enzyme inhibiting potency and was found to be an inhibitor of aminopeptidase B (IC50 = 22.5 micrograms/ml). In further immunopharmacological experiments its efficacy to stimulate cell-mediated immunity was evaluated. HAB 439 was shown to stimulate DTH-reaction against Salmonella typhimurium and Listeria monocytogenes. HAB 439 protected animals against infection by reducing the bacterial load in livers and spleens and by decreasing the mortality rate. Treatment with the antibiotic ampicillin induced a decreased DTH-reaction in mice which was demonstrated to be due to a reduction of the antigen to be presented to the immune system and not to immune suppression. HAB 439 restored the impaired immune response to S. typhimurium and L. monocytogenes in a dose-dependent way. Restoration of DTH was shown to lead to an improvement of protection in ampicillin-treated mice which were challenged with the intracellular bacteria.

Interleukin-1-induced promotion of T-cell differentiation in mice immunized with killed Listeria monocytogenes

We studied the effects of administration of recombinant interleukin-1 alpha (rIL-1 alpha) to mice after immunization with killed Listeria monocytogenes cells on the promotion of the functional differentiation of T cells in vivo. Mice immunized with killed L. monocytogenes were unable to express cell-mediated immunity to specific antigen in vivo, as determined by delayed-type hypersensitivity (DTH) and acquired cellular resistance (ACR), and splenic T cells obtained from such mice were unable to respond to rIL-2 and specific antigen and to produce IL-2 after antigenic restimulation in vitro. When rIL-1 alpha was given to mice after immunization with killed bacteria. T cells became capable of responding to rIL-2 and specific antigen in vitro. These functions of T cells were similar to those from mice immunized with viable listeriae. Moreover, using a local passive transfer system, it was found that effector T cells mediating DTH but not ACR to L. monocytogenes were generated in mice treated with rIL-1 alpha after immunization with killed bacteria. These T cells were able to produce macrophage chemotactic factor but not macrophage-activating factor or gamma interferon in vitro in response to stimulation with specific antigen. These results suggest that in vivo administration of rIL-1 alpha facilitates the maturation of antigen-specific T cells mediating DTH and that different effector T cells mediating DTH or ACR are involved in cell-mediated immunity to L. monocytogenes.

In vitro primary induction of T cells mediating delayed footpad reaction and acquired cellular resistance to Listeria monocytogenes

We established an in vitro system generating L. monocytogenes-specific T cells primarily from unprimed spleen cells of mice. Normal spleen cells were cultured for 5 days in the presence of L. monocytogenes in vitro. Viable cells were harvested and assessed for their capacity to confer acquired cellular resistance (ACR) and delayed footpad reaction (DFR) upon local passive transfer to naive syngeneic recipient mice. When normal spleen cells were stimulated with viable L. monocytogenes, the viable cells that were recovered after 5 days of culture conferred a high level of ACR and DFR. Negative selection revealed that the effector cells obtained in primary in vitro culture were Thy 1+, L3T4+, Lyt2- cells. T cells mediating ACR could not be generated in the culture of normal spleen cells with heat-killed bacteria; however, cells mediating only DFR were generated in the presence of a large number of killed L. monocytogenes. The expression of DFR and ACR by T cells generated in this primary culture system was Listeria-specific; reactions were not observed against unrelated bacterial antigens including S. typhimurium, S. aureus, E. coli and PPD. FACS analysis of the cells in culture showed that L3T4+ and Lyt2- T cells were being enriched during culture. The primary generation of antigen-specific T cells in vitro was also possible with spleen cells from NTx mice but not with cells from nude mice, suggesting the presence of Listeria-specific precursors in NTx mice.

Generation of Listeria monocytogenes-specific T cells mediating delayed footpad reaction and protection in neonatally thymectomized mice but not in nude mice

Neonatally thymectomized (NTx) mice, sham-operated control mice and congenitally athymic nude mice were immunized with viable Listeria monocytogenes and their spleen cells examined for the capacity to transfer both delayed footpad reaction and protection against challenge at the site of local transfer. Cells from immune NTx mice conferred significant degrees of delayed footpad reaction and protection comparable to sham mice, while cells from immune nude (nu/nu) mice did not. This ability was completely eliminated by the treatment of cells with anti-Thy1, anti-Lyt1 or anti-L3T4 antibody plus complement but not with anti-Lyt2 antibody plus complement. These results indicated that NTx mice can normally mount the immunity to L. monocytogenes by generating Lyt1+2-, L3T4+ T cells. Immune competence of NTx mice and thymus dependency of various immune responses are discussed.

The effect of lentinan on the resistance of mice to Mesocestoides corti

CBA/H mice were given the immunomodulator lentinan in multiple, ascending doses before (prophylactic) or after (therapeutic) inoculation with tetrathyridia of Mesocestoides corti or as a single prophylactic dose. The latter was without effect, but increasing multiple prophylactic and therapeutic doses of lentinan resulted in a marked reduction in the numbers of parasites in the peritoneal cavity, particularly in those mice that received lentinan therapeutically. In mice that received multiple doses of lentinan, liver granulomas were larger than in controls and there was more collagen deposition and fibrosis. Encapsulated parasites were dead or dying, and such damage appeared to be mediated by increased numbers of macrophages and giant cells.

Transfer of resistance to primary infection of Listeria monocytogenes and early induction of delayed hypersensitivity by sera from L. monocytogenes-infected mice

We found a new phenomenon which differs from previous reports on experimental listeriosis, that is, failure of passive transfer of serum from Listeria monocytogenes-infected mice to convey resistance to the bacterium. Transfer of immune serum from L. monocytogenes-infected mice markedly augmented resistance to the bacterium, and mechanisms of the transfer of L. monocytogenes-immune serum were investigated. Transfer of immune serum prevented L. monocytogenes lethality. This effect of the immune serum was transferred dose dependently. Augmentation of resistance to L. monocytogenes also appeared in elimination of bacteria from the spleen. The growth of bacteria within 2 days in the spleen was not inhibited. Transfer of the immune serum augmented and accelerated induction of a delayed footpad reaction. Delayed hypersensitivity-dependent accumulation of mononuclear cells, detected by focus formation reaction in the liver, was also augmented. In contrast, polymorphonuclear cell accumulation in the liver was suppressed. Development of delayed hypersensitivity reactions was correlated with the elimination of bacteria in the spleens. These effects of the immune serum were expressed antigen specifically; however, the effector molecule(s) in the immune serum differs from immunoglobulin molecules.

Induction by killed Listeria monocytogenes of effector T cells mediating delayed-type hypersensitivity but not protection in mice

Using a local passive transfer system, we found that effector T cells mediating delayed-type hypersensitivity (DTH) but not acquired cellular resistance (ACR) to Listeria monocytogenes (strain EGD) were generated in mice immunized with killed Listeria, although immunized mice did not express DTH or ACR. When non-adherent cells of peritoneal, lymph node, or spleen cells from mice immunized with killed Listeria were transferred into the footpad of naive recipient mice along with eliciting antigen, positive delayed footpad reaction (DFR) was elicited. However, there was no evident protection against challenge at the site of the local transfer. Cells from mice immunized with viable Listeria conferred significant degrees of DFR and ACR on the recipients. DFR transferred by cells immunized with killed Listeria was mediated by L3T4+ T cells in an antigen-specific manner. The antigen-specific proliferative response of T cells from mice immunized with killed Listeria was much lower than that of T cells from mice immunized with viable Listeria. The production of macrophage chemotactic factor (MCF) by cells from killed Listeria-immune mice was much the same as that by cells from viable Listeria-immune mice. In contrast, the production of interleukin-2 (IL-2) and macrophage activating factor (MAF) was much lower in cells from killed Listeria-immune mice. The elimination of L. monocytogenes (strain L461), a strain of low virulence, was enhanced at the site of DFR transferred with cells from killed Listeria-immune mice. These results suggest that stimulation with killed bacteria is effective for the generation of DTH-mediating effector T cells, and that different effector T cells mediating DTH or ACR are involved in cell-mediated immunity to L. monocytogenes.

Antigen-specific augmentation factor involved in murine delayed-type footpad reaction. II. Augmentation of delayed-type footpad reaction and acquired resistance to Listeria monocytogenes by transfer of Listeria-immune serum

We previously found an antigen-specific factor capable of augmenting delayed-type hypersensitivity (DTH) in the culture supernatant of the mixture of immune spleen cells and erythrocyte antigen, or in the serum of mice immunized with heterologous erythrocytes and exhibiting delayed-type footpad reaction. To elucidate whether this kind of factor (DTH-augmentation factor; DAF) participates in the establishment of DTH to various kinds of antigen besides erythrocyte antigen, we chose a bacterial antigen, Listeria monocytogenes, which is a facultative intracellular bacterium. In the present study, we demonstrated that the immune serum from mice immunized with viable Listeria augmented the delayed-type footpad reaction to Listeria. Furthermore, acquired resistance against Listeria was also augmented by the transfer of such immune serum. Such augmentation of acquired resistance was observed in sites infected locally and in the spleen of mice infected systemically. This effect was also seen in sera from mice immunized with heat-killed Listeria emulsified with complete Freund's adjuvant.

Antigen-specific augmentation of delayed-type hypersensitivity by immune serum factor in mice: augmentation of anti-tumor cytostatic activity

A humoral factor capable of augmenting delayed-type hypersensitivity antigen specificity (DAF) is present in the serum of mice sensitized with heterologous erythrocytes to induce a delayed footpad reaction (DFR). In the present study, a similar factor was identified when xenogeneic tumor cells were used as antigens. This factor also could augment the in vitro anti-tumor cytostatic activity against homologous tumor cells, which correlated with in vivo DFR to the same tumor cells. The cytostatic activity augmented by the transfer of this factor had the following characteristics: The activity appeared in the whole peritoneal exudate cells (PEC) from serum recipients at 4 days after the antigenic challenge. Such an activity was revealed in the collaboration of plastic dish-nonadherent and -adherent PEC as the primary and final effectors, respectively. The appearance of primary effector cells for such an activity was also accelerated in spleen and lymph node cells. However, a sufficient number of macrophages were always required as the final effectors in their functional expression. These primary effectors were sensitized T lymphocytes which produced lymphokine(s) such as macrophage-activating factor(s) and which contributed to this augmented cytostatic activity through the activation of macrophages. Thus, this immune serum factor seems to exert functional expression by accelerating the generation of lymphokine-producing delayed-type T lymphocytes, which is also responsible for cytostatic anti-tumor immunity.

Immune protective mechanisms during pregnancy. I. Cell-mediated immunity against Listeria monocytogenes in pregnant mice

Characteristics of protective mechanisms during pregnancy were investigated using neonatally thymectomized (NTx) and/or pregnant mice infected with sublethal doses of Listeria monocytogenes, of which the explosive growth at an early phase of 2 or 3 days after infection is prevented by non-immune macrophages, and complete elimination at a late phase from 4 to 10 days after infection is attributed to the augmented functions of macrophages in co-operation with lymphokine-producing sensitized T lymphocytes. Although in virgin control mice there was a gradual decline of bacteria from the day after infection, viable bacteria in pregnant mice showed an increase in number until Day 3. In such pregnant mice, carbon clearance was suppressed. Thus, the enhanced bacterial growth in pregnant mice within 3 days may be attributable to the suppressed functions of non-immune macrophages. Complete elimination of Listeria from Day 4 was observed in pregnant sham-operated mice as well as in non-pregnant and pregnant NTx mice. Twenty-four hour reaction of delayed-type in normal mice induced by sheep red blood cells (SRBC) in incomplete Freund's adjuvant (IFA) was not affected by pregnancy, while 48 hr reaction in mice immunized with SRBC in complete Freund's adjuvant (CFA) was suppressed by pregnancy. We have reported previously that macrophage migration inhibitory factor (MIF) was produced in the latter but not in the former, and that the tuberculin type of delayed hypersensitivity accompanied by MIF production scarcely participated in acquired resistance to Listeria. Effective elimination of Listeria in pregnant and/or NTx mice at a late phase may be attributable to the activity of cellular immunity comparable to 24 hr reaction. These results suggest that T cells showing a low degree of thymus dependency in the ontogenic development may be the major component required for acquired protective immunity against Listeria and may account for the protection in pregnant mice.

Impairment of T cell-mediated immunity to Listeria monocytogenes in pregnant mice

In order to study pregnancy-induced changes in cell-mediated immunity to Listeria monocytogenes, acquired resistance and T cell functions in pregnant mice were compared with those in nonpregnant mice after immunization with viable listerial cells. Impaired generation of acquired resistance was evident in pregnant mice from the impaired elimination of bacteria and poor survival after secondary challenge. Delayed footpad reactivity to listerial antigen was also lower in the pregnant mice. When immune spleen cells were examined for their ability to produce macrophage activating factor in vitro, culture supernatants from pregnant-mouse spleen cells with listerial antigen showed far less ability to render macrophages cytostatic for P815 mastocytoma cells. To elucidate further the impairment of listeria-immune T cell generation in pregnant mice, a local transfer experiment was carried out. When a given number of immune spleen cells was transferred locally into the footpads of naive mice, both delayed footpad reaction and local protection were much lower in the pregnant mice. This local transferability of the reactions was abrogated after treatment of cells with anti-Thy 1 antibody plus complement. These findings indicate that pregnancy impairs the generation of specific T cells capable of contributing to acquired resistance to L. monocytogenes. Possible mechanisms for this impairment and the relationship to macrophage functions are discussed.

Effect of Bacillus Calmette-Guérin infection on delayed footpad reaction to Listeria monocytogenes

The role of peritoneal macrophages induced by Bacillus Calmette-Guérin (BCG) in the induction of immune responses to Listeria monocytogenes was studied in mice. The peritoneal macrophages from mice treated with BCG 14 days previously contained a high proportion of Ia-bearing macrophages (approximately 56%) and the cells showed not only a high level of listericidal activity but also a strong ability for presentation of listerial antigen to Listeria-immune T cells. An intraperitoneal inoculation with a low dose of Listeria, which can induce the maximal level of delayed footpad reaction (DFR) and positive migration inhibitory activity of macrophages in untreated mice, did not induce a detectable level of such responses in BCG-treated mice. The bacterial growth at an early stage of infection was suppressed by scavenger macrophages in these mice. On the other hand, BCG-treated mice showed the early development of DFR and macrophage migration inhibitory activity after an inoculation with a high dose of Listeria. It is revealed in transfer experiments that Listeria-pulsed peritoneal exudate cells induced by BCG elicited the highest level of DFR and positive migration inhibition of macrophages in normal mice at the earlier period of injection compared with Listeria-pulsed resident peritoneal cells. These results suggested that the increased activities of macrophages acting as scavenger cells and as antigen-presenting cells play important roles in the modification of immune responses to Listeria in BCG-treated mice.

Delayed hypersensitivity in murine salmonellosis: specificity of footpad reaction in mice infected with rough mutants of Salmonella typhimurium

Delayed type (footpad) hypersensitivity (DTH) in BALB/c mice immunized with rough mutant strains of Salmonella typhimurium LT2 was examined. Injection of live organisms of an Rb mutant TV148 strain induced DTH in mice, while injection of the heat-killed organisms did not. The mice immunized with live organisms of the Ra, Rb, Rc, Rd, and Re mutant strains showed positive footpad reactions to the heat-killed cell antigen of LT2 (wild type) strain. The mice immunized with the Rb mutant strain also showed positive footpad swellings in response to heat-killed cell antigens of S. paratyphi A, S. paratyphi B, S. typhi, S. enteritidis, and S. cholerae-suis. Furthermore, positive reactions to antigens of Escherichia coli and Shigella flexneri were seen in the TV148-immunized mice, but the mice did not respond to heat-killed organisms of Pseudomonas aeruginosa or Staphylococcus aureus. The cross-reactive footpad reaction to E. coli could be transferred adoptively with T cells prepared from the spleens of TV148-immunized mice into syngeneic recipients. These results suggest that the cross-reactive DTH antigen(s) is widely distributed among related organisms such as Shigella and Escherichia.

Development of immunity against Listeria monocytogenes in athymic nude versus neonatally thymectomized mice

The thymus requirement for the development of immunological responsiveness was determined by estimation of immune responses raised to Listeria monocytogenes in athymic nude, neonatally thymectomized, and sham-operated mice at 6 weeks of age. Not only sham-operated mice, but also neonatally thymectomized mice could completely eliminate the bacteria from the spleen and liver, while athymic nude mice could not eliminate them and showed a persistent form of infection. A strong delayed footpad reaction and acquired cellular resistance could be raised in neonatally thymectomized mice just as well as in sham-operated mice, but not in athymic nude mice. The delayed footpad reaction could be induced in neonatally thymectomized mice without an accompanying ability to inhibit macrophage migration. These results suggest that T cells responsible for immunity against listerial infection require the presence of the thymus for only a very short period in their development.

Two steps in the generation of acquired cellular resistance against Listeria monocytogenes: accumulation and activation of macrophages

Mice were immunized with 1 X 10(3) viable Listeria monocytogenes, and the mechanism of the acquired resistance against challenge infection with 5 X 10(4) L. monocytogenes was studied by the use of the peritoneal cavity of mice as the site of challenge. An enhanced elimination of bacteria from the peritoneal cavity became detectable on day 5 after immunization, and lasted thereafter. Before day 10 postimmunization, a marked accumulation of macrophages was observed after the challenge but the in vitro listericidal activity of macrophages was not so enhanced. After day 15 postimmunization, peritoneal macrophages did not increase in number after the challenge but the in vitro listericidal activity of macrophages was the stronger. Accumulation of non-activated macrophages seemed to contribute mainly to the expression of acquired resistance against challenge in the early stage of immunization. So-called activated macrophages appeared to be generated only in the later stage of immunization. Thus it was suggested that there may be at least two steps in the expression of acquired listerial resistance.

Repeated delayed-type hypersensitivity reactions against Mycobacterium lepraemurium antigens at the infection site do not affect bacillary multiplication in C3H mice

Delayed-type hypersensitivity was induced in cyclophosphamide-pretreated C3H/TifBom mice by subcutaneous immunization in the thorax with ultrasonicated Mycobacterium lepraemurium bacilli in Freund incomplete adjuvant. Seven weeks after immunization, 2.5 X 10(7) acid-fast M. lepraemurium bacilli suspended in diluted sonicate were injected into one hind footpad, and during the next 6 weeks three additional infections of sonicate were given at intervals into the infected footpad. After each injection a strong local reaction developed, which after the first three injections peaked at 24 h. The kinetics of the reaction was accelerated after the repeat injections. Each time the reaction subsided within 1 week. From 2 days to 11 weeks after the inoculation of bacilli there was a 10-fold increase in bacillary numbers in the footpad and a 3,000-fold increase in the draining popliteal lymph node. The degree of bacillary multiplication was the same in animals which had experienced repeated local reactions and in control animals. Thus, repeated strong delayed-type hypersensitivity reactions to M. lepraemurium antigens apparently were without any measurable effect on the bacillary multiplication. This observation provides further evidence for a dissociation in C3H/TifBom mice between delayed-type hypersensitivity to soluble mycobacterial antigens and protective immunity against mycobacteria. Possible explanations for our findings are discussed.

Direct correlation between delayed footpad reaction and resistance to local bacterial infection

The resistance to bacteria was studied at the site of delayed footpad reaction in mice immunized with Listeria monocytogenes. When a challenge injection of listeria was given into the footpad of immune mice, no enhancement of bacterial elimination was observed before the generation of delayed footpad reactivity. After the generation of delayed reactivity, an enhanced elimination of listeria or Salmonella typhimurium was observed only at the site of strongly positive delayed footpad reaction elicited with listerial antigen. Such an enhancement in bacterial elimination was also found at the site of delayed footpad reaction induced by immunization with heterologous erythrocytes. Both delayed footpad reaction and local resistance could be transferred locally by immune spleen cells in a dose-dependent fashion, but were completely abrogated when recipient mice were treated with carrageenan or whole-body X irradiation. Macrophage accumulation was an important factor in the expression of resistance at the reaction site. These results suggest that the delayed footpad reaction contributes to host defense by enhancing the local resistance to bacteria.

Host defenses in experimental scrub typhus: delayed-type hypersensitivity responses of inbred mice

Delayed-type hypersensitivity responses of inbred mice during the course of lethal and chronic infections with strains of Rickettsia tsutsugamushi were evaluated by using the influx of radiolabeled cells into antigen-injected ears. Congenic strains of C3H mice, which previously have been shown to be resistant (C3H/RV) or sensitive (C3H/HeDub) to lethal intraperitoneal infection with the Gilliam strain of rickettsiae, both expressed delayed-type hypersensitivity early in the course of infection (5 to 7 days). The sensitive C3H/HeDub mice, however, exhibited a marked decline in reactivity just before death. In contrast, reactivity of C3H/RV mice remained high through day 9 and declined slowly through day 15 after infection. Similar results were obtained when BALB/c mice were infected with either the Karp or the Gilliam strain of rickettsiae, which produce a lethal or nonlethal infection, respectively, in this strain of mice. Rechallenge of C3H/RV mice elicited a rapid increase in reactivity, suggesting a secondary memory response. To analyze delayed-type hypersensitivity during chronic infection, C3H/HeDub mice were immunized by subcutaneous infection with the Gilliam strain of R. tsutsugamushi, and both delayed-type hypersensitivity reactivity and resistance to intraperitoneal challenge were examined. Delayed-type hypersensitivity reactivity developed slowly and peaked at 21 days postimmunization, which correlated with resistance to intraperitoneal challenge. Delayed-type hypersensitivity reactivity declined thereafter, but resistance to intraperitoneal challenge remained through 28 days postimmunization. Delayed-type hypersensitivity reactivity increased after secondary challenge at 28 days, again suggesting antigen memory generated by primary immunization. Transfer of delayed-type hypersensitivity reactivity was accomplished by using immune thymus-derived splenic lymphocytes isolated with nylon-wool columns. Abrogation of the ability of immune spleen cells to transfer delayed-type hypersensitivity reactivity after treatment with anti-Thy 1.2 alloantiserum and complement further supported the view that delayed-type hypersensitivity responses to scrub typhus rickettsiae were mediated by thymus-derived lymphocytes.