Specific expression of surface interferon-γ on interferon-γ producing T cells from mouse and man

Interferon (IFN)-γ is a potent immunoregulatory protein secreted by CD4⁺ and CD8⁺ T cells and by natural killer cells. Here, we show that IFN-γ is specifically displayed at a low concentration on the cell surface of those activated T cells from mouse and man which express IFN-γ. It is transiently expressed on the cell surface with kinetics similar to those of intracellular IFN-γ expression. Detectable surface IFN-γ is not expressed by activated T helper (Th) cells producing other cytokines but which do not express IFN-γ. Thus, surface IFN-γ is the first available marker for live T lymphocytes expressing IFN-γ, e.g. Th1 cells.     

Interleukin-12 but not interferon-γ production correlates with induction of T helper type-1 phenotype in murine candidiasis

By means of polymerase chain reaction-assisted mRNA amplification, we have monitored message levels of interleukin (IL)-12 in splenic macrophages and of interferon-γ (IFN-γ), IL-4, and IL-10 in CD4⁺ and CD8⁺ T cells using Candida albicans/host combinations that result either in a T helper type-1 (Th1)-associated self-limiting infection (“healer mice”) or in a Th2-associated progressive disease (“nonhealer mice”). The timing and pattern of message detection did not differ qualitatively by the expression of IFN-γ or IL-10 mRNA in CD4⁺ and CD8⁺ cells from healer (i.e. PCA-2 into CD2F1) vs. nonhealer (i.e. CA-6 into CD2F1 or PCA-2 into DBA/2) mice. In contrast, IL-4 mRNA was uniquely expressed by CD4⁺ cells from nonhealer animals. IL-12p40 was readily detected in macrophages from healer mice but was detected only early in infection in mice with progressive disease. Cytokine levels were measured in sera, and antigen-driven cytokine production by CD4⁺ and CD8⁺ cells was assessed in vitro, while IFN-γ-producing cells were enumerated in CD4^? CD8^? cell fractions. Overall, our results showed that (i) antigen-specific secretion of IFN-γ protein in vitro by CD4⁺ cells occurred only in healing infection; (ii) IL-4- and IL-10-producing CD4⁺ cells would expand in nonhealer mice in the face of high levels of circulating IFN-γ, likely released by CD4^? CD8^? lymphocytes; (iii) a finely regulated IFN-γ production correlated in the healer mice with IL-12 mRNA detection, and IL-12 was required in vitro for yeast-induced development of IFN-γ-producing CD4⁺ cells. Although the mutually exclusive production of IL-4/IL-10 and IFN-γ by early CD4⁺ cells may be the major discriminative factor of cure and noncure responses in candidiasis, IL-12 rather than IFN-γ production may be an indicator of Th1 differentiation.     

Influence of a mutation in IFN-γ receptor 2 (IFNGR2) in human cells on the generation of Th17 cells in memory T cells

The T cell subsets involved in inflammatory reactions are mainly the IFN-γ secreting Th1 cells and IL17-producing Th17 cells. Although Th17 cells are primed in the thymus, there is evidence that Th17 cells can be generated from effector memory CD4⁺ T cells. Cytokines as IL-6, TGF-β, IL-21 and IL-23 involved in development of Th17 cells are well described. Here we analyzed the impact of a mutation in the IFN-γ receptor 2 (IFN-γR2) on the induction of Th17 cells. By isolation of T cells and monocytes of a patient with this mutation we could demonstrate an inhibitory role of IFN-γ signaling as IFN-γR2-deficient monocytes induce a higher percentage of IL-17⁺ cells from both healthy and IFN-γR2-deficient CD4⁺ T cells. This data confirm the interference of these two T helper subsets and points to a balance of Th1 and Th17 cells obtained by their own cytokine production and their interplay with APCs.     

IL-12hi Rapamycin-Conditioned Dendritic Cells Mediate IFN-γ–Dependent Apoptosis of Alloreactive CD4+ T Cells In Vitro and Reduce Lethal Graft-Versus-Host Disease

Rapamycin (RAPA) inhibits the mechanistic target of rapamycin (mTOR), a crucial immune system regulator. Dendritic cells (DC) generated in RAPA (RAPA-DC) enrich for CD4⁺ forkhead box p3 (FoxP3⁺) regulatory T cells and induce T cell apoptosis by an unknown mechanism. RAPA-DC also promote experimental allograft survival, yet paradoxically secrete increased IL-12, crucial for the generation of IFN-γ⁺ CD4⁺ T cells. However, IFN-γ is pro-apoptotic and IL-12-driven IFN-γ inhibits experimental graft-versus-host disease (GVHD). We hypothesized that IL-12^hi RAPA-DC would facilitate IFN-γ-mediated apoptosis of alloreactive T cells and, unlike control (CTR)-DC, would reduce lethal GVHD. Following LPS stimulation, RAPA-DC exhibited decreased MHCII and co-stimulatory molecules and contained a significant population of CD86^lo IL-12^hi cells. Consistent with our hypothesis, both unstimulated and LPS-stimulated RAPA-DC enhanced alloreactive CD4⁺ T cell apoptosis in culture. Augmented T cell apoptosis was ablated by IFN-γ neutralization or using T cells lacking the IFN-γ receptor, and it was associated with increased expression of Fas and cleaved caspase 8. DC production or responses to IFN-γ were not important to increased apoptotic functions of RAPA-DC. LPS-stimulated IL-12p40^−/− RAPA-DC induced lower levels of T cell apoptosis in culture, which was further decreased with addition of anti-IFN-γ. Finally, whereas CTR-DC accelerated mortality from GVHD, LPS-treated RAPA-DC significantly prolonged host survival. In conclusion, increased apoptosis of allogeneic CD4⁺ T cells induced by LPS-stimulated IL-12^hi RAPA-DC is mediated in vitro through IFN-γ and in part by increased IL-12 expression. Enhanced production of IL-12, the predominant inducer of IFN-γ by immune cells, is a probable mechanism underlying the capacity of LPS-treated RAPA-DC to reduce GVHD.     

Diversion of CD4+ T cell development from regulatory T helper to effector T helper cells alters the contact hypersensitivity response

Cutaneous sensitization to reactive haptens and subsequent challenge results in a T cell-mediated response, contact hypersensitivity (CHS). Recent results from this laboratory have indicated that hapten sensitization induces two populations of reactive T cells: CD8⁺ T cells producing interferon (IFN)-γ which mediate the response and CD4⁺ T cells producing interleukin (IL)-4 and IL-10 which negatively regulate the magnitude and duration of the response. Since CD4⁺ T cell development to either IFN-γ- (Th1) or IL-4/IL-10- (Th2)-producing cells is dependent upon the cytokine environment during antigen priming, we hypothesized that CD4⁺ T cell induction in a Th1-promoting environment would not only alter the CD4⁺ T cell cytokine-producing phenotype but also the course of the CHS response. Administration of the Th1-promoting cytokine IL-12 during hapten sensitization resulted in a CHS response of greater magnitude following challenge and extended the duration of the response. In hapten-sensitized mice depleted of CD8⁺ T cells, treatment with IL-12 induced effector CD4⁺ T cells. Histological examination of challenged ear tissue from these mice indicated minimal edema and an acute mononuclear cell infiltration more typical of classical delayed-type hypersensitivity than CHS. Hapten-primed CD4⁺ T cells from IL-12 treated, sensitized mice produced IFN-γ, but not IL-4 in response to T cell receptor-mediated stimulation. Use of neutralizing anti-IFN-γ antibody indicated that IL-12 not only directly promoted Th1 development but also indirectly inhibited Th2 development through stimulation of IFN-γ production at the time of hapten sensitization. Overall, these results demonstrate that diversion of CD4⁺ T cell development to Th1 effector cells rather than to Th2 cells alters the efferent nature of CHS and removes a primary regulatory mechanism of the immune response.     

Expression of pro-inflammatory cytokines by TCRαβ+ T and TCRγδ+ T cells in an experimental model of colitis

An inflammatory bowel disease (IBD) comparable to human ulcerative colitis is induced upon transfer of T cell-depleted wild-type (F1) bone marrow into syngeneic T cell-deficient (tgε26) mice (F1 → tgε26). Previously we have shown that activated CD4⁺ T cells predominate in transplanted tgε26 mice, and adoptive transfer experiments verified the potential of these cells to cause disease in immunodeficient recipient mice. Using flow cytometry for the detection of intracellular cytokine expression, we demonstrate in the present study that large numbers of CD4⁺ and CD8⁺ TCRαβ⁺ T cells from the intraepithelial region and lamina propria of the colon of diseased, but not from disease-free mice, produced interferon-γ (IFN-γ) and tumor necrosis factor-α (TNF-α). Large numbers of T cells from peripheral lymphoid tissues of these animals also expressed IFN-α and TNF-α, but few expressed interleukin-4, demonstrating g strong bias towards Th1-type T cell responses in these animals. TCRγδ⁺ T cells, typically minor constituents of the inflammatory infiltrate of the colon in F1 → tgε26 mice, also expressed IFN-γ at a high frequency upon CD3 stimulation. In light of these findings we examined the potential involvement of TCRγδ⁺ T cells by testing their ability to induce colitis in tgε26 mice. We report here that tgε26 mice transplanted with T cell-depleted bone marrow from TCRα^null and TCRβ^null animals developed IBD. Furthermore, disease in these mice correlated with the development of peripheral and colonic TCRαδ⁺ T cells capable of IFN-γ production. These results suggest that IFN-γ may be a common mediator of IBD utilized by pathogenic T cells of distinct phenotype.     

IL-4-producing NK T cells are biased towards IFN-γ production by IL-12. Influence of the microenvironment on the functional capacities of NK T cells

NK T cells are an unusual T lymphocyte subset capable of promptly producing several cytokines after stimulation, in particular IL-4, thus suggesting their influence in Th2 lineage commitment. In this study we demonstrate that, according to the cytokines present in the micro environment, NK T lymphocytes can preferentially produce either IL-4 or IFN-γ. In agreement with our previous reports showing that their IL-4-producing capacity is strikingly dependent on IL-7, CD4⁻ CD8⁻ TCRα β⁺ NK T lymphocytes, obtained after expansion with IL-1 plus granulocyte-macrophage colony-stimulating factor, produced almost undetectable amounts of IL-4 or IFN-γ in response to TCR/CD3 cross-linking. However, the capacity of these T cells to produce IFN-γ is strikingly enhanced when IL-12 is added either during their expansion or the anti-CD3 stimulation, while IL-4 secretion is always absent. A similar effect of IL-12 on IFN-γ production was observed when NK T lymphocytes were obtained after expansion with IL-7. It is noteworthy that whatever cytokines are used for their expansion, IL-12 stimulation, in the absence of TCR/CD3 cross-linking, promotes consistent IFN-γ secretion by NK T cells without detectable IL-4 production. Experiments in vivo demonstrated a significant up-regulation of the capacity of NK T cells to produce IFN-γ after anti-CD3 mAb injection when mice were previously treated with IL-12. In conclusion, we provide evidence that the functional capacities of NK T cells, which ultimately will determine their physiological roles, are strikingly dependent on the cytokines present in their microenvironment.     

Interleukin-13 is produced by activated human CD45RA+ and CD45R0+ T cells: modulation by interleukin-4 and interleukin-12

Interleukin (IL)-13 is a cytokine originally identified as a product of activated T cells. Little is known, however, about IL-13 production by human T cells and its modulation by other cytokines. Here, we show that IL-13 is produced by activated human CD4⁺ and CD8⁺ CD45R0⁺ memory T cells and CD4⁺ and CD8⁺ CD45RA⁺ naive T cells. In contrast, IL-4, which shares many biological activities with IL-13, is only produced by CD45R0⁺ T cells following activation. Analysis of intracellular cytokine production by single CD45RA⁺ and CD45R0⁺ T cells indicated that IL-13 continued to be produced for more than 24 h after stimulation, whereas IL-4 could not be detected after 24 h. These data were confirmed by measurement of specific mRNA and suggest that IL-13, unlike IL-4, but like interferon-γ (IFN-γ), is a cytokine with long-lasting kinetics. The majority of human CD45R0⁺ T cells produced IL-4 and IL-13 simultaneously. In contrast, IFN-γ protein was generally not co-expressed with IL-4 or IL-13. IL-4 added to primary cultures of highly purified peripheral blood T cells activated by the combination of anti-CD3+anti-CD28 mAb enhanced IL-13 production by CD45RA⁺ and to a lesser extent by CD45R0⁺ T cells. Under these conditions, however, IL-12 inhibited IL-13 production by CD45RA⁺ T cells and to a lesser extent by CD45R0⁺ T cells in a dose-dependent fashion. These inhibiting effects were not related to enhanced IFN-γ production induced by IL-12, since IFN-γ by itself did not affect IL-13 production. Collectively, our data indicate that IL-13 is produced by peripheral blood T cells which also produce IL-4, but not IFN-γ, and by naive CD45RA⁺ T cells which, in contrast, fail to produce IL-4. These observations, together with the long-lasting production of IL-13, suggest that IL-13 may have IL-4-like functions in situations where T cell-derived IL-4 is still absent or where its production has already been down-regulated.     

Pro-inflammatory cytokines and prostaglandins induce maturation of potent immunostimulatory dendritic cells under fetal calf serum-free conditions

Culture conditions for human dendritic cells (DC) have been developed by several laboratories. Most of these culture methods, however, have used conditions involving fetal calf serum (FCS) to generate DC in the presence of granulocyte-macrophage colony-stimulating factor and interleukin (IL)-4. Recently, alternative culture conditions have been described using an additional stimulation with monocyte-conditioned medium (MCM) and FCS-free media to generate DC. As MCM is a rather undefined cocktail, the yield and quality of DC generated by these cultures varies substantially. We report that a defined cocktail of tumor necrosis factor (TNF)-α, IL-1β and IL-6 equals MCM in its potency to generate DC. Addition of prostaglandin (PG)E₂ to the cytokine cocktail further enhanced the yield, maturation, migratory and immunostimulatory capacity of the DC generated. More importantly, culture conditions also influenced the outcome of the T cell response induced. DC cultured with TNF-α/IL-1/IL-6 or MCM alone induced CD4⁺ T cells that release intermediate levels of interferon (IFN)-γ and no IL-4 or IL-10. Production of IFN-γ was significantly induced by addition of PGE₂, while no effect on production of IL-4 or IL-10 was observed. Even more striking differences were observed for CD8⁺ T cells. While MCM conditions only induced IFN-γ^low, IL-4^neg cells, TNF-α/IL-1/IL-6 promoted growth of IFN-γ^intermediate, IL-4^neg CD8⁺ T cells. Addition of PGE₂ again only further polarized this pattern enhancing IFN-γ production by alloreactive CD8⁺ T cells in both cultures without inducing type 2 cytokines. Taken together, the data indicate that the defined cocktail TNF-α/IL-1/IL-6 can substitute for MCM and that addition of PGE₂ further enhances the yield and quality of DC generated. TNF-α/IL-1, IL-6 + PGE₂-cultured DC seem to be optimal for generation of IFN-γ-producing CD4/CD8⁺ T cells.     

Allergen-specific IL-10-secreting type I T regulatory cells,but not CD4CD25Foxp3 T cells,are decreased in peripheral blood of patients with persistent allergic rhinitis

We investigate the frequencies of CD4⁺CD25⁺Foxp3⁺ T cells and allergen-specific IL-10⁺IL-4^-, IFN-γ⁺IL-4^-, IL-4⁺IFN-γ^-CD4⁺ T cells (which display characteristics of nTreg, Tr1-, Th1- and Th2- cells, respectively) in peripheral blood mononuclear cells (PBMCs) of patients with AR and of healthy individuals. In addition, we estimated the suppressive effect of CD4⁺CD25⁺ Treg cells and allergen-specific, IL-10-secreting cells from both two groups. The frequency of CD4⁺CD25⁺Foxp3⁺ T cells is similar in 43 AR patients compared with 38 healthy subjects. CD4⁺CD25^high cells retain suppressive activity on allergen-stimulated cell proliferation and cytokine production of Th1 but not Th2 cells in both groups. However, the frequency of allergen-specific IL-10⁺IL-4^-CD4⁺ T cells is reduced in AR patients, and correlates inversely to clinical symptom scores. Allergen-specific, IL-10-secreting cells potently suppressed D. pteronyssinus major allergen 1-stimulated cell proliferation and cytokine production (IFN-γ and IL-4) in healthy individuals. Altogether our data indicate that the number and function of CD4⁺CD25⁺ Treg cells from allergic patients are not impaired. However, the deficiency of allergen-specific Tr1 cells may play a role in the development of AR.     

T cell response in murine Leishmanial mexicana amazonensis infection: production of interferon-γby CD8+ cells

The immune response to Leishmania major has been the subject of many investigations. However, Leishmania includes many species with different clinical manifestations. In this report, we studied the Tcell response to L. mexicana amazonensis, a New World species, in a murine model. We found that, similar to L. major, an Old World species, resistant C57BL/6 mice produced a high level of IFN-γ and a low level of IL-4. Conversely, susceptible BALB/c mice produced a much lower level of IFN-γ and higher level of IL-4. Although IFN-γ is one of the important lymphokines that mediate macrophage activation and thus the destruction of the intracellular parasites, which lymphocyte subsets are producing the IFN-γ is still a controversy. Much evidence including the isolation of protective, IFN-γ-producing, CD4⁺ cell lines have confirmed the participation of CD4⁺ Thl cells unequivocally. However, both CD4⁺ and CD8⁺ cells produced IFN-γ. Recently, an increasing body of evidence has appeared suggesting that CD8⁺ cells also play a role in the resolution of murine L. major infection. We found that in the L. m. amazonensis model, when CD8⁺ lymphocytes from resistant C57BL/6 mice were eliminated by anti-CD8 antibody and complement-mediated lysis, the IFN-γ production was reduced by 77%. This indicated that CD8⁺ cells produced a significant amount of the IFN-γ. However, our results also indicate that IFN-γ production by CD8⁺ cells was dependent on CD4⁺ cells.     

Sphingosine 1-phosphate receptor modulator ONO-4641 stimulates CD11b+Gr-1+ cell expansion and inhibits lymphocyte infiltration in the lungs to ameliorate murine pulmonary emphysema

Sphingolipids play a pivotal role in the pathogenesis of chronic obstructive pulmonary disease (COPD). However, little is known about the precise roles of sphingosine-1-phosphate (S1P), a bioactive sphingolipid metabolite, and its receptor modulation in COPD. In this study, we demonstrated that the S1P receptor modulator ONO-4641 induced the expansion of lung CD11b⁺Gr-1⁺ cells and lymphocytopenia in naive mice. ONO-4641-expanded CD11b⁺Gr-1⁺ cells showed higher arginase-1 activity, decreased T cell proliferation, and lower IFN-γ production in CD3⁺ T cells, similar to the features of myeloid-derived suppressor cells. ONO-4641 treatment decreased airspace enlargement in elastase-induced and cigarette smoke-induced emphysema models and attenuated emphysema exacerbation induced by post-elastase pneumococcal infection, which was also associated with an increased number of lung CD11b⁺Gr-1⁺ cells. Adoptive transfer of ONO-4641-expanded CD11b⁺Gr-1⁺ cells protected against elastase-induced emphysema. Lymphocytopenia observed in these models likely contributed to beneficial ONO-4641 effects. Thus, ONO-4641 attenuated murine pulmonary emphysema by expanding lung CD11b⁺Gr-1⁺ cell populations and inducing lymphocytopenia. The S1P receptor might be a promising target for strategies aimed at ameliorating pulmonary emphysema progression.     

Development in vitro of human CD4+ thymocytes into functionally mature Th2 cells. Exogenous interleukin-12 is required for priming thymocytes to produce both Th1 cytokines and interleukin-10

Fresh postnatal thymocyte cell suspensions were directly cloned under limiting dilution conditions with either phytohemagglutinin or toxic shock syndrome toxin-1 (TSST-1), a bacterial superantigen. Cultures contained allogenic irradiated feeder cells and interleukin (IL)-2, in the absence or presence of exogenous IL-4, interferon (IFN)-γ or IL-12. The resulting CD4⁺ T cell clones generated under these different experimental conditions were then analyzed for their ability to produce IL-2, IL-4, IL-5, IL-10, IFN-γ and tumor necrosis factor (TNF)-β in response to stimulation with phorbol 12-myristate 13-acetate (PMA)+anti-CD3 monoclonal antibody or PMA + ionomycin. Different from T cell clones generated from peripheral blood, virtually all CD4⁺ T cell clones generated from human thymocytes produced high concentrations of IL-2, IL-4 and IL-5, but no IFN-γ, TNF-β or IL-10. Moreover, after activation, these clones expressed on their surface membrane both CD30 and CD40 ligand, but not the product of lymphocyte activation gene (LAG)-3, and provided strong helper activity for IgE synthesis by allogeneic B cells. The Th2 cytokine pattern could not be modified by the addition of IFN-γ. However, upon addition of exogenous IL-12, the resulting CD4⁺ thymocyte clones produced TNF-β, IFN-γ, and IL-10 in addition to IL-4 and IL-5. These results suggest that CD4⁺ human thymocytes have the potential to develop into cells producing the Th2 cytokines IL-4 and IL-5, whereas the ability to produce both Th1 cytokines and IL-10 is acquired only after priming with IL-12.     

Manipulation of the superantigen-induced lymphokine response. Selective induction of interleukin-10 or interferon-γ synthesis in small resting CD4+ T cells

The production of several lymphokines by freshly isolated CD4⁺ T cells has been analyzed at the single-cell level, after stimulation with staphylococcal enterotoxin B (SEB). High frequencies of cells producing interleukin-2 (IL-2) and interferon-γ (IFN-γ) were induced, but very low frequencies of CD4⁺ T cells produced IL-4, IL-5 or IL-10 in response to SEB. Exogenously added IL-4 markedly altered the lymphokine profile induced during primary SEB stimulation. IFN-γ production was reduced, while a high fraction of cells contained IL-10 and IL-4 after activation in the presence of IL-4. We further demonstrate that IL-4 and IL-10 or IFN-y production was selectively induced in resting, high-density CD4⁺ T cells during primary stimulation, by SEB + IL-4 or SEB. Under conditions where both IL-10 and IFN-γ were produced, most cells contained only one of the two lymphokines.     

Dietary Vitamin D3 Restriction Influences Tumor Growth,but not the Ability to Generate an Antigen-Specific Immune Response in OTII Transgenic Mice

Initially, we wanted to know whether dietary vitamin D₃ restriction would influence growth and metastasis of the 4T1 murine mammary carcinoma. We confirmed serum 25(OH)D levels were modulated by dietary vitamin D₃ restriction, mice were healthy, and when challenged with the 4T1 tumor alterations in tumor growth, but not metastasis were evident. Tumors grew more rapidly in mice on the vitamin D₃ restricted diet. To delineate whether dietary vitamin D₃ restriction influenced the ability to generate an antigen-specific immune response we used OTII transgenic mice which express a T cell receptor specific for ovalbumin. We found that dietary vitamin D₃ restriction did not influence the health of OTII mice, the number of circulating CD3/CD4⁺, CD3/CD8⁺, CD4/CD25⁺ T cells, nor the ability to generate CD11c⁺ bone-marrow derived dendritic cells. T cells from OTII mice maintained on the vitamin D₃ restricted diet also exhibited no significant alterations in proliferative capacity or ability to secrete IFN-γ or IL-4 in an antigen-specific manner. Yet, EL-4 tumors grew more rapidly in OTII mice on the vitamin D₃ restricted diet. These data show that dietary vitamin D₃ restriction impacts tumor growth, but not the ability to generate an antigen-specific immune response.     

Mechanism of enhanced antigen presentation by B cells activated with anti-μ plus interferon-γ: Role of B7-2 in the activation of naive and memory CD4+ T cells

B cells activated with anti-γ antibody plus interferon (IFN)-γ exerted strong antigen presentation activity for T cell proliferation. The enhanced antigen presentation function was shown to be due to the increase in B7-2 expression. When B cells were stimulated with anti-μ, expression of MHC major histocompatibility complex class II, heat-stable antigen (HSA), ICAM-1 and B7-2 was increased. The presence of IFN-γ further augmented the expression of B7-2 on anti-μ-stimulated B cells. B7-1 was not expressed on B cells under these conditions. The participation of B7-2 in the elicitation of the proliferative response of T cells was confirmed by the inclusion of anti-B7-2 antibody in cultures. The enhanced expression of either HSA or ICAM-1 was shown not to play a major role in the increased B cell antigen presentation capacity. The major T cell population responding to this activated B cell antigen presentation was shown to be CD44^low naive CD4⁺ T cells, whereas CD45RB^low memory CD4⁺ T cells responded only weakly. The difference in proliferative responses between naive and memory CD4⁺ T cells was explained by the different efficiency in IL-2 production of these cell populations in response to antigen presentation by B cells activated by anti-μ plus IFN-γ. These results suggest that IFN-γ plays an important role in recruitment of naive T cells for an immune response.