Dedication to Sir Peter Brian Medawar,O.M., C.H., C.B.E., M.A., D.SC., F.R.S

C57BL/6 mice were exposed to a primary infection of Schistosoma mansoni. The lymphocytes of the mediastinal, hepatic, and mesenteric lymph nodes and spleen which drain the pulmonary, hepatic, intestinal, and “systemic” phases of infection, respectively, were assessed for their ability to interact with soluble cercarial immunogen. The capacity to bind antigen, i.e., rosette-forming cells (B- or T-RFC) both bind antigen and simultaneously produce specific lytic antibodies, i.e., rosette-antibody-forming cells (RAFC); or exclusively produce specific antibody, i.e., plaque-forming cells (PFC) was assessed. The results indicated that maximal RFC were detected sequentially in the mediastinal (Week 1), then in the hepatic (Week 5), and finally in the mesenteric (Weeks 7–9) nodes; thus, the immune response anatomically recapitulated the migrating pathway of the parasite during the pulmonary, hepatic, and intestinal phases of the infection. The number of RFC was significantly higher in the mediastinal nodes and the hepatic nodes than in the mesenteric nodes. Although both T- and B-RFC were noted, the response was predominantly B in character. The spleen exhibited an early predominantly T-cell RFC response at Week 4 and a later predominantly B-cell RFC response at Week 11. Further characterization of the B-cell responses showed that the initial responses of the lymphocytes were predominantly IgM in nature. A variety of unique patterns relative to the predominance of IgG-, IgA-, or “IgE”-bearing cells subsequently evolved in each anatomic lymphoid organ. In all the lymphoid organs studied the lymphocytes exhibited a maturational progression from B-RFC, to RAFC and then to PFC. The responses of the lymphocytes of the various lymphoid organs have been further characterized against soluble egg (SEA) immunogen (P. B. Khoury and S. M. Phillips, Cell. Immunol.59, 246, 1981).     

IgE formation in the rat following infection with Nippostrongylus brasiliensis: I. Proliferation and differentiation of IgE-bearing cells

Sprague-Dawley rats were infected with Nippostrongylus brasiliensis larvae, and IgE formation was studied. Before infection, the serum IgE level was less than 0.4 μg/ml. The IgE level began to increase from the 10th day of infection, reached its maximum (50–100 μg/ml) at the 14th day and gradually declined. Reinfection of the rats resulted in an increase of the serum IgE level within 7 days. The IgE antibody response to N. brasiliensis antigens did not parallel the increase of IgE synthesis. In most animals, the antibody became detectable in the serum at the 21st day when the total IgE level already began to decrease. The animals showed a secondary IgE antibody response upon reinfection. Both mesenteric lymph nodes and spleen cell suspensions were examined for the presence of IgE-bearing cells (IgE-B cells) and IgE-forming cells by fluorescent antibody technique. The IgE-bearing lymphocytes became detectable in the mesenteric lymph nodes and spleen at the 8th day of infection. The proportion of the IgE-B cells in nonadherent cell population gradually increased and reached maximum at the 14th day; about 20% of immunoglobulin (Ig)-bearing cells in the mesenteric lymph nodes and 10% of Ig-bearing cells in spleen bore IgE on their surface. Evidence was obtained that these lymphocytes synthesized IgE. The IgE-forming cells were detected in both mesenteric lymph nodes and spleen of the infected animals. The number of IgE-forming cells was greater in the mesenteric lymph nodes than in spleen, indicating that the regional lymph nodes are the major source of serum IgE in the N. brasiliensis-infected animals.     

Lymphoid cell kinetics in guinea pigs infected with Trichostrongylus colubriformis: tritiated thymidine uptake in gut and allied lymphoid tissue, humoral IgE and hemagglutinating antibody responses, delayed hypersensitivity reactions, and in vitro lymphocyte transformations during primary infections

The kinetics of the lymphocyte responses of Trichostrongylus colubriformis-infected and normal guinea pigs were measured by the in vivo uptake of tritiated thymidine either as dpm ³H/mg tissue or as the percentage change in [³H] -labeled lymphoblasts in autoradiographs of tissue impression smears and sections. The lymphoid response was predominantly a local one centering on the infected area of the small intestine. The greatest lymphocyte reactions as assessed by counts of labeled lymphoblasts occurred in the Peyer's patches and mesenteric lymph nodes where the peak responses took place 11 and 6 days after infection, respectively. The local nature of the responses was exemplified by the fact that the mesenteric lymph nodes of the anterior small intestine showed a peak response on the sixth day but the response from the posterior small intestine peaked 7 days later. A similar but less dramatic relationship existed among the Peyer's patches. In addition no labeled lymphoblast response was elicited in the inguinal lymph nodes or cecal lymphoid patches throughout the infection and the first increased responsiveness of the spleen did not take place until after Day 13, by which time the lymphoid proliferations associated with the infected intestine had subsided. Initially, the spleen showed a marked depletion of labeled blast cells during the first 7 days of the infection. This was taken as indicating at the time the infection was being established the export of cells capable of transformation in response to parasite antigen. This was supported by the observation that large numbers of phytohemagglutinin responsive lymphocytes were found in the peripheral circulation at this time. The in vitro responsiveness of peripheral lymphocytes to T. colubriformis antigen was also studied. Positive lymphocyte transformations first occurred 6 days after infection but thereafter declined to the normal level by Day 13; the peak transformation ratio was found 25 days after infection but by Day 38 it had declined to a low but persistently positive level. There was a correlation between the circulation of specifically sensitized cells, probably of thymic origin, IgE antibody titers, and the development of positive dermal delayed hypersensitivity reactions in infected guinea pigs, suggesting a close relationship among these three immunological phenomena.All lymphoblast responses in Peyer's patches, mesenteric lymph nodes, and lamina propria of the intestine were completed before the immune elimination of the parasite commenced 10 days after infection. During the first 10 days of infection specifically sensitized lymphocytes appeared and disappeared from the circulation. The loss of circulating sensitized lymphocytes at the time immune elimination of the parasite was taking place in the gut suggested that the sensitized cells were “homing-in” on the local area of infection. After the immune elimination of the parasite had commenced, the level of sensitized lymphocytes and IgE antibodies then increased rapidly in the blood. Evidence from the kinetics of the hemagglutinating antibodies indicated that stage specific antigens occur in T. colubriformis.     

In vitro development of a primary antibody response with lymph node cells.

Utilizing a variety of lymphoid tissues from three common laboratory species, comparative studies were performed to investigate the competence of the dissociated cells to respond to a heterologous erythrocyte with the development of specific plaque-forming cells. Dissociated spleen cells harvested from BDF1 mice consistently developed specific plaque-forming cells (PFC) to sheep red blood cells (SRBC), while hamster spleen cells inconsistently developed specific antibody-forming cells to SRBC. Under identical conditions, guinea pig spleen cells did not develop significant numbers of PFC to SRBC. However, lymph node cell cultures of all three species tested yielded specific PFC. In the mouse and hamster lymph node cell cultures, the yield of PFC per culture or per 10⁶ recovered viable cells was always greater than the yield from companion spleen cell cultures. Guinea pig mesenteric lymph node cell cultures developed the major PFC response to SRBC, while both mesenteric and peripheral lymph node cell cultures from hamsters were equivalent in their response to SRBC. The data demonstrate that it is possible to develop a primary antibody response to SRBC in vitro utilizing normal endogenous hamster or guinea pig lymphoid cells, if lymph nodes are the source of cells.     

MAdCAM-1 expressing sacral lymph node in the lymphotoxin beta-deficient mouse provides a site for immune generation following vaginal herpes simplex virus-2 infection

The members of the lymphotoxin (LT) family of molecules play a critical role in lymphoid organogenesis. Whereas LT alpha-deficient mice lack all lymph nodes and Peyer's patches, mice deficient in LT beta retain mesenteric lymph nodes and cervical lymph nodes, suggesting that an LT beta-independent pathway exists for the generation of mucosal lymph nodes. In this study, we describe the presence of a lymph node in LT beta-deficient mice responsible for draining the genital mucosa. In the majority of LT beta-deficient mice, a lymph node was found near the iliac artery, slightly misplaced from the site of the sacral lymph node in wild-type mice. The sacral lymph node of the LT beta-deficient mice, as well as that of the wild-type mice, expressed the mucosal addressin cell adhesion molecule-1 similar to the mesenteric lymph node. Following intravaginal infection with HSV type 2, activated dendritic cells capable of stimulating a Th1 response were found in this sacral lymph node. Furthermore, normal HSV-2-specific IgG responses were generated in the LT beta-deficient mice following intravaginal HSV-2 infection even in the absence of the spleen. Therefore, an LT beta-independent pathway exists for the development of a lymph node associated with the genital mucosa, and such a lymph node serves to generate potent immune responses against viral challenge.     

Cytokine,Antibody and Proliferative Cellular Responses Elicited by Taenia solium Calreticulin upon Experimental Infection in Hamsters

Taenia solium causes two diseases in humans, cysticercosis and taeniosis. Tapeworm carriers are the main risk factor for neurocysticercosis. Limited information is available about the immune response elicited by the adult parasite, particularly the induction of Th2 responses, frequently associated to helminth infections. Calreticulin is a ubiquitous, multifunctional protein involved in cellular calcium homeostasis, which has been suggested to play a role in the regulation of immune responses. In this work, we assessed the effect of recombinant T. solium calreticulin (rTsCRT) on the cytokine, humoral and cellular responses upon experimental infection in Syrian Golden hamsters (Mesocricetus auratus). Animals were infected with T. solium cysticerci and euthanized at different times after infection. Specific serum antibodies, proliferative responses in mesenteric lymph nodes and spleen cells, as well as cytokines messenger RNA (mRNA) were analyzed. The results showed that one third of the infected animals elicited anti-rTsCRT IgG antibodies. Interestingly, mesenteric lymph node (MLN) cells from either infected or non-infected animals did not proliferate upon in vitro stimulation with rTsCRT. Additionally, stimulation with a tapeworm crude extract resulted in increased expression of IL-4 and IL-5 mRNA. Upon stimulation, rTsCRT increased the expression levels of IL-10 in spleen and MLN cells from uninfected and infected hamsters. The results showed that rTsCRT favors a Th2-biased immune response characterized by the induction of IL-10 in mucosal and systemic lymphoid organs. Here we provide the first data on the cytokine, antibody and cellular responses to rTsCRT upon in vitro stimulation during taeniasis.     

Comparison of local and systemic responsiveness of lymphocytes in vitro to Bovicola ovis antigen and Concanavalin A in B. ovis-infested and naive lambs

The in vitro proliferation assay was used to determine lymphocyte responsiveness to soluble antigen of B. ovis and to Concanavalin A (Con A) in peripheral blood, spleen and various lymph nodes from B. ovis-infested and naive lambs. From March to July, an assay of monthly blood samples showed generally higher proliferative responses to antigen and Con A in B. ovis-infested than naive lambs. The proliferative response of cells from the skin-draining prescapular lymph nodes to B. ovis antigen was significantly higher in B. ovis-infested than naive lambs. Responses of cells from the medial iliac, mediastinal and mesenteric lymph nodes (which do not receive lymph from the skin) and spleen showed no significant differences between groups. Within the B. ovis-infested lambs, the response of cells from the prescapular lymph node was significantly higher than that from any other lymphoid organ examined. Responsiveness of the prescapular, medial iliac and mesenteric lymph node and spleen cells to Con A was not significantly different between groups, while mediastinal lymph node cells showed a significantly higher response in B. ovis-infested lambs. The data indicate that the antigen-specific cellular immune response is operating mainly locally, at the level of the skin and draining lymph nodes. Responses to the T cell mitogen Con A did not support non-specific immunodepression as reported in other ectoparasite/host systems.     

The passive transfer of protective immunity against Angiostrongylus cantonensis with immune lymph node cells from different lymphoid tissues in rats

-Yong W. K. and Dobson C. 1982. The passive transfer of proctective immunity against Angiostrongylus cantonensis with immune lymph node cells from different lymphoid tissues in rats. International Journal for Parasitology12: 423–425. Lymph node cells from the posterior cervical and mesenteric lymph nodes of immune rats passively protected syngeneic recipient rats against Angiostrongylus cantonensis better than cells from the spleen, thymic and inguinal lymph nodes either as reduced worms burdens and/or stunted growth. No antibody was detected in the sera of recipient rats after transfer of the cells and before infection which suggested that the protection was cell- rather than antibody-mediated.     

Origin and fate of IgE-bearing lymphocytes. II. Gut-associated lymphoid tissue as sites of first appearance of IgE-bearing B lymphocytes and hapten-specific IgE antibody-forming cells in mice immunized with benzylpenicilloyl-keyhole limpet hemocyanin by various routes: relation to asialo GM1 ganglioside+ cells and IgE/CD23 immune complexes.

The organs in which B cells bearing membrane-bound IgE (sIgE+) and benzylpenicilloyl (BPO)-specific IgE antibody-forming cells (AFC) first appeared were determined in BALB/c mice given BPO-keyhole limpet hemocyanin (10 micrograms) in aluminum hydroxide by various routes (i.p, gavage, s.c., i.v., or i.m.). In mice immunized by the i.p. route, the numbers and location of sIgE+ B cells and asialo GM1 ganglioside (AsGm1+) cells, the location of IgE/CD23 immune complexes, and the numbers of BPO-specific IgE AFC in lymphoid organs were determined. With all routes of immunization, no sIgE+ B cells or BPO-specific IgE AFC were ever detected in any organ before day 8. On day 8, with the s.c., i.v., or i.m. routes, sIgE+ B cells and IgE AFC appeared exclusively in Peyer's patches (PP); with the i.p. or gavage routes, sIgE+ B cells simultaneously appeared in both PP and mesenteric lymph nodes, whereas IgE AFC appeared only in PP. In mice immunized by the i.p. route, IgE/CD23 immune complexes and strikingly increased numbers of AsGm1+ cells transiently appeared only in PP after the appearance and preceding the "disappearance" of the sIgE+ B cells and IgE AFC. The data suggest that specific IgE responses originate in gut-associated lymphoid tissue and appear later in spleen. The data also associate the appearance of IgE/CD23 immune complexes and AsGm1+ cells with the "disappearance" of sIgE+ B cells and IgE AFC from PP.     

Perinatal maternal administration of Lactobacillus paracasei NCC 2461 prevents allergic inflammation in a mouse model of birch pollen allergy

Background

The hygiene hypothesis implies that microbial agents including probiotic bacteria may modulate foetal/neonatal immune programming and hence offer effective strategies for primary allergy prevention; however their mechanisms of action are poorly understood. We investigated whether oral administration of Lactobacillus paracasei NCC 2461 to mothers during gestation/lactation can protect against airway inflammation in offspring in a mouse model of birch pollen allergy, and examined the immune mechanisms involved.

Methods

BALB/c mice were treated daily with L. paracasei in drinking water or drinking water alone in the last week of gestation and during lactation. Their offspring were sensitized with recombinant Bet v 1, followed by aerosol challenge with birch pollen extract.

Results

Maternal exposure to L. paracasei prevented the development of airway inflammation in offspring, as demonstrated by attenuation of eosinophil influx in the lungs; reduction of IL-5 levels in bronchoalveolar lavage, and in lung and mediastinal lymph node cell cultures; and reduced peribronchial inflammatory infiltrate and mucus hypersecretion. While allergen-specific IgE and IgG antibody levels remained unchanged by the treatment, IL-4 and IL-5 production in spleen cell cultures were significantly reduced upon allergen stimulation in offspring of L. paracasei treated mice. Offspring of L. paracasei supplemented mothers had significantly reduced Bet v 1-specific as well as Concanavalin A-induced responses in spleen and mesenteric lymph node cell cultures, suggesting the modulation of both antigen-specific and mitogen-induced immune responses in offspring. These effects were associated with increased Foxp3 mRNA expression in the lungs and increased TGF-beta in serum.

Conclusion

Our data show that in a mouse model of birch pollen allergy, perinatal administration of L. paracasei NCC 2461 to pregnant/lactating mothers protects against the development of airway inflammation in offspring by activating regulatory pathways, likely through TLR2/4 signalling.     

The immune response of male DSN hamsters to a primary infection with Ancylostoma ceylanicum

The immune response of hamsters to a chronic hookworm infection has been investigated. Ancylostoma ceylanicum caused long term infections in hamsters which were associated with prominent changes in secondary lymphoid organs. The mesenteric lymph nodes and spleens increased rapidly in size stabilizing at approximately 3-4 times the weight in control animals by weeks 3-7. Cells from both the mesenteric lymph node and spleen, after an initial period of increased blast cell activity, became less reactive in the latter stages of infection. Serum antibody responses were marked, commencing in weeks 3-4 and increasing in intensity throughout the 10 week period of measurement. The results are discussed in relation to their contribution to the understanding of human hookworm infection.     

Mechanisms of acquired resistance to plague in mice infected byYersinia enterocolitica O3

Yersinia enterocolitica, serogroup O3, injected either intravenously or intragastrically to mice, induced acquired resistance toYersinia pestis. The digestive infection byY. enterocolitica O3 was mostly located into the Peyer’s patches and the ileum wall; the blood, the mesenteric lymph node, and the spleen were not invaded. Serum fromY. enterocolitica O3 convalescing mice failed to protect passively againstY. pestis. In contrast, lymphoid cells from the stimulated Peyer’s patches permitted transfer of efficient bactericidal activity againstY. pestis.     

Trichinella spiralis: changes caused in the mouse's thymic, splenic, and lymph node cell populations.

Infections with the nematode Trichinella spiralis induce unresponsiveness in mice. A study was made to determine whether suppression could be due to a deficiency in the cells responsible for the immunological response. Mice were given low or moderate infections and were killed 7, 14, 28, or 56 days after inoculation; spleen macrophages and leucocytes, θ cells, and Con A- and LPS-sensitive cells were determined in the thymus, spleen, and the mesenteric and axillary lymph nodes. Spleen macrophages are diminished throughout the course of the infection, reaching significantly low levels on the 14th day. The thymus loses, whereas the spleen and the axillary node gain, cells bearing the θ antigen. In spite of the increase in leucocytes and θ cells in the secondary lymphoid tissue, the cells of these organs are insensitive to the blastogenic action of Con A in the heavier infections. In lower infections, however, spleen cells show an enhanced response to Con A and LPS; mesenteric cells, on the other hand, show an early enhanced susceptibility to LPS and a reduced susceptibility to Con A and, in the later phases of parasitism, an enhanced Con A and a reduced LPS susceptibility. It is suggested that these phenomena contribute to the immunosuppression phenomena which are characteristic of T. spiralis infections.     

Mouse candidiasis

Administration of a Thy-1.2-specific monoclonal antibody to BALB/c mice resulted in a significant decrease in the efficiency of clearance of Candida albicans from the spleen. The rate of clearance of organisms from the spleen of congenic mice was determined by genes in the major histocompatibility complex, as was the magnitude of the inflammatory response in the popliteal lymph node after footpad immunization. These results formally demonstrate the involvement of T cells in host responses to primary candida infection.     

Effect of Nippostrongylus brasiliensis infection on anti-hapten IgE antibody response in the mouse: I. Induction of carrier specific helper cells

Inoculation of infective larvae of Nippostrongylus brasiliensis into A/J, BALB/c, and SJL mice primed intraperitoneally (ip) 3 weeks before infection with 1 μg of dinitrophenylated keyhole limpet hemocyanin (DNP-KLH) mixed with 1 mg Al(OH)₃ induced a carrier effect on anti-DNP IgE and IgG₁ antibody responses when the experimental mice were secondarily immunized with an ip injection of 1 μg of DNP-coupled N. brasiliensis extract (DNP-Nb) plus alum 2 weeks after infection. The magnitude of the hapten specific antibody response did not correlate rigidly with the number of larvae in the inoculum. Thus, a dose of 100 larvae was as effective in inducing the carrier effect as a dose of 800 larvae. Kinetic studies in A/J and BALB/c mice revealed that the anti-DNP IgE antibody response reached a maximum titer 7 days after the secondary immunization. These studies also showed that the enhanced IgE antibody response persisted for more than 40 days, while the response in all control groups terminated prior to that time. Using the adoptive transfer system, it was demonstrated that lymphoid cells obtained from the spleens or the mesenteric lymph nodes of infected mice cooperated with DNP-KLH primed cells to produce hapten specific IgE and IgG, antibodies when the challenge was made with DNP-Nb but not when it was made with 1 μg DNP-ovalbumin, clearly indicating carrier specificity. The helper activity of the cells obtained from infected mice was completely abolished or greatly reduced by the in vitro treatment with anti-θ serum and complement. The helper cells with maximum activity were present as early as 14 days after inoculation. The level of helper activity gradually decreased after 14 days. The results indicate that N. brasiliensis infection is effective in inducing carrier specific helper cells of thymic origin (T cells) in anti-DNP antibody responses. These results confirm those obtained by other investigators and add the new observation that N. brasiliensis infection elicits special helper T cells which induce an enhancement as well as a prolongation of anti-DNP IgE antibody response.     

Primary in vitro antibody response of rabbit lymphoid cells and T-B cell collaboration in the absence of detectable mitogens

To investigate whether the antibody response and T-B-cell collaboration in vitro can be obtained in the absence of mitogens, a method of obtaining an in vitro primary anti-sheep red blood cell antibody response by rabbit spleen and lymph node cells was developed. We used Marbrook culture vessels and a specially prepared medium containing 10% autologous serum and maintained at pH 7.4–7.6. The system was shown to be devoid of any polyclonal mitogens as assessed by [³H]thymidine incorporation and by direct examination for blast cells in stained smears. The primary response increased continuously over the 5-day cultivation period and only IgM but not IgG plaque-forming cells (PFC) were detected. In over 20 experiments, the response ranged from 357 ± 17 to 4425 ± 110 PFC/10⁷ cultured cells with a median stimulation index of 52. The spleen cells required less antigen than the lymph node cells and 2-mercaptoethanol inhibited the response of the spleen cells but not that of the lymph node cells. Lymphocytes were separated into highly pure T- and B-cell populations by negative selection using antibody-coated human erythrocytes to rosette either T or B cells and Ficoll-Hypaque centrifugation to remove rosetted cells. Upon cultivation, B cells alone gave a low IgM response, whereas B cells reconstituted with T cells gave a response similar to that obtained with unseparated lymphoid cells. We concluded that: (a) optimal conditions for obtaining primary in vitro antibody responses using rabbit spleen and lymph node cells were established, (b) T-B-cell collaboration was demonstrated in the rabbit primary antibody response to sheep erythrocytes, and (c) the primary antibody response in vitro and T-B-cell collaboration may occur in the absence of detectable polyclonal mitogens.     

The Role of Mouse Adenovirus Type 1 Early Region 1A in Acute and Persistent Infections in Mice

Mouse adenovirus type 1 (MAV-1) early region 1A (E1A) viral mutants were used to determine the importance of this region in pathogenesis and establishment of a persistent infection in the natural host. Lethal dose analysis with adult male Swiss outbred mice revealed a significant reduction in virulence for all of the E1A mutants. During acute infections with 10⁵ PFU of virus, an E1A null mutant, pmE109, was found in the same organs (brain, spleen, and spinal cord) and the same cell types (endothelial cells and mononuclear cells in lymphoid tissue) as wild-type virus. Another null mutant, pmE112, was detected in the same organs but in lower numbers. However, when mice were given a lower dose, 1 PFU, pmE109 and pmE112 reached none of the target organs analyzed by 14 days postinfection (p.i.). The absence of E1A did not hinder the ability of MAV-1 to establish a persistent infection. Viral nucleic acid was detected by PCR amplification or in situ hybridization in the kidneys, brains, spleens, and prefemoral lymph nodes of mice infected with wild-type or mutant virus up to 55 weeks p.i. The brain, spleen, and lymph node are recognized sites of acute viral infection but are previously unrecognized sites for MAV-1 persistence. Evidence for the potential reactivation of persistent MAV-1 infections is also presented.     

B Cells Enhance Antigen-Specific CD4 T Cell Priming and Prevent Bacteria Dissemination following Chlamydia muridarum Genital Tract Infection

B cells can contribute to acquired immunity against intracellular bacteria, but do not usually participate in primary clearance. Here, we examined the endogenous CD4 T cell response to genital infection with Chlamydia muridarum using MHC class-II tetramers. Chlamydia-specific CD4 T cells expanded rapidly and persisted as a stable memory pool for several months after infection. While most lymph node Chlamydia-specific CD4 T cells expressed T-bet, a small percentage co-expressed Foxp3, and RORγt-expressing T cells were enriched within the reproductive tract. Local Chlamydia-specific CD4 T cell priming was markedly reduced in mice lacking B cells, and bacteria were able to disseminate to the peritoneal cavity, initiating a cellular infiltrate and ascites. However, bacterial dissemination also coincided with elevated systemic Chlamydia-specific CD4 T cell responses and resolution of primary infection. Together, these data reveal heterogeneity in pathogen-specific CD4 T cell responses within the genital tract and an unexpected requirement for B cells in regulating local T cell activation and bacterial dissemination during genital infection.