Notch1 expression on T cells is not required for CD4+ T helper differentiation

Notch1 proteins are involved in binary cell fate decisions. To determine the role of Notch1 in the differentiation of CD4(+) Th1 versus Th2 cells, we have compared T helper polarization in vitro in naive CD4(+) T cells isolated from mice in which the N1 gene is specifically inactivated in all mature T cells. Following activation, Notch1-deficient CD4(+) T cells transcribed and secreted IFN-gamma under Th1 conditions and IL-4 under Th2 conditions at levels similar to that of control CD4(+) T cells. These results show that Notch1 is dispensable for the development of Th1 and Th2 phenotypes in vitro. The requirement for Notch1 in Th1 differentiation in vivo was analyzed following inoculation of Leishmania major in mice with a T cell-specific inactivation of the Notch1 gene. Following infection, these mice controlled parasite growth at the site of infection and healed their lesions. The mice developed a protective Th1 immune response characterized by high levels of IFN-gamma mRNA and protein and low levels of IL-4 mRNA with no IL-4 protein in their lymph node cells. Taken together, these results indicate that Notch1 is not critically involved in CD4(+) T helper 1 differentiation and in resolution of lesions following infection with L. major.     

CTLA‐4 is required by CD4+CD25+ Treg to control CD4+ T‐cell lymphopenia‐induced proliferation

CTLA‐4 is constitutively expressed by CD4⁺CD25⁺Foxp3⁺ Treg but its precise role in Treg function is not clear. Although blockade of CTLA‐4 interferes with Treg function, studies using CTLA‐4‐deficient Treg have failed to reveal an essential requirement for CTLA‐4 in Treg suppression in vivo. Conditional deletion of CTLA‐4 in Foxp3⁺ T cells disrupts immune homeostasis in vivo but the immune processes disrupted by CTLA‐4 deletion have not been determined. We demonstrate that Treg expression of CTLA‐4 is essential for Treg control of lymphopenia‐induced CD4 T‐cell expansion. Despite IL‐10 expression, CTLA‐4‐deficient Treg were unable to control the expansion of CD4⁺ target cells in a lymphopenic environment. Moreover, unlike their WT counterparts, CTLA‐4‐deficient Treg failed to inhibit cytokine production associated with homeostatic expansion and were unable to prevent colitis. Thus, while Treg developing in the absence of CTLA‐4 appear to acquire some compensatory suppressive mechanisms in vitro, we identify a non‐redundant role for CTLA‐4 in Treg function in vivo.     

IL-18, but not IL-12, is required for optimal cytokine production by influenza virus-specific CD8+ T cells

The potent innate cytokines IL-12 and IL-18 are considered to be important antigen-independent mediators of IFN-gamma production by NK cells and T lymphocytes. The present analysis addresses the physiological role of IL-12 and IL-18 in the generation of virus-specific CD8+ T cells. Both wt C57BL/6J (B6) mice and mice with disrupted IL-12p40 (IL-12p40(-/-)) or IL-18 (IL-18(-/-)) genes were infected with an influenza A virus and the characteristics of the resultant epitope-specific CD8+ T cell responses were compared. While IL-12 appeared to have no notable effect on either virus growth or on CD8+ T cell response profiles, the absence of IL-18 was associated with delayed virus clearance from the lung and, despite normal numbers, a significantly reduced production of IFN-gamma, TNF-alpha, and IL-2 by epitope-specific CD8+ T cells. While this cytokine phenotype was broadly maintained in IL-12p40/IL-18 double-knockout mice, no evidence was seen for any additive effect. Together, our results suggest that IL-18, but not IL-12, induces optimal, antigen-specific production of key cytokines by CD8+ T cells for the efficient clearance of influenza virus from the lungs of infected mice.     

CD25+ CD4+ T cells compete with naive CD4+ T cells for IL-2 and exploit it for the induction of IL-10 production

Maintenance of homeostasis in the immune system involves competition for resources between T lymphocytes, which avoids the development of immune pathology seen in lymphopenic mice. CD25+ CD4+ T cells are important for homeostasis, but there is as yet no consensus on their mechanisms of action. Although CD25+ CD4+ T cells cause substantial down-regulation of IL-2 mRNA in responder T cells in an in vitro co-culture system, the presence of IL-protein can be demonstrated by intracellular staining. As a consequence of competition for IL-2, CD25+ CD4+ T cells further up-regulate the IL-2R alpha chain (CD25), a process that is strictly dependent on IL-2, whereas responder T cells fail to up-regulate CD25. Similarly, adoptive transfer into lymphopenic mice showed that CD25+ CD4+ T cells interfere with CD25 up-regulation on co-transferred naive T cells, while increasing their own CD25 levels. IL-2 sequestration by CD25+ CD4+ T cells is not a passive phenomenon but instead initiates--in conjunction with signals through the TCR--their differentiation to IL-10 production. Although IL-10 is not required for in vitro suppression, it is vital for the in vivo function of regulatory T cells. Our data provide a link explaining the apparent difference in regulatory mechanisms in vitro and in vivo.     

Suppressor of cytokine signaling 1 is required for the differentiation of CD4+ T cells

Suppressor of cytokine signaling 1 (Socs1) is critical for the regulation of interferon-gamma responses and T cell homeostasis. Although the presentation of the inflammatory disease of Socs1-deficient mice is complex, we have tested here the hypothesis that it originates from inappropriate T cell development and the appearance of autoreactive T cells. Socs1-deficient T cell receptor-transgenic mice showed severely impaired positive selection and a substantial alteration in CD4-CD8 T cell fate specification. These defects were dependent on interferon-gamma. Moreover, negative selection was also impaired, suggesting that autoimmunity contributes to the disease observed in Socs1(-/-) mice. We conclude that the constitutive expression of Socs1 in the thymus protects the process of thymic development and selection from the effects of systemic inflammation.     

Decreased IL-10 and IL-13 production and increased CD44hi T cell recruitment contribute to Leishmania major immunity induced by non-persistent parasites

Leishmaniasis is currently classified as category 1 disease, i.e. emerging and uncontrolled. Since the importance of persistent infection for maintaining an effective long-lasting protective response is controversial, the present study asks whether immunisation with non-persistent parasites leads to protection against Leishmania infection and to the recruitment of T cells of a specific phenotype. Our study shows that vaccination of susceptible BALB/c mice with live Leishmania major phosphomannomutase-deficient parasites, which are avirulent and non-persistent in vivo, leads to protection against infection. Immunisation with phosphomannomutase-deficient parasites neither leads to differences in IFN-gamma, IL-12, IL-4 production nor alters the expression of effector and memory markers, including CD62L, IL-7Ralpha and IL-2Ralpha, when compared with unvaccinated controls. Observed protection is due to the ability of vaccinated animals to suppress early IL-10 and IL-13 production and to recruit a higher number of antigen-experienced CD44hiCD4+ and CD44hiCD8+ T cells into draining LN following infection. Thus, expansion of T-cell numbers and their rapid recruitment to LN upon infection as well as the restriction of IL-13 and IL-10 production leading to high IFN-gamma/IL-10 ratio play an important role in protection against Leishmania affecting the outcome of the disease in favour of the host.     

Impaired IL-4 production by CD8+ T cells in NOD mice is related to a defect of c-Maf binding to the IL-4 promoter

CD8(+) T cells play an important role in the induction of the autoimmune response in non-obese diabetic (NOD) mice. Here we describe abnormalities in the control of cytokine production by NOD CD8(+) T cells. NOD CD8(+) T cells had an increased propensity to produce IFN-gamma upon TCR activation, in both adult and 2-week-old mice. NOD CD8(+) T cells had a reduced capacity to produce IL-4 in type 2 conditions compared to CD8(+) T cells from the diabetes-resistant strains BALB/c and C57BL/6. Both GATA-3 and c-Maf, two positive transactivators for IL-4 gene expression, were expressed in type 2 conditions at comparable levels in NOD CD8(+) T cells. The GATA-3 was functional since normal levels of IL-5 were produced and the IL-4 promoter was hyperacetylated in NOD CD8(+) T cells. In contrast, c-Maf failed to bind to its responsive element as determined by chromatin immunoprecipitation (ChIP) assay. These results suggest that NOD CD8(+) T cells possess an increased propensity to produce IFN-gamma and impaired c-Maf-dependent DNA binding activities in vivo that lead to reduced IL-4 production following TCR activation. These defects may facilitate the development of the autoimmune response by inducing an overall type 1-biased immune response in NOD mice.     

Proliferation of human CD4+45R+ and CD4+45R- T helper cells is promoted by both IL-2 and IL-4 while interferon-gamma production is restricted to IL-2 activated CD4+45R- T cells

Recombinant IL-2 (rIL-2) and IL-4 (rIL-4) promote proliferation of human CD4+ T cells activated in the presence of PHA, TPA or OKT-3 monoclonal antibody (MAb), whereas the production of interferon-gamma (IFN) can be induced only by rIL-2. rIL-4 induced strong proliferative responses both in accessory cell independent assays and in the presence of autologous monocytes, but has failed to induce IFN production in any of these systems. The ability of rIL-2 to induce IFN production was strongly enhanced by the addition of monocytes, although a similar proliferative response was recorded in the absence or presence of monocytes. The MAb anti-Tac inhibited the proliferative response and the production of IFN by CD4+ T cells activated in the presence of rIL-2, whereas the proliferative response to rIL-4 was unaffected. CD4+45R+ and CD4+45R- T helper cell subsets proliferated in response to both IL-2 and IL-4. A kinetic analysis demonstrated that the production of IFN throughout a five day activation period was restricted to stimulation of CD4+45R- T cells with rIL-2. This report clearly demonstrates a dissociation of IFN production and T cell proliferation in man. While proliferation can be induced by both IL-2 and IL-4 in both the helper T cell subsets studied, IFN production was induced only in the CD4+45R- subsets and only in response to IL-2.     

Defining a functionally distinct subset of human memory CD4+ T cells that are CD25POS and FOXP3NEG

Surface expression of the IL-2 receptor α-chain (CD25) has been used to discriminate between CD4(+) CD25(HI) FOXP3(+) regulatory T (Treg) cells and CD4(+) CD25(NEG) FOXP3(-) non-Treg cells. However, this study reports that the majority of resting human memory CD4(+) FOXP3(-) T cells expresses intermediate levels of CD25 and that CD25 expression can be used to delineate a functionally distinct memory subpopulation. The CD25(NEG) memory T-cell population contains the vast majority of late differentiated cells that respond to antigens associated with chronic immune responses and are increased in patients with systemic lupus erythematosus (SLE). In contrast, the CD25(INT) memory T cells respond to antigens associated with recall responses, produce a greater array of cytokines, and are less dependent on costimulation for effector responses due to their expression of CD25. Lastly, compared to the CD25(NEG) and Treg-cell populations, the CD25(INT) memory population is lost to a greater degree from the blood of cancer patients treated with IL-2. Collectively, these results show that in humans, a large proportion of CD4(+) memory T cells express intermediate levels of CD25, and this CD25(INT) FOXP3(-) subset is a functionally distinct memory population that is uniquely affected by IL-2.     

Distinct roles for IL-6 and IL-12p40 in mediating protection against Leishmania donovani and the expansion of IL-10+ CD4+ T cells

Adoptive dendritic cell (DC) immunotherapy provides a useful experimental tool to evaluate immunoregulation in vivo and has previously been successfully used to enhance host resistance in a variety of experimental models of leishmaniasis. Here, we used this approach to identify IL-6 and IL-12p40 as critical cytokines that cooperate to mediate host protection to Leishmania donovani but which act independently to regulate expansion of IL-10(+) CD4(+) T cells, shown here for the first time to be associated with this infection. Adoptive transfer of LPS-activated bone marrow-derived DC (BMDC) from wild-type mice was therapeutically beneficial and led to enhanced resistance as measured by spleen parasite burden. In contrast, IL-6- or IL-12p40-deficient BMDC had no protective benefit, indicating that production of both cytokines was essential for the therapeutic efficacy of DC. IL-10 production by CD25(-) FoxP3(-) IL-10(+) CD4(+) T cells is a strong correlate of disease progression, and BMDC from wild-type mice inhibited expansion of these cells. Strikingly, IL-12-deficient BMDC could also inhibit the expansion of this T cell population whereas IL-6-deficient BMDC could not, indicating that IL-6 played a key role in this aspect of DC function in vivo. Breadth of cytokine production is thus an important factor when considering strategies for DC-based interventions.     

Siglec-10 expression is up-regulated in activated human CD4+ T cells

Most sialic acid–binding immunoglobulin-like lectins (Siglecs) suppress immune cell function but are expressed at low levels on human T cells. We found that soluble CD52 inhibited T cell signalling by ligating Siglec-10, but the presence of Siglec-10 on human T cells has been questioned. To address this concern, we examined the expression of Siglec-10 at the RNA and protein level in human CD4⁺ T cells. Analysis by RNAseq, qPCR and flow cytometry demonstrated that, in contrast to other Siglecs, after activation of CD4⁺ T cells Siglec-10 was selectively upregulated in a subset of cells also high for CD52 expression. This observation is consistent with a homeostatic role for Siglec-10 in human CD4⁺ T cells.     

IL-10 production by CD4+ effector T cells: a mechanism for self-regulation

The development of Th1 lymphocytes is essential for cell-mediated immunity and resistance against intracellular pathogens. However, if left unregulated, the same response can cause serious damage to host tissues and lead to mortality. A number of different paracrine regulatory mechanisms involving distinct myeloid and lymphoid subpopulations have been implicated in controlling excessive secretion of inflammatory cytokines by Th1 cells. Much of this work has focused on interleukin (IL)-10, a cytokine with broad anti-inflammatory properties, one of which is to counteract the function of Th1 lymphocytes. While studying the role of IL-10 in regulating immunopathology during infection with the intracellular parasite Toxoplasma gondii, we discovered that the host-protective IL-10 derives in an autocrine manner from conventional interferon-γ (IFN-γ)-producing T-bet⁺ Foxp3^neg Th1 cells. In the following review, we will discuss these findings that support the general concept that production of IL-10 is an important self-regulatory function of CD4⁺ T lymphocytes.     

Pretreatment of activated human CD8 T cells with IL-12 leads to enhanced TCR-induced signaling and cytokine production

During the immune response to pathogens and autoantigens, CD8T cells are exposed to numerous inflammatory agents including the cytokine IL-12. Previous studies have focused on how IL-12 regulates T cell functions when present during or after the activation of the T cell receptor (TCR). However, recent studies suggest that prior exposure to IL-12 also alters the TCR responsiveness of murine T cells. Whether similar phenomena occur in human activated CD8T cells and the mechanisms mediating these effects remain unexplored. In this study, we observed that pretreatment of human activated CD8T cells with IL-12 results in increased cytokine mRNA and protein production following subsequent TCR challenge. The potentiation of TCR-mediated cytokine release was transient and required low doses of IL-12 for at least 24 h. Mechanistically, prior exposure to IL-12 increased the TCR induced activation of select MAPKs and AKT without altering the activation of more proximal TCR signaling molecules, suggesting that the IL-12 mediated changes in TCR signaling are responsible for the increased production of cytokines. Our data suggest that prior treatment with IL-12 potentiates human CD8T cell responses at sites of infection and inflammation, expanding our understanding of the function of this clinically important cytokine.     

IL-4R signaling is required to induce IL-10 for the establishment of T(h)2 dominance

The requirement for IL-4 to promote differentiation of naive CD4(+) T cells into T(h)2 effector cell populations was established by classical in vitro studies. More recent in vivo data, however, indicate that signaling through the IL-4R is not essential for acquisition of the T(h)2 phenotype. In order to reconcile these seemingly contradictory conclusions, we have taken advantage of the ability of the excretory/secretory antigens of the gastrointestinal nematode Nippostrongylus brasiliensis to down-regulate T(h)1 cell development and drive T(h)2 cell expansion. We show that the initial development of IL-4-producing T cells is independent of IL-4R signaling but that the subsequent expansion of IL-4-producing CD4(+) T cells in a competitive environment that also contains T(h)1 potential is positively influenced by IL-4R signaling. We find that the production of IL-10 is the key IL-4R-dependent factor required to maintain T(h)2 dominance and that in the absence of IL-4R signaling, T(h)2 expansion can only be achieved by neutralization of T(h)1 cytokines. Moreover, in the absence of IL-4R signaling, reduced IL-10 production is due to the lack in expansion of an IL-10(+) T(h)2 population, rather than a global defect in the production of IL-10 by CD4(+) T cells. Thus, the evolution of T(h)2 dominance is achieved at the expense of T(h)1 cell development, normally restrained by IL-10 in an IL-4R-dependent manner. We conclude that T(h)2 cell development in response to N. brasiliensis antigen requires both IL-4 and IL-10 to act in concert on incipient populations of both T(h)1 and T(h)2 types.     

ICAM-1 costimulation induces IL-2 but inhibits IL-10 production in superantigen-activated human CD4+ T cells.

We have previously reported that costimulatory pathways including B7-CD28 and lymphocyte function-associated antigen-3 (LFA-3)-CD2 shape distinct activation profiles in human CD4+ T cells. We now show that superantigen (SAg), in combination with intracellular adhesion molecule-1 (ICAM-1) costimulation drives a proliferative response accompanied by high levels of interleukin-2 (IL-2) and moderate levels of interferon-gamma (IFN-gamma) and tumour necrosis factor (TNF). This response profile differs from that observed in B7 or LFA-3 costimulated T cells because our previous results showed that B7-CD28 costimulation was accompanied by high levels of IL-2, IFN-gamma and TNF, whereas LFA-3 was a potent inducer of IFN-gamma and TNF, but had little influence on IL-2 production. The ICAM-1-induced IL-2 production could efficiently be abrogated with monoclonal antibody (mAb) against ICAM-1 or LFA-1, showing that the activation is dependent of a functional ICAM-1-LFA-1 pathway. SAg-induced IL-2, IFN-gamma and TNF were detected in both CD4+ and CD8+ T cells, whereas production of IL-10 was restricted to CD4+ T cells. A major finding in the present study was that ICAM-1 costimulation strongly inhibits IL-10 production in CD4+ T cells. Our data demonstrate that ICAM-1 costimulation is sufficient to induce large amounts of IL-2. The presence of ICAM-1 results in suppression of IL-10 production in T helper (Th) cells, which may favour the development of Th1 and not Th2 T cells.     

Differential effects of CD28 costimulation upon cytokine production by CD4+ and CD8+ T cells

The impact of CD28 ligation upon CD4+ and CD8+ T lymphocyte proliferation and cytokine production was assessed. Although costimulation increased the proliferative response of both T cell subsets, cytokine production was most markedly increased in the CD4+ subset, as evidenced by a 40-fold increase in interleukin-2 (IL-2), a 14-fold increase in interleukin-3 (IL-3) and 5-fold increases in interferon gamma and GM-colony-stimulating factor (CSF) production. The CD8+ T cell response to CD28 ligation was less marked, maxima being a 5-fold increase in IL-2 production and 2-fold increases in IL-3 and GM-CSF production. Resolution of CD4+ and CD8+ T cells into their CD44lo (na?ve) and CD44hi (memory/effector) subsets revealed that naive CD4+ T cells were the most CD28-responsive subsets. CD28-mediated costimulation promotes distinct differentiation programs in CD4+ versus CD8+ T cells.