Splenic Adherent Cells Research Articles

The Capsular Polysaccharides ofCryptococcus neoformansActivate Normal CD4+ T Cells in a Dominant Th2 Pattern

Capsular components of Cryptococcus neoformans induce several deleterious effects on T cells. However, it is unknown how the capsular components act on these lymphocytes. The present study characterized cellular and molecular events involved in immunoregulation of splenic CD4(+) T cells by C. neoformans capsular polysaccharides (CPSs). The results showed that CPSs induce proliferation of normal splenic CD4(+) T cells, but not of normal CD8(+) T or B lymphocytes. Such proliferation depended on physical contact between CPSs and viable splenic adherent cells (SAC) and CD40 ligand-induced intracellular signal transduction. The absence of lymphoproliferation after fixation of SAC with paraformaldehyde has discarded the hypothesis of a superantigen-like activation. The evaluation of a cytokine pattern produced by the responding CD4(+) T lymphocytes revealed that CPSs induce a dominant Th2 pattern, with high levels of IL-4 and IL-10 production and undetectable inflammatory cytokines, such as TNF-alpha and IFN-gamma. Blockade of CD40 ligand by relevant mAb down-regulated the CPS-induced anti-inflammatory cytokine production and abolished the enhancement of fungus growth in cocultures of SAC and CD4(+) T lymphocytes. Our findings suggest that CPSs induce proliferation and differentiation of normal CD4(+) T cells into a Th2 phenotype, which could favor parasite growth and thus important deleterious effects to the host.

Interleukin-18 stimulates hematopoietic cytokine and growth factor formation and augments circulating granulocytes in mice

Because interleukin-18 (IL-18) is similar to IL-1 and is known to be involved in the hematopoietic progenitor cell growth, the effect of IL-18 on circulating cell populations was examined. Repeated administration of IL-18 induced significant amounts of neutrophilia in mice. In parallel, high levels of interferon-gamma (IFN-gamma), IL-6, and granulocyte-macrophage colony-stimulating factor (GM-CSF) were detected in the serum of these mice. Interestingly, the cytokine profiles as well as the cell populations in circulation altered around 2 weeks after the beginning of IL-18 administration. A weak but definite eosinophilia was observed concurrently with the appearance of serum IL-5. Consistent with these observations, IL-18 induced secretion of IFN-gamma, GM-CSF, and IL-6 from splenocytes in culture. IL-18 also induced low levels of IL-5 in the splenocyte culture, which was inhibited by IL-12. However, markedly high levels of IL-5 were secreted into the culture medium when splenocytes from IFN-gamma-deficient mice were stimulated by IL-18. CD4(+) T cells strongly responded to IL-18 to secrete IL-5 and GM-CSF. IL-18 stimulated secretion of IL-6 and expression of G-CSF mRNA in splenic adherent cells. Expression of IL-18 receptors was detected in CD4(+) T cells and splenic adherent cells (macrophages). These results show that IL-18 stimulates CD4(+) T cells and macrophages to secrete IL-5, GM-CSF, IL-6, and granulocyte-colony stimulating factor in the absence of IL-12, which in turn induces hematopoietic cell proliferation causing neutrophilia and eosinophilia in mice.

DIFFERENTIAL RESPONSE OF THE MURINE IL-12 p35 GENE TO LIPOPOLYSACCHARIDE COMPARED WITH INTERFERON-GAMMA AND CD40 LIGATION

Expression of the heterodimeric cytokine interleukin-(IL-)12 is induced by pattern recognition receptors responding to microbial stimuli such as lipopolysaccharide (LPS) and products of the immune system such as interferon-gamma (IFN-γ) and CD40L. The formation of bioactive IL-12 requires equimolar synthesis of p35 and p40 subunits. However, p35 expression limits the amount of IL-12 formed. Transcription of the gene for the p35 subunit of IL-12 initiates within the first exon, an alternate first exon (exon 1a), or second exon. Here we show that LPS and IFN-γ/CD40 ligation increase the amount of total p35 mRNA in splenic adherent cells (SAC) to a similar extent. However, the exon 1 transcript was a smaller fraction of total p35 mRNA in IFN-γ/CD40-stimulated cells than in unstimulated or LPS-stimulated cells. Despite comparable levels of total p35 mRNA, LPS-induced p35 exon 1 transcripts led to significantly more bioactive IL-12 from SAC than IFN-γ/CD40-induced exon 1a/exon 2 transcripts as measured by ELISA. The data suggest that LPS-inducible p35 synthesis from exon 1 p35 transcripts leads to greater amount of bioactive IL-12 than IFN-γ/CD40-induced p35 expression from alternate p35 exon 1a/exon 2 transcripts.

The in vitro proliferation of murine lymphocytes to mercuric chloride is restricted to mature T cells and is interleukin 1 dependent

The aims of this study were to compare the in vitro responses of murine lymphocytes to HgCl 2 to determine the requirement for adherent cells, and the contribution that costimulation plays in T cell proliferation. The in vitro proliferative response of murine splenocytes to HgCl 2 was found to be both cell concentration- and HgCl 2 concentration-dependent with the greatest response occurring with 5×10 6 cells/ml in the presence of 10 −5 M HgCl 2. Both CD4 + and CD8 + T cells proliferated in response to HgCl 2, but B cells and immature T cells (thymocytes) did not. Proliferation required the presence of splenic adherent cells and was inhibited by addition of anti-IL-1α antibodies. Antibodies to the other co-stimulatory molecules CD40 ligand, CD80 (B7-1), and CD86 (B7-2), although inhibitory, were less effective. Xenobiotics such as the heavy metal mercury can elicit a spectrum of immunological responses ranging from imuunosuppression to autoimmunity. The most common response, in vivo and in vitro, is lymphoproliferation, which may be a prelude to immune activation. Although a number of the requirements for mercury-induced T cell proliferation in vitro have been described, the role that adherent cells play remains to be explained. The studies described here show that interaction between co-stimulatory molecules of adherent cells and mature T cells contributes to HgCl 2-induced T cell proliferation. Among these co-stimulatory molecules, IL-1 appears to play an important role. The requirement for mature T cells, adherent cells, and co-stimulatory molecules argues that HgCl 2-induced T cell proliferation possesses the properties of an antigen-induced response.

Antifungal activity of splenic, liver and pulmonary macrophages against Candida albicans and effects of macrophage colony-stimulating factor

Disseminated infections due to Candida albicans are frequently encountered in immunocompromised patients. We compared the antifungal activities of macrophages residing in spleen, liver and lungs of rabbits against blastoconidia and pseudohyphae of C. albicans. Splenic adherent cells (SAC), Kupffer cells (KC) and pulmonary alveolar macrophages (PAM) all ingested blastoconidia efficiently. SAC caused significantly more damage to unopsonized pseudohyphae compared with KC (P<0·01) or PAM (P<0·001). Incubation of SAC with 15 ng ml-1 of recombinant human macrophage colony-stimulating factor (M-CSF) at 37°C for 2 days significantly enhanced phagocytosis (P = 0·02) and killing (P = 0·05) of blastoconidia. In contrast, M-CSF had no effect on phagocytic activities of KC or PAM against blastoconidia or on damage caused by any of the macrophages to pseudohyphae of C. albicans. Thus, although all three resident macrophage types ingest blastoconidia efficiently, they differ in their capacity to cause damage to pseudohyphae and in their responsiveness to M-CSF for antifungal activation. M-CSF augments the capacity of SAC to ingest and kill blastoconidia and may therefore have a role in the treatment and prevention of hematogenously disseminated candidiasis.

Polarization of naive CD4+ T cells toward the Th1 subset by CTLA-4 costimulation.

In this study, we examined in vitro the role of CTLA-4 costimulation in the polarization of naive CD4+ T cells toward the Th1 subset. When CTLA-4 costimulation was blocked by the inclusion of anti-CTLA-4 Fab in cultures during priming of naive CD4+ T cells with anti-CD3 in the presence of splenic adherent cells, they were polarized toward the Th2 subset. Conversely, the engagement of CTLA-4 with immobilized anti-CTLA-4 or with CD80-P815 cells polarized naive CD4+ T cells costimulated with anti-CD3 and anti-CD28 toward the Th1 subset. The CTLA-4 costimulation during priming augmented TGF-beta1 mRNA accumulation in naive CD4+ T cells, and the inclusion of anti-TGF-beta in cultures for priming suppressed the effect of CTLA-4 costimulation on the Th1 polarization. The addition of low doses of TGF-beta1 in cultures for priming of naive CD4+ T cells enhanced the production of Th1 cytokines upon secondary stimulation, although Th2 cytokine production was not affected by the doses of TGF-beta1. The CTLA-4 costimulation was also shown to suppress IL-4 production of naive CD4+ T cells upon priming. These results indicate that the costimulation against CTLA-4 drives polarization of naive CD4+ T cells toward the Th1 subset independent of IL-12 through, at least in part, the enhancement of TGF-beta1 production, and it also hampers Th2 subset differentiation by affecting IL-4 production of naive CD4+ T cells.

Antifungal activity of splenic, liver and pulmonary macrophages against Candida albicans and effects of macrophage colony-stimulating factor

Disseminated infections due to Candida albicans are frequently encountered in immunocompromised patients. We compared the antifungal activities of macrophages residing in spleen, liver and lungs of rabbits against blastoconidia and pseudohyphae of C. albicans. Splenic adherent cells (SAC), Kupffer cells (KC) and pulmonary alveolar macrophages (PAM) all ingested blastoconidia efficiently. SAC caused significantly more damage to unopsonized pseudohyphae compared with KC (P < 0.01) or PAM (P < 0.001). Incubation of SAC with 15 ng ml(-1) of recombinant human macrophage colony-stimulating factor (M-CSF) at 37 degrees C for 2 days significantly enhanced phagocytosis (P = 0.02) and killing (P = 0.05) of blastoconidia. In contrast, M-CSF had no effect on phagocytic activities of KC or PAM against blastoconidia or on damage caused by any of the macrophages to pseudohyphae of C. albicans. Thus, although all three resident macrophage types ingest blastoconidia efficiently, they differ in their capacity to cause damage to pseudohyphae and in their responsiveness to M-CSF for antifungal activation. M-CSF augments the capacity of SAC to ingest and kill blastoconidia and may therefore have a role in the treatment and prevention of hematogenously disseminated candidiasis.

An immunomodulatory arabinomannan extracted from Mycobacterium tuberculosis, Z-100, restores the balance of Th1/Th2 cell responses in tumor bearing mice

The regulatory effect of Z-100 on the balance of Th1/Th2 cell responses in BALB/c mice bearing Meth-A fibrosarcoma was investigated. In tumor bearing mice, Th1 cytokine production (IL-2, IFN-γ) are suppressed and Th2 cytokine production (IL-4, IL-10) are increased, as compared with those of normal mice. The administration of Z-100 (10 mg/kg) to tumor bearing mice restored the balance of Th1/Th2 cell responses from Th2 dominant state to the normal state. This regulatory effect of Z-100 was eliminated by depletion of adherent cells from splenocytes derived from tumor bearing mice, and by the treatment with 2-ClAdo (a macrophage inhibitor). Similarly, this regulatory effect was diminished by the treatment with anti-IL-12 mAb and anti-IFN-γ mAb. In addition, the IL-12 p40 mRNA expression in splenic adherent cells and IFN-γ mRNA expression in CD4 + T cells were increased by the administration of Z-100 to tumor bearing mice. These results suggested that Z-100 restored the balance of Th1/Th2 cell responses to the normal one in tumor bearing mice through the activation of macrophages and up-regulation of IL-12 production from macrophages and IFN-γ production from CD4 + T cells.

Macrophages expressing heat-shock protein 65 play an essential role in protection of mice infected with Plasmodium yoelii.

C57BL/6 (B6) mice are resistant to infection with the non-lethal (NL) strain of Plasmodium yoelii 17X, while being susceptible to that with the lethal (L) strain. The 65 000 MW heat-shock protein (hsp 65) was strongly expressed in splenic adherent cells of B6 mice 10 days after infection with the NL strain of P. yoelii but only slightly in those from mice infected with the L strain. Mice which had survived infection with the NL strain were resistant to challenge with the L strain and hsp 65 was strongly expressed in splenic adherent cells of these mice. Severe combined immunodeficient mice and nude mice were susceptible to malaria infection even with the NL strain and did not express hsp 65 after infection, suggesting that T cells are required for the expression of hsp 65 as well as for protective immunity. B6 mice treated intraperitoneally with carrageenan, which impairs the macrophage function, became susceptible to NL strain infection, indicating that macrophages play an important role as the final effectors in protective immunity. These results demonstrate that the hsp 65 expressed by macrophages correlates closely with protection against P. yoelii infection.

Development and Proliferation of Trypanosoma musculi in the Presence of Adherent Splenic Cells

The development and proliferation of Trypanosoma musculi parasites were studied in vitro in the presence of adherent splenic cells. The parasites grew and proliferated only when attached by their flagellar tips to adherent splenic cells. Analyses of excretory-secretory products of the adherent cells-parasites did not indicate any detectable soluble growth factor that might be responsible for the growth of these trypanosomes. During the proliferation, the kinetoplast migrated toward the nucleus, and once in the vicinity of the nucleus, nuclear division was triggered. The nucleus and kinetoplast divided at the same time Trypanosoma musculi parasites started dividing from their flagellar ends, and daughter cells were formed within 48 hr. In the absence of adherent splenic cells in vitro, the parasites were transformed into round nonviable forms.

The effect of a tyrosine kinase inhibitor on endotoxin mortality and splenocyte mediator production in the neonatal rat.

Tyrosine kinases mediate cellular signal transduction to endotoxin. A class of tyrosine kinase inhibitors, the tyrphostins, have been shown to protect mice from endotoxin-induced lethality. Neonatal rats and mice have been shown to be uniquely susceptible to lethal endotoxic shock. In our study, the effect of a lipophilic tyrphostin, AG 556, on endotoxin-induced neonatal and adult mortality and in vitro neonatal splenic cell thromboxane (TxB2), tumor necrosis factor-alpha (TNF-alpha), and nitric oxide (NO) production were examined. Neonatal rats (<24 h old) were administered tyrphostin (100 microg subcutaneous) 2 h before an approximate LD50 dose of Salmonella enteritidis endotoxin (.024 mg/kg/intracardiac). There was a significant decrease in mortality in the animals pretreated with 100 microg of tyrphostin (29% mortality in the treated group, n = 41 versus 53% in the vehicle control group, n = 40; p < .05). Also in adult rats tyrphostin (5 mg/kg intraperitoneal) 2 h before endotoxin (10 mg/kg intravenous) significantly improved survival (50% drug treated versus 84% in control, n = 12/group; p < .05). Adherent neonatal splenic cell mediator production of TxB2, TNF-alpha, and NO (measured by nitrite) in tyrphostin pretreated splenic cells were compared with endotoxin-stimulated splenic cells in vitro. The studies (n = 4) demonstrate an increase (p < .05) in the production of TxB2, TNF-alpha, and NO in the endotoxin- (10 microg/mL) stimulated adherent splenic cells compared with basal. Tyrphostin pretreatment (10, 20, 50 microM) produced a dose-dependent decrease (p < .05) in endotoxin-stimulated TxB2 and TNF-alpha production. NO production was not significantly reduced. In conclusion, tryphostin appears to have a protective effect on mortality in both adult and neonatal rat endotoxic shock. Tyrphostin decreased specific mediator production in stimulated neonatal cells. Thus, inhibition of signal transduction pathways of endotoxin activation by tyrosine kinase inhibition may provide an effective approach to treat endotoxic shock in the neonate.

Interferon induction in turkeys by oral administration of the imidazoquinolinamine S-28828 and modulation of the pathogenesis of Escherichia coli

A synthetic imidazoquinolinamine, S-28828, has been shown to be an effective antiviral and antitumor agent in mammals. This immune modifier induces a number of cytokines such as interferons, tumor necrosis factor-α, interleukins and granulocyte–macrophage colony-stimulating factors in mammals. We showed that when turkeys were given S-28828 orally, high serum titers of IFN were induced in a dose-dependent manner. Turkeys, once stimulated by S-28828, became refractory to IFN production by repeated stimulation. S-28828 induced spleen, bone marrow and peripheral leukocytes to produce IFN in vitro. Splenic adherent cells were the main producers of IFN after in vitro stimulation. S-28828-induced IFN was identified as type I IFN that was pH-resistant but heat-labile. We examined the effect of a high dose (100 mg kg −1 body weight) of S-28828 on the pathogenesis of E. coli in turkeys. Treatment with S-28828 increased mortality in infected birds and impaired E. coli clearance from the liver. The enhancement of the pathogenicity of E. coli by S-28828 may have been due to the massive release of cytokines inducing a shock-like syndrome in infected turkeys.

Induction of Th2 cell differentiation in the primary immune response: dendritic cells isolated from adherent cell culture treated with IL-10 prime naive CD4+ T cells to secrete IL-4.

A number of observations indicate that exposure to IL-4 is essential for the priming of Th2-type effector T cells and that exposure to IL-12 is essential for the priming of Th1-type effector T cells. However, the initial source of IL-4 in the early immune response has not been clearly identified. Dendritic cells (DC) are the most potent antigen-presenting cells (APC) in priming naive T cells. In this report, we show that DC exposed to IL-10 may play an important role in the priming of IL-4-secreting cells in the early immune response. DC isolated from splenic adherent cell cultures treated with rIL-10 (IL-10-DC) primed naive ovalbumin (OVA)-TCR transgenic T cells to secrete IL-4 upon re-stimulation with OVA and splenic APC. By contrast, DC isolated from rIL-12, rIL-4 or control treated cultures induced almost exclusively Th1-type effector T cells. IL-4 secretion was detected in the primary cultures of IL-10-DC plus naive CD4+ T cells and the priming of IL-4-secreting T cells by IL-10-DC was dependent on endogenous IL-4 production in the priming culture since anti-IL-4 neutralizing antibody completely abrogated the priming of IL-4-secreting cells. Anti-B7-2 but not anti-B7-1 inhibited the ability of IL-10-DC to prime T cells to secrete IL-4. Furthermore, the ability of IL-10 DC to prime for IL-4-secreting T cells was closely related to the down-regulation of CD40 ligand-mediated IL-12 p70 production by DC in the primary cultures and was markedly reduced by adding exogenous IL-12 to the priming cultures. Thus, our findings indicate that early immunologic events that drive Th2 differentiation involve the effects of IL-10 on DC.

Splenic adherent cells, stimulated in vitro, induce the reactive formation of lymphoid follicles and germinal centres in draining lymph nodes after subcutaneous transfusion into syngeneic mice.

The reactive formation of lymphoid follicles and germinal centres in lymph nodes, induced by subcutaneous transfer of in vitro activated splenic adherent cells into syngeneic mice, were studied. Adherent cells were obtained by incubating spleen cell suspensions for 24 h and activated by incubating for 1 h in the medium containing keyhole limpet haemocyanin (KLH) absorbed onto alumina. Some of the treated adherent cells were irradiated with 10 Gy x-rays, while others were either not stimulated or were stimulated with alumina-KLH but killed by repeated freezing and thawing. Examination of adherent cell smears immunostained with antibodies against, F4/80, Mac-1, Mac-2 and NLDC-145 indicated that many adherent cells displayed macrophage markers but few displayed the interdigitating cell marker. Animals transfused with KLH-treated adherent cells with or without irradiation showed a marked increase in the number of lymphoid follicles and germinal centres in draining lymph nodes, whereas those transfused with adherent cells which had not been KLH-treated or which had been killed after KLH treatment displayed no significant change in the number of follicles. These results were interpreted as indicating that following transfusion, antigen-activated adherent macrophages migrated into the draining lymph nodes and induced the reactive formation of lymphoid follicles and germinal centres outside preexisting follicles.

Corticosteroids Enhance the Capacity of Macrophages to Induce Th2 Cytokine Synthesis in CD4+ Lymphocytes by Inhibiting IL-12 Production

We investigated the effects of corticosteroids on IL-12 production by mouse splenic adherent cells and the subsequent capacity of these cells to induce cytokine production by CD4+ T cells. To distinguish the effects of corticosteroids on APCs from those on T cells, only the APCs and not the T cells were exposed to corticosteroids. Treatment of splenic adherent cells with dexamethasone greatly inhibited production of IL-12, a cytokine known to enhance IFN-gamma synthesis and decrease IL-4 synthesis by CD4+ T cells. The reduction in IL-12 production by corticosteroid-treated macrophages decreased their ability to induce IFN-gamma and increased their ability to induce IL-4 synthesis in Ag-primed CD4+ T cells. Splenic adherent cells from mice treated in vivo with dexamethasone also displayed a reduced capacity to produce IL-12. These results help to resolve previous conflicting observations regarding the effects of corticosteroids on cytokine production by T cells, and indicate that while corticosteroids may directly inhibit Th1 and Th2 cytokine production in T cells, corticosteroids, by reducing IL-12 production in APCs, have the potential to indirectly enhance Th2 cytokine synthesis. Therefore, treatment of diseases such as allergy with chronic corticosteroids may indirectly exacerbate the course of the disease, which is caused primarily by the overproduction of Th2 cytokines in allergen-specific CD4+ T cells.

IL-12 Receptor (IL-12R) Expression and Accumulation of IL-12Rβ1 and IL-12Rβ2 mRNAs in CD4+ T Cells by Costimulation with B7-2 Molecules

AbstractIL-12 is a crucial cytokine for the determination of a Th1/Th2 balance. It is important, therefore, to elucidate the mechanisms of IL-12R expression on Th cells. In this report, we present evidence to show that B7-2 costimulation plays a pivotal role in the expression of IL-12R on Th cells. A Th1 clone expressed a low density of IL-12R in a resting condition, the expression was enhanced by stimulation with specific Ag on splenic adherent cells and the enhancement was inhibited by anti-B7-2 or CTLA-4-Ig. When stimulated with anti-CD3 plus B7-2-transfected Chinese hamster ovary (CHO) cells, the clone strongly expressed IL-12R, although anti-CD3 by itself only weakly enhanced the expression. We obtained results that were similar to those in the Th1 clone in CD4+CD45RBlow memory T cells. In CD4+CD44low naive T cells, costimulation with B7-2-CHO was found to play a more important role in IL-12R expression. The accumulation of both IL-12Rβ1 and -β2 chain mRNAs was detected in naive T cells only when they were costimulated with anti-CD3 and B7-2-CHO, but β2 mRNA was not expressed upon anti-CD3 stimulation alone. On the other hand, both Th1 clones and memory T cells expressed low amounts of these mRNA without any stimulation, and the expression was weakly enhanced by anti-CD3 stimulation alone. For the maximum expression of these mRNAs, however, these cells also required costimulation with anti-CD3 and B7-2-CHO.

Interleukin-10 functions in vitro and in vivo to inhibit bacterial DNA-induced secretion of interleukin-12.

Bacterial DNA (bDNA) has a number of biologic properties, including the ability to induce interleukin-12 (IL-12) production by macrophages. We studied the role of the regulatory cytokine IL-10 as a potential inhibitor of bDNA-induced IL-12 production. IL-10 concentrations as low as 0.3 ng/ml profoundly inhibited bDNA-induced macrophage IL-12 production as measured by Elispot analysis of IL-12 p40-secreting cells. Additionally, we found that IL-10 inhibited bDNA-induced IL-12 secretion by the macrophage cell lines J774 and RAW 264. Preincubation of splenic adherent cells with IL-10 markedly reduced bDNA-induced transcription of IL-12 p40 mRNA. Interestingly, after 2 h of exposure, bDNA also induces transcription of IL-10 mRNA by splenic adherent cells. The importance of IL-10 in the in vivo regulation of bDNA-induced cytokine secretion was illustrated by the response of mice with disrupted IL-10 genes (IL-10 ko mice) to i.v. bDNA challenge. Compared to +/+ mice, IL-10 knockout (ko) mice exhibited increased numbers of IL-12 and interferon-gamma (IFN-gamma)-secreting cells following either single or repeated challenge with bDNA. These findings indicate that IL-10 plays a key role in regulating bDNA-induced production of inflammatory cytokines.

An antibody specific for interleukin-6 reverses age-associated changes in spontaneous and induced cytokine production in mice.

A number of quantitative and qualitative changes in the pattern of cytokine production have been reported to accompany the process of ageing in laboratory animals and in human populations, including an increase in serum levels of interleukin-1 (IL-1) and IL-6, as well as increased concanavalin A (ConA)-stimulated production of IL-4, IL-10 and transforming growth factor-beta (TGF-beta), and decreased production of IL-2 from cultured spleen cells. Increased IL-1 and IL-6 production is a feature of splenic adherent cells and peritoneal exudate cells taken from aged mice and stimulated with lipopolysaccharide in vitro. We have asked whether the altered production of lymphocyte-derived cytokines (IL-4, IL-2, TGF-beta) is itself a function of a primary alteration in IL-1/IL-6 production (from macrophage/monocytes) by infusing monoclonal antibodies to these cytokines prior to harvesting cells from aged mice and stimulating the cells in vitro. Anti-IL-6, but not anti-IL-1, reversed the age-associated alteration in lymphocyte cytokine production. The general pattern of cytokine production in aged mice is of a type-2 cytokine type, and thus these data are consistent with the idea that increased production of IL-6 in aged animals is causally implicated in this age-associated polarization to type-2 cytokine production.

Sensitization to lipopolysaccharide in mice with asymptomatic viral infection: role of T cell-dependent production of interferon-gamma.

The interplay between viral infection and lipopolysaccharide (LPS) was studied. Infection with a noncytopathogenic virus, lymphocytic choriomeningitis virus (LCMV), was found to sensitize mice to low doses of LPS. In vivo, this hypersensitivity correlated with hyperproduction of tumor necrosis factor-alpha (TNF-alpha), and in vitro, LPS-stimulated splenic adherent cells produced increased amounts of TNF-alpha. Hyperproduction of TNF-alpha was temporally correlated with virus-induced production of interferon-gamma (IFN-gamma); only marginally increased IFN-gamma and TNF-alpha production was observed in LCMV-infected, T cell-deficient mice and in mice infected with vesicular stomatitis virus, a virus that induces much less T cell activation than does LCMV. Finally, LCMV infection was much less efficient in priming IFN-gamma knockout mice for hyperproduction of TNF-alpha. These findings indicate that clinically silent viral infections may induce hypersensitivity to LPS through T cell activation and subsequent production of IFN-gamma; this sensitizes monocytes/macrophages for hyperproduction of TNF-alpha.

Antigen-specific B cells preferentially induce CD4+ T cells to produce IL-4.

The role of Ag presentation by B cells in regulating the development of T cells with restricted cytokine profiles remains controversial. In this report, we compared Ag presentation by naive polyclonal B cells, naive Ag-specific B cells (from Ig receptor transgenic mice), or splenic adherent cells (SAC) and examined the capacity of these cells to influence cytokine production by CD4+ T cells. Freshly isolated naive B cells stimulated vigorous T cell proliferation and very strong T cell cytokine responses, but only when cultured with Ag recognized by the B cell Ig receptor (cognate Ag) and not when cultured with a noncognate Ag. Under these conditions, B cells activated by Ig receptor-mediated endocytosis of Ag induced both naive and Ag-primed CD4+ T cells to produce high levels of IL-4 (300-4000 pg/ml). In contrast, SAC induced the production of very low levels of IL-4 (<100 pg/ml) but much higher maximal levels of IFN-gamma than did Ag-specific B cells. The induction of IL-4 synthesis by Ag-specific B cells was significantly reduced by blocking CD40-CD40 ligand (CD40L) interactions or by the addition of small quantities of rIL-12. These results suggest that B cells activated by their cognate Ag preferentially induce IL-4 synthesis as a result of the interaction of CD40L on T cells with CD40, whereas SAC preferentially induce IFN-gamma synthesis by T cells as a result of their greater production of IL-12 and their limited capacity to trigger CD40L on T cells.