Induction of interdigitating reticulum cell-like differentiation in human monocytic leukemia cells by conditioned medium from IL-2-stimulated helper T-cells

Monocytic leukemia (MoL) cells were obtained from the peripheral blood of a patient in whom the leukemic cells infiltrating various lymphoreticular organs exhibited features intermediate between interdigitating reticulum cells (IDC) and ordinary phagocytic macrophages, whereas the leukemic cells in the peripheral blood were essentially monocytic and lacked such features. Peripheral blood CD4+ T-cells were established as an interleukin-2-dependent T-cell line. When the MoL cells were exposed for a few days to conditioned medium from the T-cell line, they extended several dendritic cytoplasmic projections and became intensely positive for HLA-DR antigen, cytoplasmic S-100β protein, and CD1 antigen. Functionally, the conditioned medium significantly down-regulated Fc-mediated and Fc-independent phagocytic activities, and the levels of lysosomal enzymes such as lysozyme and nonspecific esterase in the MoL cells. Moreover, the conditioned medium significantly up-regulated the accessory cell function of the MoL cells as measured by the primary allogenic mixed leukocyte reaction (MLR). Furthermore, the conditioned medium significantly down-regulated the expression of CD14 antigen. Biochemical analysis indicated that the factor responsible for these changes is a protein which is distinct from known human cytokines and whose molecular weight is approximately 31 kDa. These findings suggest that IDC are closely related the monocytic lineage and that helper T-cells play an important role in constructing the microenvironment of T-lymphoid tissues which is necessary for the differentiation and maturation of IDC.     

Increase in T-Cells Bearing CD25 in Bronchoalveolar Lavage Fluid from HAM/TSP Patients and HTLV-I Carriers

To determine the immunologic characteristics of T-cells in local pulmonary lesions of human T-cell lymphotropic virus type I (HTLV-I) carriers, we investigated lymphocyte surface markers in peripheral blood and bronchoalveolar lavage fluid (BALF) of 38 HTLV-I carriers, 8 HTLV-I associated myelopathy/tropical spastic paraparesis (HAM/TSP) patients, 44 HTLV-I seronegative patients with pulmonary diseases and 7 healthy volunteers using two-color flow cytometric analysis. In peripheral blood, activated T-cells, CD4+HLA-DR +, CD8 + HLA-DR + and CD3 + CD25 +, and CD4+CD29+ cells increased significantly in carriers and HAM/TSP patients compared with healthy volunteers and seronegative patients. In BALF, T-cells, especially CD25+ cells, increased significantly in carriers and HAM/TSP patients, compared with healthy volunteers and seronegative patients. These findings indicated that T-cells in the lungs, as well as in peripheral blood, are activated in carriers and HAM/TSP patients. Interestingly, there was dissociation between expression of CD3 + CD25+ cells in BALF and peripheral blood from these patients. These results suggest that T-cells activated probably by HTLV-I accumulate in the lungs in some carriers and HAM/TSP patients, and HTLV-I may be involved in the immunologic dysfunction in the lungs of these patients. However, we did not find any correlation between the degree of clinical features and the elevation of CD3 + CD25+ cells in BALF, or its characteristic features on chest roentgenograms.     

Activation outcomes induced in naïve CD8 T-cells by macrophages primed via "phagocytic" and nonphagocytic pathways

The array of phagocytic receptors expressed by macrophages make them very efficient at pathogen clearance, and the phagocytic process links innate with adaptive immunity. Primary macrophages modulate antigen cross-presentation and T-cell activation. We assessed ex vivo the putative role of different phagocytic receptors in immune synapse formation with CD8 naïve T-cells from OT-I transgenic mice and compared this with the administration of antigen as a soluble peptide. Macrophages that have phagocytosed antigen induce T-cell microtubule-organizing center and F-actin cytoskeleton relocalization to the contact site, as well as the recruitment of proximal T-cell receptor signals such as activated Vav1 and PKCθ. At the same doses of loaded antigen (1 μM), “phagocytic” macrophages were more efficient than peptide-antigen–loaded macrophages at forming productive immune synapses with T-cells, as indicated by active T-cell TCR/CD3 conformation, LAT phosphorylation, IL-2 production, and T-cell proliferation. Similar T-cell proliferation efficiency was obtained when low doses of soluble peptide (3–30 nM) were loaded on macrophages. These results suggest that the pathway used for antigen uptake may modulate the antigen density presented on MHC-I, resulting in different signals induced in naïve CD8 T-cells, leading either to CD8 T-cell activation or anergy.     

Immunocytochemical characterization of S-100 beta-positive human T-lymphocytes by a double immunostaining method

The antigenic properties of S-100 beta-positive human T-lymphocytes (S-100 beta+ T-cells) were investigated by a double immunostaining technique employing an indirect immunoperoxidase method for cytoplasmic S-100 beta subunit and an immunoalkaline phosphatase method for cell surface antigens detected by various monoclonal antibodies to human lymphocytes. S-100 beta+ T-cells recognized by their diffuse intracytoplasmic immunoperoxidase reaction, also expressed CD2, CD3, CD8 antigens demonstrated by surface blue alkaline phosphatase reactivity, but not CD4, CD1, CD25 (interleukin-2 receptor), or HLA-DR antigens. However, they displayed a blastic change to T-cell mitogens, such as Concanavalin A(Con-A) and PHA, followed by the expression of CD25 and HLA-DR antigens. Under normal conditions, S-100 beta+ T-cells comprised approximately 5-22.8% of CD8+ cells amongst human peripheral blood mononuclear cells.     

Failure of CD4 T-cells to respond to liver-derived antigen and to provide help to CD8 T-cells

CD4 T-cell help is required for the induction of efficient CD8 T-cells responses and the generation of memory cells. Lack of CD4 T-cell help may contribute to an exhausted CD8 phenotype and viral persistence. Little is known about priming of CD4 T-cells by liver-derived antigen. We used TF-OVA mice expressing ovalbumin in hepatocytes to investigate CD4 T-cell priming by liver-derived antigen and the impact of CD4 T-cell help on CD8 T-cell function. Naïve and effector CD4 T-cells specific for ovalbumin were transferred into TF-OVA mice alone or together with naïve ovalbumin-specific CD8 T-cells. T-cell activation and function were analyzed. CD4 T-cells ignored antigen presented by liver antigen-presenting cells (APCs) in vitro and in vivo but were primed in the liver-draining lymph node and the spleen. No priming occurred in the absence of bone-marrow derived APCs capable of presenting ovalbumin in vivo. CD4 T-cells primed in TF-OVA mice displayed defective Th1-effector function and caused no liver damage. CD4 T-cells were not required for the induction of hepatitis by CD8 T-cells. Th1-effector but not naïve CD4 T-cells augmented the severity of liver injury caused by CD8 T-cells. Our data demonstrate that CD4 T-cells fail to respond to liver-derived antigen presented by liver APCs and develop defective effector function after priming in lymph nodes and spleen. The lack of CD4 T-cell help may be responsible for insufficient CD8 T-cell function against hepatic antigens.     

Maturation inducer activity and the process of human myeloid leukemia cell differentiation

The process and mechanism of human myeloid leukemia cell differentiation induced by T-cell lymphokine maturation inducer activity was investigated. The maturation inducer activity was purified from conditioned medium of normal peripheral blood lymphocytes and shown to be a 50,000 M.W. protein. The degree of maturation of myeloid cell cultures was directly related to the dosage of the inducer. The interaction of the leukemia cells with the inducer led to initiation of terminal differentiation to monocytic cells. Proliferation cessation of the leukemia cells and the expressions of mature monocytic cells indicated a continuous and multistaged process.     

Post-thymic selection of peripheral CD4+ T-lymphocytes on class II major histocompatibility antigen-bearing cells.

Following positive and negative selection in the thymus, mature CD4+ T-cells emigrate into peripheral lymphoid organs. Whether resting T-cells require periodic stimulation to remain viable in the absence of antigen is important for understanding peripheral T-cell homeostasis. A prerequisite for T-cell receptor (TCR)-mediated signals in maintaining peripheral CD4+ T-cell longevity has been demonstrated. Here, we show in mice expressing a mutant I-Abeta transgene on an I-Abeta knockout background that na?ve CD4+ T-cells also require engagement of their CD4 coreceptors by peripheral, class II MHC-bearing cells for their survival. The transgene's product combines with endogenous Aalpha, but this mutant AalphaAbeta heterodimer cannot interact with CD4 molecules, although it efficiently presents antigens to TCRs. Resting CD4+ T-lymphocytes from mutant Abeta transgenic mice die by apoptosis at a much higher rate than do CD4+ T-cells from normal mice. Apoptosis of CD4+ T-cells in mutant Abeta transgenic mice is partially mediated by Fas. Adoptive transfer experiments revealed that the increase in apoptosis is due to a lack of interactions with mutant MHC class II rather than to an intrinsic defect in the CD4+ T-cells selected on mutant Abeta-expressing thymic epithelial cells. Thus, interactions between CD4 and MHC class II molecules contribute to the regulation of homeostasis in the peripheral immune system. Our results further suggest that thymic emigrant cells are continuously retested in the periphery for appropriate coreceptor interactions. Peripheral selection may be important in eliminating potentially autoreactive T-cells.     

A new human T-cell differentiation antigen: unexpected expression on chronic lymphocytic leukemia cells

Monoclonal antibody 10.2 reacts with a monomorphic antigen expressed on the surface of virtually all thymocytes, as well as thymus-dependent lymphocytes in the peripheral blood and bone marrow. In contrast, antibody 10.2 did not react with normal peripheral blood B cells, monocytes, or the non-T-cell fraction of bone marrow. This complement fixing IgG2a antibody also reacted with established leukemic T-cell lines, but not with cell lines of either normal or malignant B-cell origin. Similarly, when tested against acute leukemia blasts, the 10.2 antibody reacted with those from patients with T-cell acute leukemia, but not with those from patients with acute null cell or non-lymphocytic leukemia. An unexpected exception to this pattern was the reaction of 10.2 antibody with leukemic cells from patients with B-cell type chronic lymphocytic leukemia. Immune precipitates formed with 10.2 antibody and detergent lysates of radiolabeled T-cells contained three polypeptides with molecular weights of 65 000, 55 000, and 50 000 daltons. It has not been determined whether all three of these polypeptides contain the 10.2 antigenic determinant, or whether these proteins represent a multimeric antigen complex.     

A new human T-cell differentiation antigen: Unexpected expression on chronic lymphocytic leukemia cells

Monoclonal antibody 10.2 reacts with a monomorphic antigen expressed on the surface of virtually all thymocytes, as well as thymus-dependent lymphocytes in the peripheral blood and bone marrow. In contrast, antibody 10.2 did not react with normal peripheral blood B cells, monocytes, or the non-T-cell fraction of bone marrow. This complement fixing IgG2a antibody also reacted with extablished leukemic T-cell lines, but not with cell lines of either normal or malignant B-cell origin. Similarly, when tested against acute leukemia blasts, the 10.2 antibody reacted with those from patients with T-cell acute leukemia, but not with those from patients with acute null cell or non-lymphocytic leukemia. An unexpected exception to this pattern was the reaction of 10.2 antibody with leukemic cells from patients with B-cell type chronic lymphocytic leukemia. Immune precipitates formed with 10.2 antibody and detergent lysates of radiolabeled T-cells contained three polypeptides with molecular weights of 65 000, 55 000, and 50000 daltons. It has not been determined whether all three of these polypeptides contain the 10.2 antigenic determinant, or whether these proteins represent a multimeric antigen complex.PJM is a Junior Faculty Clinical Fellow of the American Cancer Society.     

Macrophage differentiation inducing factor from human monocytic cells is equivalent to murine leukemia inhibitory factor

Human macrophage differentiation inducing factor (DIF) can induce differentiation of human myeloid leukemic cells into macrophage-like cells in vitro. A procedure is described for purification of DIF from serum-free human monocytic leukemia THP-1 cell-conditioned medium. The procedure included concentration of a conditioned medium by ultrafiltration, lentil lectin-Sepharose affinity chromatography, and fast protein liquid chromatography using Mono S and Mono Q. DIF-A of pI 9.0 and DIF-B of pI 8.8 were obtained after a final purification with a Mono Q column, and both DIF gave a single peak with a molecular weight of approximately 51,000 determined by gel chromatography. NH2-terminal amino acid analysis of DIF-A showed a noticeable homology with murine leukemia inhibitory factor. Human DIF-A was found to induce maturation of human and murine leukemic cells into both macrophage-like cells with nitro blue tetrazolium reducing activity and phagocytic cells, but was found to suppress proliferation of these leukemic cells.     

Concomitant gemcitabine therapy negatively affects DC vaccine-induced CD8+ T-cell and B-cell responses but improves clinical efficacy in a murine pancreatic carcinoma model

Background

Multiple studies have shown that dendritic cell (DC)-based vaccines can induce antitumor immunity. Previously, we reported that gemcitabine enhances the efficacy of DC vaccination in a mouse model of pancreatic carcinoma. The present study aimed at investigating the influence of gemcitabine on vaccine-induced anti-tumoral immune responses in a syngeneic pancreatic cancer model.

Materials and methods

Subcutaneous or orthotopic pancreatic tumors were induced in C57BL/6 mice using Panc02 cells expressing the model antigen OVA. Bone marrow-derived DC were loaded with soluble OVA protein (OVA-DC). Animals received gemcitabine twice weekly. OVA-specific CD8⁺ T-cells and antibody titers were monitored by FACS analysis and ELISA, respectively.

Results

Gemcitabine enhanced clinical efficacy of the OVA-DC vaccine. Interestingly, gemcitabine significantly suppressed the vaccine-induced frequency of antigen-specific CD8⁺ T-cells and antibody titers. DC migration to draining lymph nodes and antigen cross-presentation were unaffected. Despite reduced numbers of tumor-reactive T-cells in peripheral blood, in vivo cytotoxicity assays revealed that cytotoxic T-cell (CTL)-mediated killing was preserved. In vitro assays revealed sensitization of tumor cells to CTL-mediated lysis by gemcitabine. In addition, gemcitabine facilitated recruitment of CD8⁺ T-cells into tumors in DC-vaccinated mice. T- and B-cell suppression by gemcitabine could be avoided by starting chemotherapy after two cycles of DC vaccination.

Conclusions

Gemcitabine enhances therapeutic efficacy of DC vaccination despite its negative influence on vaccine-induced T-cell proliferation. Quantitative analysis of tumor-reactive T-cells in peripheral blood may thus not predict vaccination success in the setting of concomitant chemotherapy.     

Immune Responses in Acute and Convalescent Patients with Mild,Moderate and Severe Disease during the 2009 Influenza Pandemic in Norway

Increased understanding of immune responses influencing clinical severity during pandemic influenza infection is important for improved treatment and vaccine development. In this study we recruited 46 adult patients during the 2009 influenza pandemic and characterized humoral and cellular immune responses. Those included were either acute hospitalized or convalescent patients with different disease severities (mild, moderate or severe). In general, protective antibody responses increased with enhanced disease severity. In the acute patients, we found higher levels of TNF-α single-producing CD4⁺T-cells in the severely ill as compared to patients with moderate disease. Stimulation of peripheral blood mononuclear cells (PBMC) from a subset of acute patients with peptide T-cell epitopes showed significantly lower frequencies of influenza specific CD8⁺ compared with CD4⁺ IFN-γ T-cells in acute patients. Both T-cell subsets were predominantly directed against the envelope antigens (HA and NA). However, in the convalescent patients we found high levels of both CD4⁺ and CD8⁺ T-cells directed against conserved core antigens (NP, PA, PB, and M). The results indicate that the antigen targets recognized by the T-cell subsets may vary according to the phase of infection. The apparent low levels of cross-reactive CD8⁺ T-cells recognizing internal antigens in acute hospitalized patients suggest an important role for this T-cell subset in protective immunity against influenza.     

Dynamics of Peripheral Blood Lymphocyte Subpopulations in the Acute and Subacute Phase of Legionnaires’ Disease

Study Objective

Absolute lymphocytopenia is recognised as an important hallmark of the immune response to severe infection and observed in patients with Legionnaires’ disease. To explore the immune response, we studied the dynamics of peripheral blood lymphocyte subpopulations in the acute and subacute phase of LD.

Methods and Results

EDTA-anticoagulated blood was obtained from eight patients on the day the diagnosis was made through detection of L. pneumophila serogroup 1 antigen in urine. A second blood sample was obtained in the subacute phase. Multiparametric flow cytometry was used to calculate lymphocyte counts and values for B-cells, T-cells, NK cells, CD4⁺ and CD8⁺ T-cells. Expression of activation markers was analysed. The values obtained in the subacute phase were compared with an age and gender matched control group. Absolute lymphocyte count (×10⁹/l, median and range) significantly increased from 0.8 (0.4–1.6) in the acute phase to 1.4 (0.8–3.4) in the subacute phase. B-cell count showed no significant change, while T-cell count (×10⁶/l, median and range) significantly increased in the subacute phase (495 (182–1024) versus 979 (507–2708), p = 0.012) as a result of significant increases in both CD4⁺ and CD8⁺ T-cell counts (374 (146–629) versus 763 (400–1507), p = 0.012 and 119 (29–328) versus 224 (107–862), p = 0.012). In the subacute phase of LD, significant increases were observed in absolute counts of activated CD4⁺ T-cells, naïve CD4⁺ T-cells and memory CD4⁺ T-cells. In the CD8⁺ T-cell compartment, activated CD8⁺ T-cells, naïve CD8⁺ T-cell and memory CD8⁺ T-cells were significantly increased (p<0.05).

Conclusion

The acute phase of LD is characterized by absolute lymphocytopenia, which recovers in the subacute phase with an increase in absolute T-cells and re-emergence of activated CD4⁺ and CD8⁺ T cells. These observations are in line with the suggested role for T-cell activation in the immune response to LD.     

Differentiation of myeloid cells in liquid culture: 2. Acute myelocytic leukemia cells

In a companion paper we demonstrated that normal peripheral blood granulocytic precursor cells differentiate after 2-3 weeks in suspension culture. In the studies described here leukemic blast cells obtained from 14 patients with acute myelocytic leukemia (AML) and two patients with chronic myelocytic leukemia in blastic crisis were cultured in McCoy's 5A medium containing 15 per cent fetal bovine serum for 2-3 weeks at 37 degrees C in an atmosphere of 5 per cent CO2-95 per cent room air. 'Spontaneous' myeloid differentiation (20 x 10(4) viable mature myeloid cells ml-1) occurred in the cultures of cells obtained from 8 pts. The differentiation was granulocytic in three cases, monocytic in four cases and of mixed type in one case. Differentiation was independent of the growth of the cells in culture and occurred in four cases after the first week. Monocytic differentiation was seen only in AML of the FAB M4 type whereas granulocytic or mixed differentiation were seen only in AML of the FAB M1 or M2 types. When PHA leucocyte conditioned medium (PHA-LCM) was added to the cultures monocytic/macrophage differentiation was favoured. Inducers of the differentiation of the HL-60 cell line (N-methylacetamide, cytosine arabinoside, or retinoic acid) had no consistent effect on the differentiation and were at times inhibitory. Three patients received therapy with low dose cytosine arabinoside and no correlation was observed between the outcome of the treatment and leukemic cell differentiation in culture in the presence of the drug.     

HIV-induced T-cell activation/exhaustion in rectal mucosa is controlled only partially by antiretroviral treatment

Peripheral blood T-cells from untreated HIV-1-infected patients exhibit reduced immune responses, usually associated with a hyperactivated/exhausted phenotype compared to HAART treated patients. However, it is not clear whether HAART ameliorates this altered phenotype of T-cells in the gastrointestinal-associated lymphoid tissue (GALT), the main site for viral replication. Here, we compared T-cells from peripheral blood and GALT of two groups of chronically HIV-1-infected patients: untreated patients with active viral replication, and patients on suppressive HAART. We characterized the T-cell phenotype by measuring PD-1, CTLA-4, HLA-DR, CD25, Foxp3 and granzyme A expression by flow cytometry; mRNA expression of T-bet, GATA-3, ROR-γt and Foxp3, and was also evaluated in peripheral blood mononuclear cells and rectal lymphoid cells. In HIV-1+ patients, the frequency of PD-1(+) and CTLA-4(+) T-cells (both CD4+ and CD8+ T cells) was higher in the GALT than in the blood. The expression of PD-1 by T-cells from GALT was higher in HIV-1-infected subjects with active viral replication compared to controls. Moreover, the expression per cell of PD-1 and CTLA-4 in CD4(+) T-cells from blood and GALT was positively correlated with viral load. HAART treatment decreased the expression of CTLA-4 in CD8(+) T cells from blood and GALT to levels similar as those observed in controls. Frequency of Granzyme A(+) CD8(+) T-cells in both tissues was low in the untreated group, compared to controls and HAART-treated patients. Finally, a switch towards Treg polarization was found in untreated patients, in both tissues. Together, these findings suggest that chronic HIV-1 infection results in an activated/exhausted T-cell phenotype, despite T-cell polarization towards a regulatory profile; these alterations are more pronounced in the GALT compared to peripheral blood, and are only partiality modulated by HAART.     

Lung carcinomas do not induce T-cell apoptosis via the Fas/Fas ligand pathway but down-regulate CD3 epsilon expression

Background Non-small cell lung carcinoma (NSCLC) patients have impaired cellular immune responses. It has been hypothesized that tumor cells expressing Fas Ligand (FasL) induce in T lymphocytes: (a) apoptosis (tumor counterattack) and (b) down-regulation of CD3ζ expression. However, the hypothesis of tumor counterattack is still controversial. Methods We analyzed FasL expression on NSCLC cell lines and on tumor cells from lung adenocarcinoma patients by flow cytometry and immunocytochemistry. FasL mRNA expression was detected in NSCLC cell lines using RT-PCR, and functional FasL was evaluated on Fas-expressing Jurkat T-cells by annexin-V-FITC staining and by SubG₁ peak detection. Also, the proapoptotic effect of microvesicles released from NSCLC cell lines in Jurkat T-cells was studied. Alterations in the expression levels of CD3ζ, CD3ε, and CD28 [measured as mean fluorescence intensity (MFI)] were determined in Jurkat T-cells after co-culture with NSCLC cell lines or tumor-derived microvesicles. Furthermore, the expression levels of CD3ζ and CD3ε in CD4+T and CD8+T lymphocytes from lung adenocarcinoma patients was studied. Results Our results indicate that NSCLC cells neither FasL expressed nor induced apoptosis in Jurkat T-cells. Tumor-derived microvesicles did not induce apoptosis in Jurkat T-cells. In contrast, NSCLC cell lines down-regulated CD3ε but not CD3ζ chain expression in Jurkat T-cells; this effect was induced by soluble factors but not by microvesicles. In lung adenocarcinoma patients, significant decreases of MFI values for CD3ε, but not CD3ζ, were found in CD4+T and CD8+T cells from pleural effusion compared to peripheral blood and in peripheral blood of patients compared to healthy donors. Conclusions Our data do not support the tumor counterattack hypothesis for NSCLC. Nonetheless, down-regulation of CD3ε in T-cells induced by NSCLC cells might lead to T-cell dysfunction.     

Appearance of B- or T-lymphocyte markers after diffusion chamber culture of acute lymphoblastic leukemia cells

Blast cells derived from blood and marrow samples of a patient with acute lymphoblastic leukemia (ALL), as well as from the Reh line originally established from an ALL patient, were cultured in diffusion chambers implanted i.p. into preirradiated CBA mice. At different intervals over a period of up to 20 days, surface immunoglobulins, ALL antigen, and T-cell antigen were investigated by using direct immunofluorescence. Rosette formation was tested with sheep and mouse erythrocytes. On day 0, the cells expressed only ALL antigen at the surface, and no rosette formation was observed. During culture the patient's lymphoblasts, which originally had cytoplasmic IgM in addition to ALL antigen, expressed surface immunoglobulins as well as mouse erythrocyte receptors. The Reh line cells were ambivalent in two experiments developing T-cell antigens and sheep erythrocyte receptors as well as mouse erythrocyte receptors. Our data suggest that the differentiation arrest in leukemic lymphoblasts can be overcome, thus entailing a surface pattern similar to mature T- or B-lymphocytes.     

Internalization of CD4 molecules in human T-cells demonstrated by immuno-electron microscopy.

Internalization of CD4 molecules on human CD4-enriched T-cells was demonstrated by immunocytochemical electron microscopy. CD4+ T-cell subclones were obtained from normal human peripheral blood, followed by one-way MLC screening and co-culturing with IL-2. Fixed and non-fixed T-cell samples were indirectly immunolabeled with mouse anti-human CD4 monoclonal antibody and goat anti-mouse IgG conjugated with peroxidase. Unfixed T-cells were immunolabeled at 4 degrees C and then re-incubated for 5-45 min at 37 degrees C. The selected CD4+ T-cell subclones showed strong CD4 binding on the cell surface after IL-2 incubation. However, fresh T-cells, monocytes, bone marrow cells and CD8+ T-cells all stained negative for CD4. The distribution of CD4 molecules on the fixed cell surface showed a homogeneous pattern. Capping and internalization of CD4-antibody-peroxidase complexes from the cell surfaces were observed follow a pathway of receptor-mediated endocytosis in unfixed T cells. Endocytotic vesicles, vacuoles of diverse sizes and shapes near the cell membrane or deep in the cell center were found to contain CD4 molecules. Negatively stained Golgi saccules were observed up to 45 min after re-incubation. These results suggest that increased CD4 molecules can be induced on the surface of normal human T-cells in vitro. Internalization and accumulation of CD4 molecules occurred in CD4-enriched T-cells with IL-2 pretreatment.     

Leishmania donovani: role of CD2 on CD4+ T-cell function in Visceral Leishmaniasis

In this study, we investigated whether alteration in the CD2 mediated coordination of an immune response was associated with down regulation of CD4 associated Th1 cell response during Visceral Leishmaniasis (VL). Leishmania donovani (Ld) infection in VL patients markedly reduced expression of CD2 cell surface antigen on CD4+ cells. T-cells of VL patients were mostly in G0/G1 stage of the cell cycle (98.20%) with little or no activity of protein kinase C-alpha (PKC-alpha) isoform. However, pre-incubation with activating anti-CD2 monoclonal antibody (MAb) resulted in a corresponding increase up to 2.52-fold in T-cells of G2/M population supported by both activity and expression of PKC-alpha isoform. Furthermore, we observed that co-incubation of T-cell with anti-CD2 increased the lymphocyte-blast population in patients in whom the CD4 cells became more antigen responsive (CD4+ CD69+ cells). Consistent with these observations, it was shown that 59.3% of CD4 cells from patients responded to Ld by producing IFN-gamma. Even in the culture condition, when the T-cells from patients were depleted of APC, IFN-gamma production was noticed after CD2 activation. On the other hand, IL-4 production became low in the anti-CD2 antibody supplemented peripheral blood mononuclear cells (PBMNCs) culture. These findings imply that infection with L. donovani induces less CD2 on the surface of CD4+ T-cells, which once activated orchestrate the protective IFN-gamma dominant host defense mechanism via PKC-mediated signal transduction and cell cycle.