AILIM/ICOS-mediated elongation of activated T cells is regulated by both the PI3-kinase/Akt and Rho family cascade

T-cell migration and movement is a critical component of a fully functional immune system. Activation-inducible lymphocyte immunomediatory molecule/inducible co-stimulator (AILIM/ICOS), which is a member of CD28 co-stimulatory receptor family, induces both activated T-cell migration underneath tumor necrosis factor alpha-treated human umbilical vein endothelial cell layers and also the morphological polarization of activated T cells. In our current study, we have investigated the signaling mechanisms underlying the morphological polarization of activated T cells, initiated by AILIM/ICOS signaling. AILIM/ICOS signaling induces the activation of phosphoinositide-3 (PI3)-kinase, the product of which, phosphatidylinositol 3,4,5-trisphosphate (PIP3), was found to be localized in the lamellipodia at the front part of the cells. Phosphorylated Akt is also co-localized with PIP3 and filamentous actin in lamellipodia and the PI3-kinase/Akt signaling cascade has critical roles in T-cell polarization and lamellipodia formation via the re-organization of the actin cytoskeleton. Rho family members and their downstream effectors, Rho-associated kinase and p21-activated kinase (PAK), are also involved in AILIM/ICOS-mediated elongation. The PAK family members are serine/threonine kinase downstream effectors of both Rac and Cdc42. PAK3 is induced by the activation of T cells, whereas PAK1 is constitutively expressed in both naive and activated T cells. During the elongation, not only PAK1 but also PAK3 play an essential role through the phosphorylation of their conservative autophosphorylation sites and catalytic domain. Ser-244 phosphorylation, which is a putative Akt phosphorylation site, on PAK3 but not on PAK1 also regulates the morphological polarization of activated T cells by AILIM/ICOS signaling. Both the PI3-kinase/Akt and Rho family cascades operate coordinately to induce the forward migration of activated T cells by AILIM/ICOS signaling.     

Critical role of activation-inducible lymphocyte immunomediatory molecule/inducible costimulator in the effector function of human T cells: a comparative in vitro study of effects of its blockade and CD28 blockade in human beings and monkeys

Activation-inducible lymphocyte immunomediatory molecule (AILIM; also referred to as inducible costimulator, ICOS) is the third homolog of the "professional" costimulatory molecule, CD28. To date, the characteristics and role of AILIM/ICOS, especially in effector function of T cells, have been determined through numerous studies in vitro and in vivo using mice. Considering potential differences among species, whether the AILIM/ICOS blockade acts as an efficacious immunomodulator for human diseases remains to be elucidated. In the present study, ability of AILIM/ICOS blockade to modulate immune responses of human and monkey cells was investigated using a fully human antibody (JTA-009), comparing the effect of CD28 blockade. JTA-009 blocked the response of human and monkey T cells co-stimulated with anti-CD3 and AILIM/ICOS ligand, B7h. AILIM/ICOS and CD28 blockade both inhibited human mixed lymphocyte reaction in different fashions, as well as cytokine production in T helper (Th) 1-/Th2-type recall responses. In monkeys however, CD28 blockade by CTLA4-Ig effectively prevented mixed lymphocyte reaction to a greater extent than AILIM/ICOS blockade. These results suggest that AILIM/ICOS blockade is valuable for suppressing both primary allogenic response and recall responses of T cell in human beings, and that there are differences between human and monkey use preferences for costimulatory molecules.     

ICOS-mediated signaling regulates cytokine production by human T cells and provides a unique signal to selectively control the clonal expansion of Th2 helper cells

The CD28 homologue inducible costimulator (ICOS) has been demonstrated to regulate a number of T cell-dependent immune responses in vivo. However, the expression and functional importance of ICOS during APC-Th cell interaction in the human is not fully understood. Here, we demonstrate that ICOS-mediated signaling plays an important role in the production of selective cytokines during both primary and subsequent Th cell responses upon allospecific or superantigen activation. In contrast, ICOS does not play a role in the differentiation of naive cells into Th1 or Th2 effector cells, nor does it determine the type of effector function of memory cells upon subsequent allogeneic challenge. In addition, our data demonstrate that ICOS provides a novel and unique role in regulating DC-mediated Th2, but not Th1 cell clonal expansion. These data suggest that ICOS-mediated signaling plays a discrete role in the regulation of human T helper cell responses.     

Virus-specific effector CD4+ T-cell responses in hemodialysis patients with hepatitis C virus infection

Patients with chronic renal failure undergoing hemodialysis who are infected with hepatitis C virus (HCV) may test consistently anti-HCV negative. Because CD4(+) T-cells provide help for antibody production virus-specific effector CD4(+) T-cell responses were investigated in relation to anti-HCV positivity in 15 hemodialysis patients grouped according to HCV antibody and viremia. CD4(+) T-cell reactivity was studied in peripheral blood mononuclear cells by standard lymphocyte proliferation assay and phenotypic/functional characterization (cell-surface staining/cytokine secretion) by flow cytometry. HCV-specific CD4(+) T-cell proliferation in viremic hemodialysis patients was weak or absent independently of their anti-HCV status. Virus-specific CD4(+) T-cells displayed a memory phenotype and showed low to undetectable capacity to secrete effector interferon (IFN)-gamma. Impaired activation-induced cytokine secretion appeared to be Th1 (IFN-gamma) but not Th2 (interleukin-4)-directed and was virus-specific as cytomegalovirus responses were preserved. The frequency ex vivo of CD3(+)CD4(+)IFN-gamma(+) T-cells was independent of the HCV antibody status and comparable between viremic (range: 0.08-1.54%) or non-viremic (0.11-3.2%) hemodialysis patients and healthy donors (0.13-1.10%; P = 0.58). The numbers of CD3(+)CD4(+)IFN-gamma(+) T-cells augmented slightly (P = 0.047) in HCV-infected hemodialysis patients but markedly in only one (greater than ninefold) after HCV stimulation. In conclusion, hemodialysis patients show limited HCV-specific effector CD4(+) Th1-cell responses which nonetheless seem unrelated to the anti-HCV status and are not more impaired due to the ongoing hemodialysis.     

ICOS+ Th cells produce distinct cytokines in different mucosal immune responses

T cell activation, differentiation and effector functions depend on signals delivered through the antigen-specific TCR and non-clonal costimulatory receptors on the T cell. Activated T cells express the inducible costimulator (ICOS). We examined the co-expression of ICOS with Th cytokines in mucosal immune responses. ICOS+CD4+ Th cells expressed strikingly different cytokines depending on the type of infection encountered and the cells' anatomical localization. In the Th2-dominated response to Schistosoma mansoni, ICOS expression of CD4+ cells isolated from the liver was strongly associated with the expression of IL-5, IL-10, IL-13, and T1/ST2, but not with the chemokine receptor CXCR5, a pattern consistent with Th2 effector cells. In the secondary lymphatic organs of schistosome-infected mice, ICOS expression was randomly correlated with Th2 effector-cytokines, but positively correlated with CXCR5 expression; a pattern consistent with follicular Th cells. In Th cells isolated from gut or liver of mice infected with Toxoplasma gondii, ICOS expression was positively correlated with IFN-gamma production. Finally, in the severe combined immunodeficiency transfer colitis model, ICOS expression was strongly positively associated with IFN-gamma and IL-2. Thus, ICOS appears to costimulate distinct effector functions in different immune responses, depending on factors such as the nature of the antigen encountered and localization and chronicity of the immune response.     

Similar potential to become activated and proliferate but differential kinetics and profiles of cytokine production of umbilical cord blood T cells and adult blood naive and memory T cells

Low alloreactivity of umbilical cord blood (UCB) T-cells may explain diminished graft-versus-host-disease after UCB transplantation. We investigated whether UCB T-cells have an intrinsic lower capacity to become activated. T-cells from UCB or adult blood (AB) were stimulated with anti-CD3 and anti-CD28 antibodies. On days 1-3 after stimulation, T-cell activation was determined by CD25 expression, proliferation was measured, and kinetics of cell division were analyzed by staining with CFSE. UCB and AB T cells exhibited similar numbers of activated and proliferating cells, but the extent of activation was lower in UCB T-cells. Enzyme-linked immunospot analysis showed lower levels and slower kinetics of IL-2, IL-4, IL-10, and IFN-gamma secreting cells for UCB T-cells. Comparison of UCB T-cells with CD45RA+ naive or CD45RO+ memory T cells purified from AB showed relatively low numbers of IL-4 and IL-10 secreting T cells in CD45RA+ AB T-cells and UCB T-cells as compared with CD45RO+ AB T cells. Numbers of IL-2 or IFN-gamma secreting cells in adult CD45RA+ T-cells were lower than in CD45RO+ T-cells but higher than in UCB T-cells. Thus diminished reactivity of UCB T-cells was not caused by a lower capacity to become activated and proliferate but may be explained by a lower extent of activation in UCB T cells, the absence of memory T cells in UCB, and differences between naive T cells from UCB and AB.     

CD31 (PECAM-1) is a differentiation antigen lost during human CD4 T-cell maturation into Th1 or Th2 effector cells.

The CD31 antigen (PECAM-1) has been reported to be a stable marker for a human CD4 T-cell subpopulation unable to produce interleukin-4 (IL-4). We show here that CD31 expression is not stable inasmuch as CD4 T-cell lines and clones derived from cell-sorted neonatal CD31+ cells lose CD31 upon repetitive cycles of stimulation and IL-2 expansion. Moreover, various cytokines (IL-1 alpha, IL-4, IL-6, transforming growth factor-beta) fail to reinduce CD31 on CD31- clones. Whereas all CD31+ CD4 T cells rapidly express high levels of the CD45RO antigen and down-regulate the L-selectin antigen after priming, CD31 disappears more slowly because only part of the cells lose CD31 expression upon each cycle of stimulation. Loss of CD31 reflects a functional maturation of CD45RO+ cells since, in a system which favours the development of Th2 effectors, IL-4 is produced by CD31- but not CD31+ effector T cells, whereas interferon-gamma is produced by both types of cells. However, CD31 is not a Th1 marker since it is not expressed on several Th1 antigen-specific clones. We conclude that CD31 is a maturation marker expressed on the great majority of naive CD45RO- CD4 T cells and on a subset of CD45RO+ CD4 T cells that are at an intermediate stage of maturation.     

A co-stimulatory molecule on activated T cells,H4/ICOS,delivers specific signals in T(h) cells and regulates their responses

We examined the co-stimulatory activity of H4/ICOS on murine activated CD4(+) T cells and found that the cross-linking of H4/ICOS enhanced their proliferation, in addition to raising IFN-gamma, IL-4 and IL-10 production to levels comparable to those induced by CD28. However, IL-2 production was only marginally co-stimulated by H4/ICOS. This distinct pattern of lymphokine production appears to be induced by a specific intracellular signaling event. Compared with CD28, H4/ICOS dominantly elicited the Akt pathway via phosphatidylinositol 3-kinase. In addition, mitogen-activated protein kinase family kinases were activated in different ways by CD28 and H4/ICOS. The strong phosphorylation of p46 c-Jun N-terminal kinase was observed upon CD28 co-stimulation, but was less potently induced by H4/ICOS. The strain diversity in the induction of H4/ICOS was recognized. The expression of H4/ICOS on BALB/c activated CD4(+) T cells was >6-fold higher compared with C57BL/6 activated CD4(+) T cells. Furthermore, BALB/c activated CD4(+) T cells exhibited more T(h)2-deviated lymphokine production as compared with C57BL/6 activated CD4(+) T cells and signaling through H4/ICOS during the primary stimulation of naive CD4(+) T cells promoted the generation of T(h)2 cells. Thus, the difference in H4/ICOS expression on activated CD4(+) T cells, which is regulated among the mouse strains, may also regulate the polarization of T(h) cells.     

AILIM/ICOS: a novel lymphocyte adhesion molecule

The adhesive interaction between T cells and antigen-presenting cells is required for the formation of the immunological synapse. Inducible co-stimulator (ICOS) is a third member of the CD28 family of co-stimulatory molecules. Here we describe a novel lymphocyte adhesion molecule, of relative molecular mass 47,000, designated AILIM, that is a rat homolog of ICOS. Rat AILIM was constitutively expressed on thymocytes and was induced on naive T cells after activation. Human thymoma cells bound to purified AILIM. Furthermore, cells transfected with the AILIM gene aggregated in an AILIM-dependent manner. These results suggest a novel function for AILIM/ICOS as an adhesion molecule, which plays an important role in T cell activation.     

Progression to CMV end-organ disease in HIV-1-infected individuals despite abundance of highly differentiated CMV-specific CD8+ T-cells

Since CMV-specific T-cells have been shown to generally express an advanced state of differentiation, we investigated whether these mature CMV-specific T-cells are sustained in HIV-infected patients, who are not treated with HAART, receive no CMV medication, but do progress to AIDS with CMV end-organ disease (AIDS-CMV). CD8+ and CD4+ T-cell phenotype was studied in these patients in comparison with long-term asymptomatic HIV-infected individuals, progressors to AIDS without CMV end-organ disease as well as CMV-seropositive HIV-negative controls. CMV-specific CD8+ T-cells from progressors to AIDS-CMV expressed markers typical of highly differentiated effector T-cells, being CCR7-, CD27- CD45RO+/-, with high CD57 expression and increased Ki67 expression, compatible with functional effector cell capabilities. In addition, CD4+ T-cells with the characteristic CD27-CD28- phenotype previously shown to be induced by CMV infection specifically, were found in very high numbers in the HIV+ individuals, but the highest in progressors to AIDS-CMV just before onset of disease. Also the normally rare CD45RO-CD27-CD4+ subset increased significantly, whereas the CD45RO-CD27+CD4+ subset decreased. Our data show that in patients progressing to AIDS-CMV, CMV-specific CD8+ T-cells have expanded and are fully differentiated to mature functional effector T-cells. These cells are not protective apparently, but may contribute to tissue-associated immunopathology characteristic of these clinical conditions.     

Th1 and Th2 cells help CD8 T-cell responses

Help from CD4 T cells is often important for the establishment of primary and memory CD8 T-cell responses. However, it has yet to be determined whether T helper polarization affects the delivery of help and/or whether responding CD8 T cells helped by Th1 or Th2 cells express distinct effector properties. To address these issues, we compared CD8 T-cell responses in the context of Th1 or Th2 help by injecting dendritic cells copulsed with the major histocompatibility complex class I-restricted OVA peptide plus, respectively, bacterial or helminth antigens. We found that Th2 cells, like Th1 cells, can help primary and long-lived memory CD8 T-cell responses. Experiments in interleukin-12 (IL-12)-/- and IL-4-/- mice, in which polarized Th1 or Th2 responses, respectively, fail to develop, indicate that the underlying basis of CD4 help is independent of attributes acquired as a response to polarization.     

ICOS cooperates with CD28, IL-2, and IFN-gamma and modulates activation of human naïve CD4+ T cells

Several sets of data indicate that ICOS regulates cytokine production in activated T cells, but is less effective on naïve T cells. This work evaluates ICOS function in human naïve CD4⁺ T cells through an assessment of the effect of soluble forms of the ICOS and CD28 physiological ligands on activation driven by anti‐CD3 mAb. ICOS strikingly potentiated secretion of IL‐2, IFN‐γ, IL‐10, and TNF‐α, but not IL‐4, promoted by optimal stimulation of CD3+CD28, and it was the key switching‐factor of activation when cells received suboptimal stimulation of CD3+CD28 or stimulation of CD3 alone in the presence of exogenous IL‐2. In these conditions, blockade of IL‐2 and IFN‐γ showed that ICOS builds up a positive feedback loop with IFN‐γ, which required IL‐2 and was inhibited by IL‐4. By contrast, in the absence of CD28 triggering or exogenous IL‐2, ICOS‐induced costimulation mainly supported expression of TGF‐β1 and FoxP3 and differentiation of regulatory T cells capable to inhibit proliferation of naïve CD4⁺ T cells driven by allogeneic cells. These data suggest that ICOS favors differentiation of Th effector cells when cooperates with appropriate activation stimuli such as CD3+CD28 or CD3+IL‐2, whereas it supports differentiation of regulatory T cells when costimulatory signals are insufficient.     

Repertoire-dependent immunopathology

In humans, limited T-cell receptor repertoire and lymphopenia are associated with severe eosinophilic inflammatory disease. A model of lymphopenia and reduced T-cell repertoire was created; C57BL/6 Rag2-/- mice received limited (30,000) or large (2 million) numbers of CD4 T-cells. Three to five months post-transfer, mice that had received 30,000 T-cells, but not those that received 2 million, developed fulminant macrophage pneumonia with eosinophilia, Ym1 deposition. methacholine-induced airway hyperresponsiveness, eosinophilic gastritis and esophagitis. These mice had strikingly elevated serum IgE (in CD3epsilon-/- hosts) and donor-cells were enriched for IL-4, IL-5 and IL-13 producers. Th2 pathology and serum IgE were enhanced when transferred populations were depleted of CD25+ CD4 Tregs, but was more severe when the effector population was derived from limited as compared to the large effector population. Pretreatment of Rag2-/- mice with 300,000 CD25+ CD4 Tregs prior to effector cell transfer prevented disease while pretreatment with 30,000 did not, despite the fact that there were equal numbers of Tregs in the hosts at the time of transfer of effector cells. Limited repertoire complexity of Tregs may lead to a failure to control immunopathologic responses and limited repertoire complexity of conventional cells may be responsible for the Th2 phenotype.     

Massive production of Th2 cytokines by human CD4+ effector T cells transiently expressing the natural killer cell marker CD57/HNK1.

We have reported previously that uncommitted human CD4+ CD45RO- T cells default to the T-helper type 1 (Th1) pathway, if they are costimulated by anti-CD3 plus anti-CD28 monoclonal antibodies (mAb). In contrast, 5% of the uncommitted T cells differentiate into Th2 cells, if they are stimulated by anti-CD28 plus interleukin-2 (IL-2) in the absence of T-cell receptor (TCR) signals. The anti-CD28/IL-2-induced proliferation (and the resulting Th2 commitment) was not affected by neutralizing anti-IL-4 mAb, suggesting a non-conventional IL-4-independent Th2 differentiation pathway. Here we report that the respective CD4+ Th2 cells (but not the Th1 cells) coexpressed the natural killer (NK) cell marker HNK1/CD57. Expression of CD57 on Th2 cells required CD28 stimulation, and was suppressed by CD3/TCR signals. However, Th2 effector cells displayed a TCR V beta-chain usage comparable to that of committed Th1 cells (with V beta 8 dominating). Our data suggest that expression of CD57 on human CD4 T cells may be associated with defined stages of Th2 cell activation/differentiation, and may not necessarily characterize a separate T-cell lineage. The induction of cytokine production and B-cell helper function in both Th1 and Th2 populations required CD3/TCR signalling in costimulation with anti-CD28 or IL-2. Importantly, anti-CD28/IL-2-primed Th2 cells readily secreted IL-4 and induced IgE production by surface IgE- B cells in response to the first TCR signal and independent of previous contact with IL-4. Therefore, CD4+ CD57+ T cells responded comparably to murine CD4+ NK1.1+ T cells, which are critical for the development of Th2/IgE immune responses in vivo. The possible role of human CD4+ CD57/HNK1+ Th2-like cells in cancer, infection and allergy is discussed.     

HIV-1 transgenic rats develop T cell abnormalities

HIV-1 infection leads to impaired antigen-specific T cell proliferation, increased susceptibility of T cells to apoptosis, progressive impairment of T-helper 1 (Th1) responses, and altered maturation of HIV-1-specific memory cells. We have identified similar impairments in HIV-1 transgenic (Tg) rats. Tg rats developed an absolute reduction in CD4+ and CD8+ T cells able to produce IFN-gamma following activation and an increased susceptibility of T cells to activation-induced apoptosis. CD4+ and CD8+ effector/memory (CD45RC- CD62L-) pools were significantly smaller in Tg rats compared to non-Tg controls, although the converse was true for the na?ve (CD45RC+ CD62L+) T cell pool. Our interpretation is that the HIV transgene causes defects in the development of T cell effector function and generation of specific effector/memory T cell subsets, and that activation-induced apoptosis may be an essential factor in this process.     

Healthy aging and latent infection with CMV lead to distinct changes in CD8+ and CD4+ T-cell subsets in the elderly

Despite general acceptance that immunologic changes are associated with aging and latent infection with Cytomegalovirus (CMV), no clear-cut distinction has so far been made between strictly age-related and CMV-induced changes. We therefore compared CD4+ and CD8+ na?ve (CD45RA+CD28+), memory (CD45RA-CD28+), and effector (CD28-) T cells in CMV-positive (n = 164) and CMV-negative (n = 87) elderly persons and correlated CD8+ and CD4+ effector T cells with other T-cell subpopulations. Percentages of CD8+ as well as CD4+ effector T cells were higher, but percentages of na?ve and memory cells were lower in CMV-positive compared to CMV-negative elderly persons. Negative correlations within CD8+ T-cell subsets were found to be present in both CMV-positive and CMV-negative elderly individuals. In contrast, correlations within CD4+ T-cell subpopulations and a positive correlation between CD8+ and CD4+ effector T cells were found in CMV-positive individuals only. Our results demonstrate that (a) in the elderly different T-cell subsets compete for space within the CD8+, but not the CD4+ T-cell population; (b) CMV induces changes in the CD4+ compartment that differ from the solely age-related changes seen in CMV-negative elderly population; and (c) the CMV-status of a population has to be taken into account before a conclusion on the effect of aging on the composition of the T-cell pool can be reached.     

Impact of inducible co-stimulatory molecule (ICOS) on T-cell responses and protection against Mycobacterium tuberculosis infection

Even though Mycobacterium tuberculosis (Mtb) remains one of the top microbial killers, more than 90% of the 2 billion infected individuals never develop active tuberculosis (TB), indicating efficient immune control of infection in these individuals. Immune mechanisms promoting either control or reactivation of TB are incompletely understood. Kinetic analyses of T-cell responses against Mtb in C57BL/6 mice revealed surface expression of inducible co-stimulatory molecule (ICOS) on >30% of all CD4(+) T cells, suggesting a pivotal role of this costimulatory molecule of the CD28 family in TB control. Surprisingly, Mtb-infected ICOS(-/-) mice showed lower bacterial burden during the late chronic stage of infection as compared to WT controls. ICOS deficiency resulted in a reduced Mtb-specific CD8(+) T-cell response during late-stage infection. In contrast, the polyclonal CD4(+) Th1 response against Mtb was increased, most likely caused by diminished numbers and frequencies of Tregs. Thus, by altering effector T-cell populations differentially, ICOS signaling modulates TB control in the late stage of infection.