CD40 ligand stimulates proinflammatory cytokine production by human endothelial cells

Functional expression of CD40 has recently been described on the surface of HUVEC, and activation of these cells with CD40 ligand (CD40-L) leads to increased adhesion molecule expression. Here, we analyzed the effect of CD40 triggering on cytokine production by HUVEC. CD40-L-transfected fibroblasts, in contrast to their untransfected counterparts, as well as a soluble recombinant human CD40-L/murine CD8alpha chimeric molecule were able to importantly increase (by a mean of fourfold) the production of leukemia inhibitory factor (LIF) by HUVEC. CD40-L displayed an additive effect with IL-4, IL-1alpha, and TNF-alpha on the enhancement of LIF secretion. Cyclosporin A did not affect LIF synthesis by resting or CD40-L-activated HUVEC, whereas dexamethasone diminished the basal level of LIF production and abrogated the CD40-L effect. The secretions of two other proinflammatory cytokines, granulocyte-macrophage CSF and IL-6, were also increased in the presence of CD40-L. However, CD40-L neither affected HUVEC proliferation nor rescued them from IFN-gamma- and TNF-alpha induced apoptosis. Together, these results indicate that endothelial cell activation by CD40-L may play an important role not only in leukocyte recruitment through enhancement of adhesion molecule expression, but also in the maintenance of an inflammatory loop through the increase in proinflammatory cytokine secretion.     

Lysophosphatidylcholine upregulates CD40 ligand expression in newly activated human CD4+ T cells

Lysophosphatidylcholine (lyso-PC) accumulates in tissues undergoing inflammation and atherosclerosis, where an infiltration of T cells is also seen. We found that lyso-PC increased IFN-gamma production and CD40L expression in CD4+ T cells stimulated with anti-CD3 Ab and recombinant CD80 molecules, whereas lyso-PC did not affect IL-2 and IL-4 production. These results suggest that lyso-PC, in combination with other stimuli, may regulate CD4+ T cell functions to propagate local inflammatory reactions and also imply a novel role played by a modified lipid in the selection of Th1/Th2 immune response as well as in the T cell mediated pathogenesis in atherosclerosis.     

IL-12 up-regulates CD40 ligand (CD154) expression on human T cells

IL-12 is a heterodimeric cytokine produced by APC that promotes the development of CD4+ Th1 cells and their IFN-gamma production after TCR/CD3 triggering. We here investigated the capacity of IL-12 to modify the expression on T cells of CD40 ligand (CD40L or CD154), a molecule transiently expressed on activated T cells and known to be of utmost importance for cognate interaction with B cells and for activation of dendritic cells and macrophages. Our data demonstrate that IL-12 up-regulates CD40L expression on anti-CD3-activated human peripheral blood T cells. For optimal induction of CD40L, IL-12 synergizes with IL-2 as well as with other costimulatory interactions, such as B7/CD28. The effect of IL-12 was observed at both the protein and the mRNA level. T cells costimulated by IL-12 provided more efficient help for IL-4-dependent B cell proliferation and for IgG production than when activated in the absence of IL-12. This helper activity was blocked by an mAb against CD40L, indicating that the effect of IL-12 on B cells is mediated indirectly through CD40L. The data thus suggest that the effects of IL-12 on cellular and humoral immune responses are partly mediated through CD40L induction.     

Demonstration of functional CD40 in B-lineage acute lymphoblastic leukemia cells in response to T-cell CD40 ligand

Because activated T cells were previously shown to induce proliferation of human normal B-cell precursors (BCP) via the CD40 pathway, we investigated the effects of T cells on leukemic blasts isolated from patients with B-lineage acute lymphoblastic leukemia (BCP-ALL). An anti-CD3 activated human CD4+ T-cell clone was found to induce significant call proliferation in four of nine BCP-ALL samples analyzed. In one of these cases, the T-cell effect was clearly dependent on interaction between CD40 and its ligand. Accordingly, a more thorough analysis was performed on this particular leukemia (case 461, adult early pre-B-ALL, mBCR+, Philadelphia+, i(9q)+). Thus, autologous CD4+ T cells isolated from the patient were also able to induce CD40-dependent proliferation of the leukemic blasts. Analysis of the phenotype after coculture showed that, among the CD19+ cells, a proportion gradually lost expression of CD10 and CD34, whereas some cells acquired CD23. In addition, and in contrast with normal BCP, activated T cells promoted maturation of a subset of the case 461 leukemic cells into surface IgM+ cells. The leukemic origin of the cycling and the maturing cells was assessed by the presence of i(9q), a chromosomal abnormality associated with this leukemia and evidenced by fluorescence in situ hybridization. Taken together, these results show that leukemic BCP can be activated via CD40 but that not all cases display detectable stimulation in response to T cells despite their expression of CD40. In addition, the present data suggest that CD4+ T cells could potentially play a role in the physiology of BCP-ALL.     

CD40 ligand inhibits Fas/CD95-mediated apoptosis of human blood-derived dendritic cells

Dendritic cells (DC) are considered to be the most potent antigen-presenting cells (APC) in the immune system. In this study, we analyzed the regulation of apoptosis of human peripheral blood-derived DC. DC were generated from adherent peripheral blood mononuclear cells that had been cultured for 7 days with granulocyte-macrophage colony-stimulating factor and interleukin-4. These cells displayed phenotypic properties of DC, including dendritic processes, expression of CD1a and lack of expression of CD14, and were very potent at presenting soluble antigens to T cells. Blood-derived DC were demonstrated to express the Fas/CD95 antigen and an agonist antibody to CD95 strongly induced apoptotic cell death in these cells. Soluble trimeric CD40 ligand potently inhibited both CD95-mediated and spontaneous apoptosis in DC. The data suggest that interactions between members of the tumor necrosis factor family of ligands expressed by T cells with their receptors on DC play an important role in the regulation of apoptosis in DC during antigen presentation and may, therefore, regulate the duration of T cell expansion and cytokine production.     

A cytotoxic CD40/p55 tumor necrosis factor receptor hybrid detects CD40 ligand on herpesvirus saimiri-transformed T cells

The B cell activation molecule CD40 and the p55 tumor necrosis factor receptor (p55TNFR) belong to the same family of structurally conserved proteins. We constructed a chimeric receptor consisting of the CD40 extracellular and transmembrane domains and the p55TNFR intracellular domain. This receptor hybrid retained the biological activity and the ligand specificity of the respective wild-type receptor domains. Thus it exerted a marked cytotoxic effect in three different transfected cell lines after activation not only with anti-CD40 antibody but also with CD40 ligand (CD40L) in soluble and membrane-bound forms. Using hybrid-transfected baby hamster kidney cells we demonstrated that herpesvirus saimiri-transformed human CD4+ T lymphocytes constitutively express bioactive CD40 ligand on their surface. The hybrid receptor-based assay was highly specific for CD40 activating reagents and more sensitive than an assay measuring CD40-mediated B cell rescue from apoptosis. Hence CD40/p55TNFR transfectants may be useful for dissecting CD40L-mediated events in T-B cell interactions, and also to detect a defective CD40L molecule in putative hyper-IgM syndrome patients.     

Enhancement of antitumor immunity by expression of CD70 (CD27 ligand) or CD154 (CD40 ligand) costimulatory molecules in tumor cells

BACKGROUND: Most catalytic RNAs depend on divalent metal ions for folding and catalysis. A thorough structure-function analysis of catalytic RNA therefore requires the identification of the metal-ion-binding sites. Here, we probed the binding sites using Fenton chemistry, which makes use of the ability of Fe2+ to functionally or structurally replace Mg2+ at ion-binding sites and to generate short-lived and highly reactive hydroxyl radicals that can cleave nucleic acid and protein backbones in spatial proximity of these ion-binding sites. RESULTS: Incubation of group I intron RNA with Fe2+, sodium ascorbate and hydrogen peroxide yields distinctly cleaved regions that occur only in the correctly folded RNA in the presence of Mg2+ and can be competed by additional Mg2+, suggesting that Fe2+ and Mg2+ interact with the same sites. Cleaved regions in the catalytic core are conserved for three different group I introns, and there is good correlation between metal-ion-binding sites determined using our method and those determined using other techniques. In a model of the T4 phage-derived td intron, cleaved regions separated in the secondary structure come together in three-dimensional space to form several metal-ion-binding pockets. CONCLUSIONS: In contrast to structural probing with Fe2+/EDTA, cleavage with Fe2+ detects metal-ion-binding sites located primarily in the inside of the RNA. Essentially all metal-ion-binding pockets detected are formed by tertiary structure elements. Using this method, we confirmed proposed metal-ion-binding sites and identified new ones in group I intron RNAs. This approach should allow the localization of metal-ion-binding sites in RNAs of interest.     

CD40 ligand/CD40 stimulation regulates the production of IFN-gamma from human peripheral blood mononuclear cells in an IL-12- and/or CD28-dependent manner

CD40 ligand (CD40L)/CD40 costimulation is an important regulator of Th1 responses. Two mechanisms by which CD40L/CD40 stimulation may enhance IFN-gamma are via direct induction of IL-12 and augmentation of the expression of costimulatory molecules such as B7 from APCs. We examined the ability of CD40L/CD40 stimulation to regulate the production of IFN-gamma through IL-12 and/or CD28 costimulation from human PBMCs stimulated with T cell-specific stimuli. The roles of exogenous and endogenous CD40L/CD40 stimulation were evaluated using a trimeric soluble CD40L agonist (CD40T) and an anti-CD40L Ab, respectively. The presence of CD40T in cultures increased the production of IL-12 and IFN-gamma from PBMCs stimulated with varying amounts of PHA. The mechanism, however, by which CD40T enhanced IFN-gamma varied according to the level of T cell activation. Under maximal stimulatory conditions (PHA, 1/100), an IL-12-dependent pathway was dominant. At relatively low levels of T cell stimulation (PHA, 1/500 and 1/1000), however, an additional IL-12-independent CD28-dependent pathway was elucidated. We further studied the role of exogenous CD28 stimulation in regulating the production of IFN-gamma. The enhancement of IFN-gamma production induced by direct CD28 stimulation was primarily dependent on endogenous IL-12 or CD40L/CD40 stimulation. Together, these data suggest that the production of IFN-gamma involves a complex interaction between two interdependent, yet distinct, costimulatory pathways and provide evidence that CD40T may be an effective adjuvant for the enhancement of responses.     

CD40 ligand expressed on B cells in the BXSB mouse model of systemic lupus erythematosus

Male BXSB mice, unlike female BXSB, develop a severe early onset lupus-like disease that has been linked to an intrinsic B cell defect. In investigating this B cell defect the present study showed that male, but not female, BXSB contained a higher percentage of large, activated splenic B cells that were more responsive to anti-CD40 mAb-induced proliferation. The hyperactivity of the large B cells from the male mice was also observed in the absence of anti-CD40 mAb or any other stimuli. In examining the mechanism of the B cell hyperactivity, it was found that 20% of unstimulated large B cells from male mice, unlike large B cells from female mice, expressed CD40 ligand (CD40L), a molecule normally expressed on activated CD4+ cells. The percentage of large B cells from the male BXSB that expressed CD40L was increased to 43% by stimulation with LPS. A functional role for CD40L expression on B cells was confirmed by showing that CD40-Ig blocked the spontaneous proliferation of the large B cells from male mice. In addition, the stimulatory capacity of the large B cells from the male mice was demonstrated by their ability to induce DNA synthesis in small B cells in a CD40L-dependent manner. These results demonstrated that large B cells from male BXSB expressed functionally active CD40L. It is likely that the B cell CD40L expression and increased susceptibility to CD40 signaling due to an intrinsic B cell hyperactivity promotes autoimmune disease in BXSB mice.     

CD40 and its ligand in host defense

The genetic changes involved in the metastatic process of ovarian epithelial cancer remain undetermined. The expression of nm23, a putative metastasis-suppressor gene product, was assessed immunohistochemically in malignant and benign ovarian neoplasms, considering histology of tumors and clinical advancement of disease. Comparison of nm23 protein content in tissue sections and respective cyst and/or ascitic fluid cells was also performed. Significant heterogeneity of nm23 immunostaining was observed, and no correlation with histological subtype of ovarian carcinoma was found. Expression of nm23 was higher in carcinomas compared with benign tumors. A significant trend to have a higher nm23 reactivity in ascitic fluid cells vs. primary tumors was observed. Our results indicate that the increase of nm23 reactivity is activated in the early stages of the disease and that the progression of ovarian carcinoma is accompanied by overexpression of nm23 protein. Our observations did not confirm the postulated role of nm23 as a suppressor gene in ovarian cancer.     

CD40/CD40 ligand interactions in normal, reactive and malignant lympho-hematopoietic tissues

CD40 is a 48 Kd integral membrane protein expressed by cells of B cells, origin, dentritic cells, monocytes, epithelial cells, endothelial cells and tumor cells including carcinomas, B cell lymphomas/leukemias and Hodgkin and Reed-Sternberg (HRS) cells of Hodgkin's disease (HD). CD40 has been clustered as a member of the nerve growth factor (NGF)/tumor necrosis factor (TNF) receptor superfamily with the corresponding counterstructure, the CD40 ligand (L) being mainly expressed by activated CD4+ T cells, but also some activated CD8+ T cells, basophils, eosinophils, mast cells and stromal cells. CD40L shares significant amino acid homology with TNF particularly in its extracellular domain ("TNF homology region") and is therefore viewed as a member of the TNF ligand superfamily. Binding of CD40L+ T cells to CD40+ B cells is thought to play a major role in T cell-dependent B cell activation, B cell proliferation, Ig isotype switching, memory B cell formation and rescue of B cells from apoptotic death in germinal centers. Mutations of the CD40L gene have been associated with the X-linked hyper-IgM immunodeficiency syndrome, pointing to the critical role of the CD40/CD40L interaction in the T cell-B cell interplay. Accordingly, expression of CD40 by human lympho-hematopoietic tumors has been shown in most of the B cell neoplasias, H-RS cells and HD and some carcinomas. In contrast, CD40L+ tumor cells are almost invariably restricted to CD4+/CD8- T cell lymphomas. Overall, functional CD40/CD40L interactions appear to be critical for cellular activation signals during immune responses and neoplastic tumor cell growth. The understanding of the biology of CD40L has improved our diagnostic and therapeutic repertoire in the management of several human diseases, including CD40+ tumors.     

HIV-1 induction of CD40 on endothelial cells promotes the outgrowth of AIDS-associated B-cell lymphomas

Human immunodeficiency virus (HIV)-1 infection is associated with the development of aggressive extranodal B-cell non-Hodgkin's lymphomas. Using microvascular endothelial cell (MVEC)-enriched bone marrow stromal cultures, HIV infection of stromal MVECs from lymphoma patients induced the outgrowth of malignant B cells. MVECs were the only HIV-infected cells in the stroma, and purified brain MVECs also induced a phenotype supportive of neoplastic B-cell attachment and proliferation. HIV infection of MVECs stimulated surface expression of CD40 and allowed preferential induction of the vascular cell adhesion molecule VCAM-1 after CD40 triggering. B-lymphoma cells expressed the CD40 ligand (CD40L), and blocking of CD40-CD40L interactions between HIV-infected MVECs and B-lymphoma cells inhibited B-cell attachment and proliferation. These observations suggest that HIV promotes B-lymphoma cell growth through facilitating attachment of lymphoma cells to HIV-infected MVECs and represent a novel mechanism through which viruses may induce malignancies.     

Antitumor responses induced by transgenic expression of CD40 ligand

Because CD40 ligand (CD40L) is a co-stimulator molecule for multiple components of the immune response, we wanted to determine whether transgenic expression of the molecule would increase immune responses against a weakly immunogenic murine tumor, neuro-2a. Tumor cells were transduced with a retroviral construct containing the CD40L gene and co-injected with variable numbers of non-CD40L transduced cells into syngeneic mice. Mice injected with cells that expressed CD40L had a significant reduction in average tumor size as compared to controls (p < 0.0001). In addition, survival of the neuro-2a/CD40L mice was 48 days versus 34 days for the neuro-2a/neo controls (p < 0.02). Expression of CD40L by less than 1.5% of neuro-2a cells was sufficient for significant antitumor effects (p < 0.001). These antitumor effects protected mice from subsequent challenge with parental neuro-2a cells. The protective effects of CD40L were associated with systemic immunomodulation. In vivo depletion of CD8+ cells abrogated the CD40L-mediated antitumor effects. Analysis of spleens from CD40L-protected animals showed increased numbers of CD4+ and CD8+ cells, the majority of which co-expressed the activation marker CD25. In addition, an increased number of antigen-presenting cells (APCs) expressed the co-stimulatory molecule CD86. These experiments illustrate that transducing even a small percentage of tumor cells with CD40 ligand can create a long-lasting systemic immune response capable of impeding growth of unmodified neuroblastoma cells.     

Immunostimulatory effects of a plasmid expressing CD40 ligand (CD154) on gene immunization

Interaction of CD40 with its ligand (CD154) can induce CD40-bearing APCs to express immune stimulatory accessory molecules that facilitate immune recognition. We evaluated whether a plasmid vector encoding CD154 (pCD40L) could influence the immune response to a transgene protein encoded by coinjected plasmid DNA. We found that coinjection of pCD40L in BALB/c mice enhanced the Ab response to beta-galactosidase induced by i.m. or intradermal injection of placZ, a plasmid DNA vector encoding beta-galactosidase. Furthermore, i.m. or intradermal coinjection of pCD40L with placZ enhanced the generation of CTL specific for P815 cells transfected with placZ. This study indicates that pCD40L can serve as a genetic adjuvant capable of augmenting humoral and cellular immune responses to Ags encoded by plasmid DNA expression vectors.     

Blockade of CD40-CD40 ligand pathway induces tolerance in murine contact hypersensitivity

Interactions between CD40 on antigen-presenting cells and its ligand (CD40L) on T cells has been implicated in T cell-mediated immune responses. Previously, we have shown that contact hypersensitivity (CHS), a cell-mediated cutaneous immune response in reaction to haptens, could be subclassified based on whether the hapten primed for Th1 or Th2 cytokines in cells isolated from draining lymph nodes. We also found that tolerance to a Th2-priming hapten could be induced only by simultane blockade of the CD40-CD40L and B7-CD28 at the time of sensitization. Here we demonstrate that blockade of CD40-CD40L signaling alone induces long-lasting unresponsiveness to the Th1 hapten 2,4-dinitrofluorobenzene (DNFB), and inhibits antigen-specific T cell proliferation in vitro. We find that CD40-CD40L signaling is required in the sensitization but not elicitation phase of DNFB-induced CHS, as treatment of mice with anti-CD40L monoclonal antibody (mAb) does not affect the response to hapten challenge in previously sensitized and untreated animals. Examination of cytokine production shows that anti-CD40L mAb decreases interferon-gamma production by draining lymph node cells from DNFB-sensitized mice, and reciprocally increases interleukin (IL)-4 production. Consistent with this Th1 to Th2 immune deviation, anti-CD40L mAb prevents the induction of IL-12 mRNA in regional lymph nodes, an event which is normally seen within 12 h following hapten sensitization. In contrast, suppression of CHS by CTLA4Ig decreased the production of all cytokines by draining lymph node cells. Together, these data show that blockade of the CD40-CD40L pathway by itself is sufficient to induce tolerance to DNFB-induced CHS, and that this is associated with blockade of IL-12 induction and Th1 to Th2 immune deviation.     

CD40 ligand gene defects responsible for X-linked hyper-IgM syndrome

The ligand for CD40 (CD40L) is a membrane glycoprotein on activated T cells that induces B cell proliferation and immunoglobulin secretion. Abnormalities in the CD40L gene were associated with an X-linked immunodeficiency in humans [hyper-IgM (immunoglobulin M) syndrome]. This disease is characterized by elevated concentrations of serum IgM and decreased amounts of all other isotypes. CD40L complementary DNAs from three of four patients with this syndrome contained distinct point mutations. Recombinant expression of two of the mutant CD40L complementary DNAs resulted in proteins incapable of binding to CD40 and unable to induce proliferation or IgE secretion from normal B cells. Activated T cells from the four affected patients failed to express wild-type CD40L, although their B cells responded normally to wild-type CD40L. Thus, these CD40L defects lead to a T cell abnormality that results in the failure of patient B cells to undergo immunoglobulin class switching.     

Expression of type 3 complement receptor on activated CD8+ T cells facilitates homing to inflammatory sites

It has been reported that Ag-primed T cells may express the type 3 complement receptor (CR3; CD11b/CD18, Mac-1), but no clear function has been ascribed to this molecule on T cells. In our study, we have used a nondepleting mAb to CR3 (5C6) to study the relevance of CR3 expression for T-cell extravasation at inflammatory foci. The in vivo administration of 5C6 significantly reduced the severity of the T cell-mediated meningitis induced by intracerebral inoculation of lymphocytic choriomeningitis virus. FACS analysis of the inflammatory exudate showed that this consists of monocytes/macrophages and CD8+ cells, the majority of which are CD11b+. Adoptive transfer experiments involving i.v. transplantation of Ag-primed donor cells revealed that preincubation of the cells with 5C6 delayed the virus-specific delayed-type hypersensitivity reaction under conditions in which the recipient delivered the nonspecific component. In contrast, preincubation with 5C6 did not inhibit the response when donor cells were injected locally. The reaction induced by locally injected, adherent cell-depleted donor cells was, on the other hand, delayed by i.v. injection of 5C6 to the recipient. These results indicate that anti-CR3 treatment inhibits extravasation of both the Ag-specific and the nonspecific cellular components of the lymphocytic choriomeningitis virus-induced, CD8+ cell-dependent inflammatory reaction. Thus, expression of CR3 seems to facilitate T cell homing to sites of inflammation.     

Chronic lymphocytic leukemia B cells can express CD40 ligand and demonstrate T-cell type costimulatory capacity

Chronic lymphocytic leukemia (CLL) is characterized by a clonal expansion of CD5(+) B cells in the peripheral blood. Associated immune aberrations include abnormal Th-cell function and pathogenic autoantibodies. Under most circumstances, CLL B cells do not proliferate in culture and express a limited repertoire of surface antigens, including CD19, CD20, CD23, CD27, CD40, and CD70. In this report, we demonstrate that freshly isolated B cells from a subset of CLL cases constitutively express CD40 ligand (CD40L, CD154), a member of the tumor necrosis factor family which is normally expressed by activated CD4(+) T cells and mediates T-cell-dependent B-cell proliferation and antibody production. The degree of CD40L expression varied considerably among the CLL cases examined. CD40L was detected in purified CLL B cells by immunofluorescence flow cytometry, by RT-PCR, and by immunoprecipitation. To demonstrate that CD40L in the CLL B cells is functional, we used irradiated CLL cells to stimulate IgG production by target, nonmalignant B cells in coculture. The CLL B cells induced IgG production by normal B cells to a similar degree as did purified T cells in a process which was partially inhibited by monoclonal antibody to CD40L. This is one of the first reports of CD40L expression in a B-cell tumor. The data suggest that CD40L in the tumor cells may be a factor in the generation of pathologic antibodies by normal B cells in some patients with CLL.