Interleukin-4 and interferon-gamma synergistically increase secretory component gene expression, but are additive in stimulating secretory immunoglobulin A release by Calu-3 airway epithelial cells.
(49/8613)
Interleukin-4 (IL-4) and interferon-gamma (IFN-gamma) synergize to express polymeric immunoglobulin receptor (pIgR) but their combined effect, and that of IL-4 alone, on secretory immunoglobulin A (sIgA) release is unknown. Recently, we have developed an airway epithelial cell model that allows assessment of the integrated effect of a stimulus on pIgR gene and protein expression and sIgA release. With this model we show here that IL-4 and IFN-gamma dose-dependently increased pIgR mRNA and protein expression, and sIgA release. IFN-gamma and IL-4 induced similar maximal expression of pIgR, but IFN-gamma enhanced sIgA release more than IL-4. When added together, IL-4 and IFN-gamma synergistically increased pIgR mRNA and protein expression, but sIgA release was stimulated in an additive manner. Thus, IL-4 and IFN-gamma may be implicated in the increase of sIgA levels as found in mucosal inflammatory diseases. In addition, our results indicate that transport and release of empty pIgR is subject to regulatory mechanisms different from those of pIgR with bound dimeric IgA. (+info)
Kinetics and intracellular pathways required for major histocompatibility complex II-peptide loading and surface expression of a fluorescent hapten-protein conjugate in murine macrophage.
(50/8613)
A fluorescent antigen, FITC10BSA, that is sensitive to several of the biochemical processes involved in antigen processing was constructed. In combination with both flow cytometry and subcellular fractionation, the unique probe provided new details regarding the kinetics and intracellular pathways involved in antigen processing in murine macrophage. These studies suggested that macrophage utilized multiple vesicles as opposed to a few specific organelles for major histocompatibility complex (MHC) type II-peptide loading and transport. Although newly formed MHC II-peptide complexes were detected in cathepsin D-positive, lysosomal associated membrane glycoprotein (LAMP-1)-positive lysosomes, MHC II-peptide loading also occurred in transferrin receptor-positive endosomes. Interestingly, MHC II-fluoresceinated complexes were only observed in transferrin receptor-positive organelles as opposed to MHC II-unlabelled peptide complexes which were detected in traditional early lysosomal compartments. More importantly, MHC II-peptide complexes were monitored in light transferrin receptor-positive fractions following their initial appearance in dense endosomal/lysosomal fractions. Control experiments suggested that these complexes represented intermediates in the process of migrating to the cell surface through a retrograde pathway within the macrophage. (+info)
Direct Ni2+ antigen formation on cultured human dendritic cells.
(51/8613)
The possible direct antigen formation of Ni2+ on antigen-presenting cells (APCs) was studied with cultured human dendritic cells (DCs) obtained from 10 subjects contact allergic to Ni2+ and six non-allergic control individuals. All contact allergic subjects showed a significantly increased peripheral blood mononuclear cell (PBMC) response in vitro to Ni2+. DCs were expanded from the plastic-adherent cell fraction of PBMCs by culturing with granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-4 (IL-4) for 7 days to obtain immature DCs, and with the addition of monocyte-conditioned medium for another 4 days, for DC maturation. The DCs were pulsed for 20 min with Ni2+ (50 micrometers) in protein-free Hank's balanced salt solution (HBSS) and added to freshly prepared autologous responder PBMCs. With five allergic subjects, immature DCs pulsed with Ni2+ demonstrated a significant capacity to activate Ni2+-reactive lymphocytes. With the remaining five patients and the six controls no difference in lymphocyte proliferation was observed between Ni2+-pulsed and non-pulsed immature DCs. In contrast, with mature Ni2+-pulsed DCs from both 'positive responder' (n=4) and 'non-responder' (n=4) patients, there was a significantly stimulated PBMC proliferation, whereas with the controls (n=4) still no activation was observed. Our results indicate that direct formation of the antigenic determinant of Ni2+ on APCs is possible and that Ni2+ uptake and processing mechanisms may not play a major role. Differences in the ease of activation of Ni2+-reactive lymphocytes are discussed in terms of a possible heterogeneity in the availability of Ni2+-reactive groups presented on endogenous peptides bound in the antigen binding groove of human leucocyte antigen (HLA) class-II molecules. (+info)
T-cell anergy induced by clonotype-specific antibodies: modulation of an autoreactive human T-cell clone in vitro.
(52/8613)
Monoclonal antibodies (mAb) specific for the clonotype of an autoreactive T cell may be useful reagents in the modulation of autoimmune disease. We have previously reported the generation of a set of mAb specific for the clonotypic structure of a human T-cell clone recognizing an epitope of human cartilage gp-39. This glycoprotein was recently identified as a candidate autoantigen in rheumatoid arthritis. Here, we demonstrate for the first time that small amounts of immobilized anticlonotype mAb can induce anergy in the autoreactive clone. Following the anergic stimulus, T cells failed to proliferate upon restimulation as a result of a lack of interleukin-2 (IL-2) gene transcription. In addition, a diminished interferon-gamma (IFN-gamma) production was found. Our data indicate that anergy was not a result of T-cell receptor (TCR) downmodulation or the absence of free TCR. The anergic state was induced independent of costimulation or the presence of IL-2 and no protein synthesis was required for the induction of anergy. Anticlonotype mAb-induced anergy was prevented by cyclosporin A, suggesting that active signalling via the calcium/calcineurin pathway was required for the induction of anergy. In coculture experiments, anergic T cells were found to suppress the response of reactive cells from the same clone. This bystander suppression led to 90% inhibition of peptide-induced proliferation. Together, these findings suggest that mAb to the clonotypic structure of autoreactive T cells may be suitable reagents for the functional inactivation of these T cells in autoimmune diseases. (+info)
Splenic but not thymic autoreactive T cells from New Zealand Black mice respond to a dominant erythrocyte Band 3 peptide.
(53/8613)
Previous work from our laboratory suggested that erythrocyte Band 3 peptide 861-874 is the dominant epitope recognized by splenic T cells from adult New Zealand Black (NZB) mice that are developing autoimmune haemolytic anaemia (AIHA). Here, it is shown that splenic T cells from 6-week-old NZB mice mount a vigorous in vitro proliferative response to peptide 861-874 and some other selected Band 3 peptides. As the donors grow older, splenic T cells respond to an increasing number of Band 3 peptides and the magnitude of their response also becomes greater. Splenic T cells from 3-week-old NZB mice still responded vigorously to peptide 861-874 and Band 3. By contrast, neither thymocytes nor single-positive CD4-enriched thymus cells from NZB mice responded to peptide 861-874 or Band 3, although they responded to concanavalin A (Con A). However, thymocytes from mice expressing a transgenic T-cell receptor (TCR)-specific for myelin basic protein (MBP) peptide Ac 1-9 responded vigorously to Ac 1-9. It is considered that the T-cell response of NZB mice to Band 3 is initially focused on peptide 861-874 and later spreads to other Band 3 peptides as the disease progresses and that peptide 861-874-reactive T cells are primed in the periphery rather than the thymus. (+info)
Ganglioside GT1b suppresses immunoglobulin production by human peripheral blood mononuclear cells.
(54/8613)
Gangliosides are sialic acid-containing glycolipids and have various immunomodulatory effects. We previously reported that various gangliosides in vitro either inhibited or enhanced spontaneous immunoglobulin production by human peripheral blood mononuclear cells (PBMC). Among them, GT1b was the most inhibitory. In this study, we further examined the mechanism for the inhibitory effect of GT1b. The inhibitory effect of GT1b was apparent at 0.1 micrometers, increased dose dependently, and was maximal at 10 micrometers. In the presence of 10 micrometers GT1b, spontaneous production of immunoglobulin (Ig)G, IgM and IgA in human PBMC was reduced by 60%, 59.5% and 58%, respectively, compared with controls. GT1b did not affect the proliferation and viability of PBMC, and did not enhance their apoptosis. GT1b did not alter immunoglobulin production of B cells alone. Interleukin (IL)-6 and IL-10 each partially reversed the GT1b-induced inhibition of immunoglobulin production by PBMC, and the presence of both cytokines completely reversed the inhibition. GT1b inhibited IL-6 and IL-10 production in monocytes, without affecting that in T or B cells. When monocytes were preincubated with GT1b, washed and then cultured with B and T cells, the immunoglobulin production was also suppressed. These results suggest that GT1b may indirectly suppress immunoglobulin production of B cells in whole PBMC via reducing the production of IL-6 and IL-10 in monocytes. It is thus indicated that GT1b may act as an important inhibitor for human humoral immune responses. (+info)
A partial catalog of proteins secreted by epidermal keratinocytes in culture.
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Proteins secreted by epidermal keratinocytes are known to engage in functions other than those directly associated with barrier formation. We have used a previously published culture model to collect proteins secreted by adult human epidermal keratinocytes. Electrophoresis and microsequencing allowed us to identify 20 proteins. The list of proteins includes those known to be produced by keratinocytes (beta-2 microglobulin, betaIG-H3, calgranulin A, cathepsin B and D, E-cadherin, gelatinase B, gelsolin, interstitial collagenase, laminin B2t, plasminogen activator inhibitor-1, protein 14-3-3epsilon, SCC antigen, stratifin, and translationally controlled tumor protein) as well as those not previously known to be secreted by keratinocytes (epididymis secretory protein, maspin, and anti-neoplastic urinary protein). In addition, two proteins were identified that are not known to be secreted (glutathione-S-transferase and heat shock protein 27/28 kDa). The varied nature of the proteins identified suggests that epidermal keratinocytes have physiologic functions that have yet to be identified. (+info)
Unicellular-unilineage erythropoietic cultures: molecular analysis of regulatory gene expression at sibling cell level.
(56/8613)
In vitro studies on hematopoietic control mechanisms have been hampered by the heterogeneity of the analyzed cell populations, ie, lack of lineage specificity and developmental stage homogeneity of progenitor/precursor cells growing in culture. We developed unicellular culture systems for unilineage differentiation of purified hematopoietic progenitor cells followed by daughter cell analysis at cellular and molecular level. In the culture system reported here, (1) the growth factor (GF) stimulus induces cord blood (CB) progenitor cells to proliferate and differentiate/mature exclusively along the erythroid lineage; (2) this erythropoietic wave is characterized by less than 4% apoptotic cells; (3) asymmetric divisions are virtually absent, ie, nonresponsive hematopoietic progenitors with no erythropoietic potential are forced into apoptosis; (4) the system is cell division controlled (cdc), ie, the number of divisions performed by each cell is monitored. Single-cell reverse transcriptase-polymerase chain reaction (RT-PCR) analysis was applied to this culture system to investigate gene expression of diverse receptors, markers of differentiation, and transcription factors (EKLF, GATA-1, GATA-2, p45 NF-E2, PU.1, and SCL/Tal1) at discrete stages of erythropoietic development. Freshly isolated CD34(+) cells expressed CD34, c-kit, PU.1, and GATA-2 but did not express CD36, erythropoietin receptor (EpoR), SCL/Tal1, EKLF, NF-E2, GATA-1, or glyocophorin A (GPA). In early to intermediate stages of erythroid differentiation we monitored the induction of CD36, Tal1, EKLF, NF-E2, and GATA-1 that preceeded expression of EpoR. In late stages of erythroid maturation, GPA was upregulated, whereas CD34, c-kit, PU.1, and GATA-2 were barely or not detected. In addition, competitive single-cell RT-PCR was used to assay CD34 mRNA transcripts in sibling CD34(+)CD38(-) cells differentiating in unilineage erythroid cultures: this analysis allowed us to semiquantitate the gradual downmodulation of CD34 mRNA from progenitor cells through their differentiating erythroid progeny. It is concluded that this novel culture system, coupled with single-cell RT-PCR analysis, may eliminate the ambiguities intrinsic to molecular studies on heterogeneous populations of hematopoietic progenitors/precursors growing in culture, particularly in the initial stages of development. (+info)