CD40 stimulation in vivo does not inhibit CD4+ T cell tolerance to soluble antigens

Natural killer (NK) inhibitory receptors are thought to play a critical role in the regulation of cytotoxicity of NK cells and certain self-reactive T cells. In the present study, we investigated whether astrocytoma infiltrating T lymphocytes may be functionally compromised by NK receptors (NKRs). The NK inhibitory receptor CD94/NKG2A was found on a significant proportion of CD8+ astrocytoma infiltrating lymphocytes. The functional consequences of CD94/NKG2A expression were explored at the clonal level, using a T cell clone that exhibited substantial variation in the expression of this heterodimer. Triggering of CD94/NKG2A inhibited the killing properties of T cells with a high level of this receptor, but not those from T cells with a low level. Our data indicate that some astrocytoma infiltrating lymphocytes express functional inhibitory CD94/NKG2A, raising the possibility that they may represent silent T cells specific for self-antigens (Ags) expressed on tumor cells. Understanding the mechanisms of regulation of these receptors may bring new insights for optimizing an anti-tumor immune response.     

Inactivation of Notch 1 in immature thymocytes does not perturb CD4 or CD8T cell development

Notch proteins influence cell-fate decisions in many developing systems. Several gain-of-function studies have suggested a critical role for Notch 1 signaling in CD4-CD8 lineage commitment, maturation and survival in the thymus. However, we show here that tissue-specific inactivation of the gene encoding Notch 1 in immature (CD25+CD44-)T cell precursors does not affect subsequent thymocyte development. Neither steady-state numbers nor the rate of production of CD4+ and CD8+ mature thymocytes is perturbed in the absence of Notch 1. In addition, Notch 1-deficient thymocytes are normally sensitive to spontaneous or glucocorticoid-induced apoptosis. In contrast to earlier reports, these data formally exclude an essential role for Notch 1 in CD4-CD8 lineage commitment, maturation or survival.     

Depletion of CD4+CD25+CD127lo regulatory T cells does not increase allergen‐driven T cell activation

Background It has been suggested that allergic diseases are caused by defective suppression of allergen‐specific Th2 cells by CD4⁺CD25⁺ regulatory T cells. However, such studies have been hampered by the difficulty in distinguishing regulatory T cells from CD25‐expressing activated T cells. Recently, it was shown that conventional T cells expressed high levels of CD127, whereas regulatory T cells were CD127^lo, allowing discrimination between these distinct T cell subpopulations. Objective The aim of this study was to study whether the putative regulatory subset defined as CD4⁺CD25⁺CD127^lo was involved in grass pollen‐reactive T cell responses. Methods Peripheral blood mononuclear cells (PBMCs) were obtained from allergic donors and non‐atopic controls out of season. Grass pollen‐induced cytokine production and proliferation were compared in cultures of undepleted cells and cells depleted of CD4⁺CD25⁺, CD4⁺CD25⁺CD127^hi or CD4⁺CD25⁺CD127^lo T cells. Results Undepleted cell cultures from allergic patients showed significantly increased proliferation and Th2 cytokine production compared with non‐atopic controls. Depletion of all CD25⁺ T cells did not increase cytokine production or proliferation, and more importantly, no increase in Th2 cytokine production or proliferation was observed in cell cultures depleted of CD4⁺CD25⁺CD127^lo cells (putative regulatory T cells) compared with undepleted PBMCs in both the allergic and the non‐atopic group. Conclusion Our study showed that T cells from grass pollen‐allergic patients and non‐atopic controls responded very differently to grass pollen extract, but this difference could not be explained by differences in regulatory T cell function. Further studies are needed to understand the importance of regulatory T cells in allergy.     

Crippling of CD3-zeta ITAMs does not impair T cell receptor signaling

We evaluated the importance of CD3-zeta ITAMs in T cell responses by breeding the P14 transgenic TCR into mice in which CD3-zeta chains lacking all or part of their ITAMs were genetically substituted for wild-type CD3-zeta chains. In contrast to the H-Y TCR, the P14 TCR permitted the development of peripheral CD8+ T cells harboring signaling-defective CD3-zeta subunits. The absence of functional CD3-zeta ITAMs did not reduce the spectrum of activation events and effector functions that constitute the normal attributes of mature CD8+ T cells. The only detectable differences were quantitative and noted only when T cells were challenged with suboptimal peptide concentrations. Therefore, the ITAMs present in the CD3-gammadeltaepsilon module are sufficient for qualitatively normal TCR signaling and those present in CD3-zeta have no exclusive role during T cell activation.     

CD8+ T cells and not CD4+ T cells are hyporesponsive to CD28- and CD40L-mediated activation in HIV-infected subjects

T cell dysfunction in HIV-infected subjects could be the consequence of altered sensitivity of CD4⁺ or CD8⁺ T cells to various costimulatory signals. Therefore, we studied proliferation and cytokine production in highly purified CD8⁺ and CD4⁺ T cells from HIV-infected and HIV⁻ subjects, induced by co-activation via cell-bound CD80, CD86 and CD40 or by allo-activation. Regardless of the nature of the first and the costimulatory signal, CD8⁺ T cells from patients proliferated consistently less than controls, while responses from CD4⁺ T cells were similar in patients and controls. This phenomenon was observed after ligation of CD28 combined with anti-CD3 or phorbol myristate acetate (PMA), but also after allogeneic stimulation and after activation by CD40 and anti-CD3. Anti-CD3 combined with CD80 or CD86 induced a mixed Th1/Th2-type cytokine profile in both CD4⁺ and CD8⁺ T cells from controls, whereas anti-CD3 plus CD40 induced only low levels of Th2-type cytokines and no interferon-gamma (IFN-γ) in CD4⁺ T cells. Compared with controls, CD4⁺ T cells from patients produced slightly lower levels of IL-10 but equal amounts of IFN-γ, IL-4 and IL-5, while CD8⁺ T cells from patients produced less of all cytokines tested. In conclusion, responses of purified CD4⁺ T cells from HIV⁺ subjects to various costimulatory pathways are relatively intact, whereas CD8⁺ T cells are hyporesponsive at the level of proliferation and cytokine production. A generalized intrinsic CD8⁺ T cell failure might contribute to viral and neoplastic complications of HIV infection.     

IL-4 deficiency does not impair the ability of dendritic cells to initiate CD4+ and CD8+ T cell responses in vivo

Several reports have described a role of IL-4 in dendritic cell function. We have examined the number and phenotype of dendritic cells from C57Bl/6 wild-type and IL-4-/- mice, and compared their ability to induce T cell immune responses in vivo and in vitro. We observed that the number of dendritic cells in the spleens and lymph nodes of IL-4-/- mice is comparable to the number found in wild-type mice. In addition, the expression of maturation markers such as MHC II, CD40, CD80 and CD86, and of differentiation markers such as CD4, CD8 and CD11b, was also comparable in the two populations. Splenic wild-type and IL-4-/- dendritic cells were both able to present antigen to T cell receptor transgenic CD4+ or CD8+ T cells in culture. When pulsed with antigen in vitro and then injected subcutaneously into C57BL/6 host mice, both populations of dendritic cells were able to induce the division of T cell receptor transgenic CD4+ or CD8+ T cells in vivo. This was the case regardless of whether the antigen used in these experiments was a low or a high affinity T cell receptor ligand. Similarly, both populations of dendritic cells were able to activate antigen-specific cytotoxic T cell responses and initiate tumor-protective immune responses in vivo. We conclude that IL-4-/- and wild-type dendritic cells have a comparable ability to initiate T cell immune responses when in an IL-4-sufficient environment.     

CD4-class II major histocompatibility complex interaction does not enhance killing by a class I-restricted CD4+CD8+ cytotoxic T cell clone.

As unusual tumor-specific cytotoxic T lymphocyte (CTL) clone was isolated which expressed both CD4 and CD8 molecules. The target cells for this CTL can be induced to express either class I major histocompatibility complex (MHC) alone (with dimethylsulfoxide) or both class I and class II MHC (with interferon-gamma). Lysis of the tumor target depends on expression of class I MHC molecules, but does not require expression of class II MHC molecules. Furthermore, the lysis of target cells expressing both class I and class II is inhibited only by antibodies to class I (Kd), and not by antibodies to class II, demonstrating that the T cell receptor is class I restricted. We have used this CTL to assess the role of the interaction between CD4 and class II MHC in the absence of a class II-restricted T cell receptor. Our data indicate that CD4-class II interaction does not contribute to recognition by T cells in the absence of binding of the T cell receptor to class II molecules.     

Dynamics of T cell activation accompanying CD4 recovery in antiretroviral treated HIV-infected Ugandan children

Africans have elevated T cell activation compared to residents of Europe or the USA. Levels of T cell activation also correlate with disease progression in HIV-infected individuals. We sought to determine if treatment with antiretroviral therapy (ART) would reduce levels of T cell activation (CD38 and HLADR co-expression) in HIV-infected Ugandan children. The median CD8+ T cell activation level among 199 ART-treated children (30%) was lower than in 57 ART-naïve children (45%, p < 0.001), but remained higher than in 30 HIV-uninfected children (18%, p < 0.001). Among ART-treated children, CD4% was inversely correlated with both CD8− (ρ = − 0.61, p < 0.001) and CD8+ (ρ = − 0.38, p < 0.001) T cell activation. Prospectively, CD4 recovery correlated with post-treatment CD8+ T cell activation level (p = 0.008). Our data suggest that significant decreases in T cell activation accompany CD4 recovery in ART-treated HIV-infected African children, to levels that approach but do not reach those of uninfected children.     

Thymic volume predicts CD4 T-cell decline in HIV-infected adults under prolonged treatment interruption

OBJECTIVE: To analyze the predictive capacity of thymic volume in CD4 T-cell loss after treatment interruption in HIV-infected patients with high nadir CD4 count. METHODS: Thirty-nine HIV-infected patients with CD4 counts greater than or equal to 500 cells/microL, nadir CD4 counts greater than or equal to 250 cells/microL, and plasma viral loads less than 50 copies/mL for at least the past 12 months began a treatment interruption program. The event of interest for this study was the decrease of CD4 count below 350 cells/microL. Kaplan-Meier curves were used for all time-to-event analyses, and log-rank tests were used for comparison between groups in the univariate analysis. All variables with statistical association with CD4 T-cell loss were analyzed using multivariate Cox proportional hazards regression models. RESULTS: Twenty-three percent of the patients had a decrease in CD4 count to less than 350 cells/microL. In the univariate analysis, only thymic volume was statistically significant with this event (P = 0.02). Nadir CD4 count nearly reached statistical significance. However, age, sex, HCV coinfection, CD4 count, T-cell receptor excision circle-bearing cells, and early viral load rebound did not show statistical differences. Thymic volume and CD4 T-cell loss were independently associated using Cox proportional hazards regression model (P = 0.04; relative risk, 0.76; 95% confidence interval, 0.59-0.99). CONCLUSIONS: In this study, we demonstrate for the first time that thymic volume predicts CD4 T-cell loss in patients with nadir CD4 count greater than or equal to 250 cells/muL under treatment interruption.     

Activation requirements for the induction of CD4+CD25+ T cell suppressor function

The in vivo differentiation/survival of CD4(+)CD25(+) T suppressor cells is dependent on IL-2 and CD28-mediated costimulatory signals. To determine the cytokine and costimulatory requirements for CD25(+) T cells in vitro, we established a two-stage culture system where CD25(+) T cells were activated in a primary culture. In the subsequent culture, activated CD4(+)CD25(+) cells were then mixed with responders in order to assess their suppressor function. Pre-culture of CD25(+) T cells with anti-CD3 alone resulted in poor survival and minimal induction of suppressor activity. Pre-culture in the presence of anti-CD3 and IL-2 or IL-4, but not IL-6, IL-7, IL-9, IL-10 or IL-15, resulted in proliferation of the CD25(+) cells and induction of potent suppressor function. Inhibition of the interaction of CD28 or cytotoxic T lymphocyte-associated antigen-4 (CTLA-4) with CD80/CD86 in the pre-culture of CD4(+)CD25(+) cells did not prevent the induction of suppressor function. Furthermore, the inhibition of costimulatory signals did not inhibit the ability of fresh CD25(+) T cells to inhibit CD8(+) responders under conditions where activation of the responders was independent of CD80/CD86. These studies support the view that activation of CD25(+) T cells requires IL-2/IL-4 for their survival/differentiation into effector cells, but is independent of CD28/CTLA-4-mediated costimulation.     

Nef enhances c-Cbl phosphorylation in HIV-infected CD4+ T lymphocytes

The multifunctional HIV-1 protein Nef possesses several motifs that interact with signaling molecules in infected T cells. In order to determine whether Nef influences T cell activation, cells were infected with Nef-positive and Nef-negative clones of HIV. CD28 expression and changes in tyrosine phosphorylation were monitored. We observed no Nef-dependent changes in CD28 expression or function. However, infection with Nef-positive virus led to changes in tyrosine phosphorylation. This Nef-induced phosphorylation was observed in unstimulated cells, and c-Cbl was identified as one of the proteins whose phosphorylation was upregulated by Nef. Furthermore, Lck is required for Nef-mediated c-Cbl tyrosine phosphorylation. These results suggest that Nef modifies T cell signaling in the absence of T cell receptor engagement and co-stimulation.     

Cat allergen peptide immunotherapy reduces CD4(+) T cell responses to cat allergen but does not alter suppression by CD4(+) CD25(+) T cells: a double-blind placebo-controlled study

BACKGROUND: We have previously described both modification of allergen immunotherapy using peptide fragments, and reduced regulation of allergen stimulated T cells by CD4(+) CD25(+) T cells from allergic donors when compared with nonallergic controls. It has been suggested that allergen immunotherapy induces regulatory T cell activity: we hypothesized that allergen peptide immunotherapy might increase suppressive activity of CD4(+) CD25(+) T cells. OBJECTIVE: To examine cat allergen-stimulated CD4 T cell responses and their suppression by CD4(+) CD25(+) T cells before and after cat allergen peptide immunotherapy in a double-blind placebo-controlled study. METHODS: Peripheral blood was obtained and stored before and after peptide immunotherapy or placebo treatment. CD4(+) and CD4(+) CD25(+) were then isolated by immunomagnetic beads and cultured with allergen in vitro. RESULTS: Comparing cells from blood taken before with that after peptide immunotherapy there was a significant reduction in both proliferation and IL-13 production by allergen-stimulated CD4+ T cells, whereas no change was seen after placebo. CD4(+) CD25(+) T cells suppressed both proliferation and IL-13 production by CD4(+) CD25(-) T cells before and after therapy but peptide therapy was not associated with any change in suppressive activity of these cells. CONCLUSION: Allergen peptide immunotherapy alters T cell response to allergen through mechanisms other than changes in CD4(+) CD25(+) T cell suppression.     

Monoclonal antibody OPD4 detects neoplastic T cells but does not distinguish between CD4 and CD8 neoplastic T cells in paraffin tissue sections.

Monoclonal antibody (MoAb) OPD4, reported to preferentially react with benign CD4 T cells in formalin-fixed tissue sections, was examined for its reactivity with 56 T-cell neoplasms after formalin or Bouin's fixation to determine if it also preferentially detects neoplastic CD4 T cells in paraffin tissue sections. Monoclonal antibody OPD4 did not preferentially detect neoplastic CD4 T cells, since it reacted with 22 of 38 (58%) CD4-positive compared with nine of 14 (64%) CD4-negative T-cell neoplasms. However, MoAb OPD4 appears to detect neoplastic T cells in Bouin's-fixed (11 of 20 cases [55%]) about as well as in formalin-fixed (20 of 32 cases [63%]) tissues. Since MoAb OPD4 does not preferentially react with neoplastic CD4 T cells, the utility of this MoAb as a pan-T-cell marker in routinely processed tissues was also explored and compared with that of Leu-22, UCHL-1, and CD3. All four antibodies reacted with approximately the same percentage of T-cell malignancies (51% to 57%). However, examination of different clinicopathologic groups and types of fixative highlighted differences. Monoclonal antibodies OPD4 and Leu-22 reacted with 62%, while CD3 detected only 41% of formalin-fixed, postthymic T-cell neoplasms. OPD4, UCHL-1, and CD3 each reacted with 55%, but Leu-22 recognized only 45% of Bouin's-fixed, postthymic T-cell malignancies. OPD4 reacted with none, but CD3 reacted with all four T-cell lymphoblastic lymphomas. Various antibody combinations were examined to determine an optimal panel for the recognition of T-cell neoplasms in paraffin sections. The combination of MoAbs OPD4 and Leu-22 detected 86% of postthymic T-cell neoplasms in formalin-fixed tissue sections. Furthermore, MoAb OPD4 appears to be relatively specific for T-cell neoplasms, detecting 31 of 56 (55%) T-cell malignancies, while only reacting with two of 39 (5%) B-cell neoplasms. Therefore, while not preferentially reactive with neoplastic CD4 T cells, MoAb OPD4 may be useful as a pan-T-cell marker of postthymic T-cell neoplasms in routinely processed, formalin-fixed tissues, especially when used in conjunction with MoAb Leu-22.     

Activation of CD45-deficient T cell clones by lectin mitogens but not anti-Thy-1

CD45, the leukocyte-common antigen, Is a transmembrane proteintyrosine phosphatase uniquely expressed by cells of hematopoletlcorigin. We have developed CD4⁺ and CD8⁺ T cell clones that aredeficient in the expression of CD45 and have previously shownthat these cells fall to proliferate in response to antigenor cross-linked CD3. These studies have now been extended toshow that stimulation with antl-Thy-1, a mltogenlc signal forthe CD4⁺CD45⁺ and CD8⁺CD45⁺ T cells, falls to induce proliferationin the CD45^– T cells. Examination of the CD8⁺CD45^–T cells correlates antl-Thy-1 unresponslveness with a failureto increase in tyrosine phosphorylatlon. Furthermore, stimulationof CD8⁺CD45⁺ T cells with antl-Thy-1 results in an increasein p56^ick activity but not in CD8⁺CD45^– T cells. In contrastto the results with antl-Thy-1, both the CD4^+– CD45 andCD8⁺CD45^– T cells respond to treatment with lectin mitogens,concanavalln A or phytohemagglutlnln. Lectin-lnduced proliferationwas inhibited by the addition of cyclosporln A. Treatment ofCD45^– T cells with PMA and lonomycln also results in proliferationindicating that activation of protein kinase C in conjunctionwith an increase in intracellular calcium rescues the defectcafsed by CD45 deficiency. The data suggest that CD45 Is requiredfor the activation of tyrosine kinase activity Immediate orprior to transmembrane signaling.     

Viral neuraminidase treatment of dendritic cells enhances antigen-specific CD8(+) T cell proliferation, but does not account for the CD4(+) T cell independence of the CD8(+) T cell response during influenza virus infection

In vitro studies demonstrate that the increased alloreactive T cell response to dendritic cells (DC) that are treated with either live or inactivated influenza virus A/PR/8/34 is due to viral neuraminidase (NA) activity. Since virus-specific cytotoxic T lymphocytes (CTL) play an important role in immunity to heterologous influenza strains, we compared the activation of CD8(+) T cells by untreated and NA-treated DC. Increased CTL activity was induced by NA-treated DC both in vitro and in vivo. Since the generation of CTL in response to influenza virus infection does not require prior "activation" of DC by CD4(+) T cells (as is the case for many antigens), we asked whether NA activity contributed to this unconditional CD8(+) T cell response. This was not the case. Future studies will determine the factors that are responsible for the CD4(+) T-cell-independent influenza virus-specific CTL response.     

Activation mediated CD4+ T cell unresponsiveness during acute Toxoplasma gondii infection in mice

infection of mice with Toxoplasma gondii has been shown to inducea transient state of immune down-regulation. Earlier reportshave demonstrated the role of cytokines, in particular IL-10,in this host response. Here evidence is presented that T.gondll,a major opportunistic pathogen of the newborn and those withAIDS, is able to induce CD4⁺ T cell population Increased involume by day 7 post-infection and expressed T cell maturationmarkers (CD44^hl, Il-2r^hl,Mel-14^fo). Further noted was a clonalactivation of several CD4+ T cells subsets expressing the V_ßchain of the TCR. At day 7 post-infection, partial reductionof all CD4⁺ T cells to mltogen or parasite antigen stimulationwas observed, In particular V_ß5 T cells. Additionof rlL-2 partially restored the CD4⁺ T cell proliferative responsein Vitro. The T cell activation marker CTLA-4 could not be detectedand te co-stimulatory molecule, CD28, was down-regulated. Elctrophoneticand morphologic analysis of these cells post0culture demostrateda DNA fragmentation pattern and cell death consistent with apoptosis.These studies demonstrate for the first time in a protozoanparasite that activation-induced CD4⁺ T cell unresponslvenessoccurs during actue T.gondll infection in mice, and may be importantin immune down-regulation and parasite persistence in the infectedhost.0     

In vivo induction of CD4+ T cell responses by antigens covalently linked to synthetic microspheres does not require adjuvant

Macrophages, dendritic cells or B lymphocytes have been shownto play a major role in the presentation of soluble antigensto CD4⁺ T cells. In contrast, the capacity of these cells topresent particulate antigens such as bacterial or parasiticantigens to T cells remains controversial. To investigate thisquestion, well defined particulate antigens were prepared bycovalent linkage of proteins or peptides to 1 µm in diametersynthetic microspheres. The T cell immunogenicity of such particulateantigens was analyzed in vitro and in vivo. In vitro, a solubleprotein such as hen egg lysozyme (HEL) coupled to beads stimulateda strong proliferative T cell response of lymph node cells fromHEL-primed mice or of specific T cell hybridomas. HEL coupledto beads was presented to the specific T cell hybridomas bysplenocytes or by peritoneal macrophages, but not by lymphomaB cells. Immunization of mice with several different proteinantigens or with a synthetic peptide covalently linked to beadsinduced strong CD4⁺ T cell responses in the absence of adjuvant.The strong in vivo immunogenicity of proteins coupled to beadsdid not result from a non-specific adjuvant effect of beadssince covalent linkage of the antigen to beads was strictlyrequired to induce T cell responses in the absence of adjuvant.In vivo treatment by carrageenan showed that macrophages arerequired for the in vivo stimulation of T cell responses bythese particulate antigens. Thus, these results demonstratedthe role of phagocytic cells, especially macrophages, for invivo presentation of particulate antigens. These particulateantigens represent an interesting approach for the developmentof new vaccines, and for the in vivo analysis of the role ofvarious antigen presenting cells in T cell activation and differentiation.