Stimulation Of Human Lymphocytes Research Articles

Bridging therapy-induced phenotypes and genetic immune dysregulation to study interleukin-2-induced immunotoxicology

Interleukin-2 (IL-2) holds promise for the treatment of cancer and autoimmune diseases, but its high-dose usage is associated with systemic immunotoxicity. Differential IL-2 receptor (IL-2R) regulation might impact function of cells upon IL-2 stimulation, possibly inducing cellular changes similar to patients with hypomorphic IL2RB mutations, presenting with multiorgan autoimmunity. Here, we show that sustained high-dose IL-2 stimulation of human lymphocytes drastically reduces IL-2Rβ surface expression especially on T cells, resulting in impaired IL-2R signaling which correlates with high IL-2Rα baseline expression. IL-2R signaling in NK cells is maintained. CD4+ T cells, especially regulatory T cells are more broadly affected than CD8+ T cells, consistent with lineage-specific differences in IL-2 responsiveness. Given the resemblance of cellular characteristics of high-dose IL-2-stimulated cells and cells from patients with IL-2Rβ defects, impact of continuous IL-2 stimulation on IL-2R signaling should be considered in the onset of clinical adverse events during IL-2 therapy.

Methods to Assess Proliferation of Stimulated Human Lymphocytes In Vitro: A Narrative Review.

The ability to monitor lymphocyte responses is critical for developing our understanding of the immune response in humans. In the current clinical setting, relying on the metabolic incorporation of [3H] thymidine into cellular DNA via a lymphocyte proliferation test (LPT) is the only method that is routinely performed to determine cell proliferation. However, techniques that measure DNA synthesis with a radioactive material such as [3H] thymidine are intrinsically more sensitive to the different stages of the cell cycle, which could lead to over-analyses and the subsequent inaccurate interpretation of the information provided. With cell proliferation assays, the output should preferably provide a direct and accurate measurement of the number of actively dividing cells, regardless of the stimuli properties or length of exposure. In fact, an ideal technique should have the capacity to measure lymphocyte responses on both a quantitative level, i.e., cumulative magnitude of lymphoproliferative response, and a qualitative level, i.e., phenotypical and functional characterization of stimulated immune cells. There are many LPT alternatives currently available to measure various aspects of cell proliferation. Of the nine techniques discussed, we noted that the majority of these LPT alternatives measure lymphocyte proliferation using flow cytometry. Across some of these alternatives, the covalent labelling of cells with a high fluorescence intensity and low variance with minimal cell toxicity while maximizing the number of detectable cell divisions or magnitude of proliferation was achieved. Herein, we review the performance of these different LPT alternatives and address their compatibility with the [3H] thymidine LPT so as to identify the "best" alternative to the [3H] thymidine LPT.

Time-Dependent Regulation of IL-2R α-Chain (CD25) Expression by TCR Signal Strength and IL-2-Induced STAT5 Signaling in Activated Human Blood T Lymphocytes.

The expression of the IL-2R α-chain (IL-2Rα) is regulated at the transcriptional level via TCR- and IL-2R-signaling. The question is how to precede in time the activation signals to induce the IL-2Rα expression in native primary T cells. By comparing the effects of selective drugs on the dynamics of CD25 expression during the mitogen stimulation of human peripheral blood lymphocytes, we identified distinct Src- and JAK-dependent stages of IL-2Rα upregulation. PP2, a selective inhibitor of TCR-associated Src kinase, prevents CD25 expression at initial stages of T cell activation, prior to the cell growth. This early IL-2Rα upregulation underlies the T cell competence and the IL-2 responsiveness. We found that the activated with “weak” mitogen, the population of blood lymphocytes has some pool of competent CD25+ cells bearing a high affinity IL-2R. A distinct pattern of IL-2R signaling in resting and competent T lymphocytes has been shown. Based on the inhibitory effect of WHI-P131, a selective drug of JAK3 kinase activity, we concluded that in quiescent primary T lymphocytes, the constitutive STAT3 and the IL-2-induced prolonged STAT5 activity (assayed by tyrosine phosphorylation) is mostly JAK3-independent. In competent T cells, in the presence of IL-2 JAK3/STAT5 pathway is switched to maintain the higher and sustained IL-2Rα expression as well as cell growth and proliferation. We believe that understanding the temporal coordination of antigen- and cytokine-evoked signals in primary T cells may be useful for improving immunotherapeutic strategies.

Preclinical Development of Ipilimumab and Nivolumab Combination Immunotherapy: Mouse Tumor Models, In Vitro Functional Studies, and Cynomolgus Macaque Toxicology.

The monoclonal antibodies ipilimumab (anti-CTLA-4) and nivolumab (anti-PD-1) have shown remarkable antitumor activity in an increasing number of cancers. When combined, ipilimumab and nivolumab have demonstrated superior activity in patients with metastatic melanoma (CHECKMATE-067). Here we describe the preclinical development strategy that predicted these clinical results. Synergistic antitumor activity in mouse MC38 and CT26 colorectal tumor models was observed with concurrent, but not sequential CTLA-4 and PD-1 blockade. Significant antitumor activity was maintained using a fixed dose of anti-CTLA-4 antibody with decreasing doses of anti-PD-1 antibody in the MC38 model. Immunohistochemical and flow cytometric analyses confirmed that CD3+ T cells accumulated at the tumor margin and infiltrated the tumor mass in response to the combination therapy, resulting in favorable effector and regulatory T-cell ratios, increased pro-inflammatory cytokine secretion, and activation of tumor-specific T cells. Similarly, in vitro studies with combined ipilimumab and nivolumab showed enhanced cytokine secretion in superantigen stimulation of human peripheral blood lymphocytes and in mixed lymphocyte response assays. In a cynomolgus macaque toxicology study, dose-dependent immune-related gastrointestinal inflammation was observed with the combination therapy; this response had not been observed in previous single agent cynomolgus studies. Together, these in vitro assays and in vivo models comprise a preclinical strategy for the identification and development of highly effective antitumor combination immunotherapies.

Regulatory B cells in CVID patients fail to suppress multifunctional IFN-γ+TNF-α+CD4+ T cells differentiation

Common variable immunodeficiency (CVID) refers to primary hypogammaglobulinemia with unknown pathogenesis. Although there is evidence for intrinsic B cell defects in some CVID patient groups, various abnormalities in cytokine production by T cells in CVID patients are frequently observed. Here, we demonstrate a relationship in the production of pro-inflammatory Th1 cytokines and regulatory B cells producing IL-10 between CVID patients and healthy controls. We describe CD19+CD24hiCD38hiIL-10+ regulatory B cells generated after T cell stimulation of human peripheral blood lymphocytes ex vivo are able to suppress IFN-γ+TNF-α+ producing CD4+ T cells. This process is impaired in CVID patients, who present with both low numbers of CD19+CD24hiCD38hiIL-10+ B cells and increased numbers of IFN-γ+TNF-α+CD4+ T cells. Disruption of the regulatory B cell response to T cell stimulation explains the excessive T cell activation regarded as an immunoregulatory abnormality that is a frequent finding in CVID patients.

DNA repair capacity of cultured human lymphocytes exposed to mutagens measured by the comet assay and array expression analysis.

Repair of mutagen-induced DNA lesions during transportation, storage and cultivation of lymphocytes may have a significant impact on results obtained in human biomonitoring after occupational and environmental exposure of human populations to genotoxic chemicals. Using the comet assay in combination with the repair inhibitor aphidicolin and array gene expression analysis of 92 DNA repair genes, we investigated the repair of DNA lesions induced by methyl methanesulfonate (MMS) and benzo[a]pyrenediolepoxide (BPDE) in phytohaemagglutinin (PHA)-stimulated cultured human lymphocytes in the time segment before replication. The comet assay indicated fast repair of MMS-induced damage during the first hours of cultivation. In contrast, removal of BPDE-induced lesions was slower and significant amounts of damage seem to persist until S-phase. Gene expression analysis revealed that PHA stimulation had a clear effect on gene regulation in lymphocytes already during the first 18h of cultivation. Under the conditions of this study, genotoxic concentrations of MMS did not induce significant changes in gene expression. In contrast, exposure to BPDE led to altered expression of several genes in a time- and concentration-related manner. Of the significantly up-regulated genes, only two genes (XPA and XPC) were directly related to nucleotide excision repair. Our results suggest that PHA stimulation of human lymphocytes influences the expression of DNA repair genes in human lymphocytes. The effect of induced DNA damage on gene expression is comparatively low and depends on the mutagens used. PHA-stimulated lymphocytes repair induced DNA damage before they start to replicate but the repair activity during the first 18h of cultivation is not affected by changes in the expression of DNA repair genes during this period of time.

FMLP-, thapsigargin-, and H2O2-evoked changes in intracellular free calcium concentration in lymphocytes and neutrophils of type 2 diabetic patients

Type 2 diabetic (T2DM) patients are immune-compromised having a higher susceptibility to infections and long-term complications in different parts of the body contributing to increased morbidity and mortality. A derangement in the homeostasis of intracellular free calcium concentration [Ca²⁺](i) is known to be associated with several diseases in the body including T2DM. Both neutrophils and lymphocytes play active protective roles in host immune response to infection showing impairment in microbicidal functions including phagocytosis and chemotaxis which are calcium-dependent processes. This study evaluated the process of [Ca²⁺]i mobilization from both neutrophils and lymphocytes taken from blood of both T2DM patients and healthy age-matched control subjects investigating the effect of N-formyl-methionyl-leucyl-phenylalanine (fMLP), thapsigargin (TG), and hydrogen peroxide (H₂O₂) on [Ca²⁺](i) homeostasis. This study employed isolated peripheral blood neutrophils and lymphocytes from 24 T2DM patients and 24 healthy volunteers. Either neutrophils or lymphocytes were stimulated separately with fMLP, TG, or H₂O₂. Induced changes in [Ca²⁺] in both neutrophils and lymphocytes were evaluated using spectrofluorometric methods. Stimulation of human neutrophils and lymphocytes with fMLP, TG, or H₂O₂ in the presence of [Ca²⁺]o resulted in significant decreases in [Ca²⁺](i) mobilization from T2DM patients compared with healthy controls. These data indicate that neutrophils and lymphocytes from T2DM patients are less responsive to calcium mobilizing agents compared with granulocytes from healthy controls and this is possibly due to the hyperglycemia. The results suggest that agonist-evoked decrease in [Ca²⁺](i) in immune cells might be one of the possible mechanisms of impaired immunity in diabetic patients.

IL-4 enhances IFN-λ1 (IL-29) production by plasmacytoid DCs via monocyte secretion of IL-1Ra

The type-III interferon (IFN) family is composed of 3 molecules in humans: IFN-lambda1 (interleukin-29 [IL-29]), IFN-lambda2 (IL-28A), and IFN-lambda3 (IL-28B), each of which signals through the same receptor complex. Plasmacytoid dendritic cells (pDCs) are major IFN-lambda producers among peripheral lymphocytes. Recently, it has been shown that IFN-lambda1 exerts a powerful inhibitory effect over the T-helper 2 (Th2) response by antagonizing the effect of IL-4 on CD4(+) T cells and inhibiting the production of Th2-associated cytokines. Here, we asked whether Th2 cytokines exert reciprocal control over IFN-lambda production. IL-4 treatment during stimulation of human peripheral lymphocytes significantly elevated IFN-lambda1 transcription and secretion. However, pDCs were not directly responsive to IL-4. Using depletion and reconstitution experiments, we showed that IL-4-responsive monocytes are an intermediary cell, responding to IL-4 by elevating their secretion of IL-1 receptor antagonist (IL-Ra); this IL-1Ra acts on pDCs to elevate their IFN-lambda1 output. Thus, our experiments revealed a novel mechanism for regulation of both IFN-lambda1 production and pDC function, and suggests an expanded immunomodulatory role for Th2-associated cytokines.

Peripheral blood dendritic cells are phenotypically and functionally intact in chronic hepatitis B virus (HBV) infection

Persistence of hepatitis B virus (HBV) infection is associated with reduced anti-viral T cell responses. Impaired dendritic cell (DC) function was suggested as the cause of reduced T cell stimulation in chronic HBV carriers. Thus, we compared myeloid (mDC) and plasmacytoid DC (pDC) from chronic HBV carriers and controls. Frequency and phenotype of isolated DC were analysed by fluorescence activated cell sorter staining, DC function by mixed lymphocyte reaction, cytokine bead array, intracellular cytokine staining, enzyme-linked immunosorbent assay and enzyme-linked immunospot. Expression of HBV DNA and mRNA was studied by polymerase chain reaction (PCR). Circulating total DC, mDC or pDC were not reduced in chronic HBV carriers. Isolated mDC and pDC from chronic HBV carriers exhibited similar expression of co-stimulatory molecules and alloreactive T helper cell stimulation as control DC, whether tested directly ex vivo or after in vitro maturation. Secretion of pro- and anti-inflammatory cytokines by CD40 or Toll-like receptor ligand-stimulated patient DC was intact, as was human leucocyte antigen A2-restricted HBV-specific cytotoxic lymphocyte stimulation. Although both DC populations contained viral DNA, viral mRNA was undetectable by reverse transcription-PCR, arguing against viral replication in DC. We found no quantitative, phenotypic or functional impairment of mDC or pDC in chronic hepatitis B, whether studied ex vivo or after in vitro maturation.

Induction of CD69 expression and Th1 cytokines release from human peripheral blood lymphocytes after in vitro stimulation with Alloiococcus otitidis and three middle ear pathogens

Alloiococcus otitidis is a recently discovered pathogen of otitis media. However, only a limited number of studies are available about the pathogenic and immunological role of A. otitidis. The aim of this study was to investigate the activation and the cytokine production of human peripheral blood lymphocytes at the early immune response after stimulation with A. otitidis. After stimulation of whole human peripheral blood lymphocytes for 18 h with whole killed A. otitidis or the three major middle ear pathogens ( Streptococcus pneumoniae, Haemophilus influenzae and Moraxella catarrhalis), the expression of CD69 and the production of cytokines were analyzed. The expression of CD69 on T cells and B cells was dose-dependently enhanced after stimulation with A. otitidis. The release of interleukin (IL)-12 was induced after stimulation with A. otitidis, whereas the release of IL-4 was not induced after stimulation with A. otitidis. In addition, the release of interferon (IFN)-γ was induced after stimulation with A. otitidis. Although the release of IFN-γ started within 18 h after stimulation with A. otitidis, intracellular production of IFN-γ was not observed in either CD4 + T cells or CD8 + T cells within 18 h upon stimulation. The patterns of CD69 expression and T helper-type 1 (Th1)-promoting cytokines production were similarly shown when human peripheral blood lymphocytes were stimulated with the other three major pathogens. Our results suggest that A. otitidis has sufficient immunogenic potential to modulate a host immune response, like the other three major middle ear pathogens, and also suggest that the immunogenicity of A. otitidis is very similar, at the early immune response, to that of the three major middle ear pathogens.

In vitro affinity maturation of human IgM antibodies reactive with tumor-associated antigens.

Human lymphocytes secreting tumor cell-specific IgM antibodies were enriched in vitro following the stimulation of allogeneic human splenocytes from nontumor-bearing donors with cytostatic tumor cells or tumor cell plasma membrane fractions. The antibodies were generally of the IgM class and displayed low intrinsic affinity (K(d) > 100 nM). Nonetheless, the avidity arising from multivalent binding sites permitted the identification of multiple monoclonal antibodies (MAbs) displaying specificity for cultured tumor cells. Five antibodies were cloned from the B cells and two of these were expressed as human Fabs with IgG(1) constant regions. Although the avidity of the human IgM antibodies was sufficient to permit detection in the original screening, the monovalent Fabs displayed low binding activities, consistent with their low intrinsic affinity. Thus, in vitro affinity maturation was used to rapidly generate multiple variants of both antibodies displaying greater than 100-fold higher affinity. Two of the antibodies were characterized further and shown to have distinct specificities. One of the targets, LH11238, is associated both with the plasma membrane and with lysosomes and is rapidly internalized following incubation of the antibody with intact live cell monolayers. The second antigen, designated LH13, is a secreted antigen that has been enriched 200-fold from conditioned media and consists of two reactive bands at 42 and 45 kDa on denaturing Western blots. The stimulation and enrichment of human lymphocytes in culture coupled with rapid in vitro affinity maturation of low affinity antibodies potentially enables the discovery of human antibodies to a broader range of epitopes, including those that might be of greater therapeutic relevance.

In Vitro Effects of Albendazole and Its Metabolites on the Cell Proliferation Kinetics and Micronuclei Frequency of Stimulated Human Lymphocytes

Background Albendazole (ABZ) is an antiparasitic drug used for the treatment of several helminthiases. After its oral administration, this compound is metabolized to sulfoxide (SOABZ) and sulfone (SO 2ABZ), SOABZ being the active metabolite. The antiparasitic activity of ABZ has been associated with its capacity to bind with tubulin, altering microtubule formation. Although some studies indicate that ABZ modified microtubule structure in host cells, data concerning the consequences of this phenomenon in human cells are scant. Methods In this study we evaluated the effects of ABZ and its metabolites on cell proliferation, as well as on the frequency of micronucleated cells in cultured human lymphocytes. Results ABZ and SOABZ arrested cell proliferation in metaphase and increased the frequency of micronuclei in treated lymphocytes. Contrariwise, SO 2ABZ, the inactive metabolite, did not produce any significant effect. Conclusions The formation of micronuclei may ultimately result in aneuploidy induction, an effect that could have severe consequences in humans. However, the doses of ABZ and SOABZ at which these effects were observed are several orders of magnitude higher than those found in the plasma of treated individuals. Because there are other mechanisms by which aneuploidy can be induced at even lower doses than micronuclei, i.e., chromosome nondisjunction, it is necessary to evaluate this effect in exposed individuals.

Preferential stimulation of human lymphocytes by oligodeoxynucleotides that copy DNA CpG motifs present in virulent genes of group A streptococci.

Immunostimulatory oligodeoxynucleotides (ODN) containing CpG dinucleotides have been shown to stimulate murine and human lymphocytes. We investigated the presence of stimulatory DNA motifs in specific group A streptococcal (GAS) genes to elucidate the potential role of DNA in the immunopathogenesis of GAS infections. Despite low GC content in GAS DNA, the emm1 gene encoding the streptococcal M1 protein contained a relatively high frequency of TTCG(T/C), TCGTCG and (G/A)TCGT motifs that preferentially stimulated human lymphocytes. Interestingly, these motifs were also found in genes encoding M-like proteins of group C and G streptococci. ODN copying the emm1 gene sequences harboring these motifs induced the proliferation of human B cells and up-regulated the expression of CD25 on their surface. T cells were not required for the response to the ODN, indicating a direct effect of these motifs on B lymphocytes. Inter-individual variations in responsiveness to ODN were observed, suggesting that host factors potentiate these responses. The finding that GAS DNA contains stimulatory motifs that induce activation of human B cells in a T cell-independent manner suggests that this may be an important mechanism by which the bacteria can target the innate arm of the immune system in the early stages of invasive infections.

Different Protein Kinase C Isoenzymes Regulate IL-2 Receptor Expression or IL-2 Synthesis in Human Lymphocytes Stimulated via the TCR

Stimulation of purified human PBL with mAbs raised against the T cell receptor resulted in an immediate and transient activation of protein kinase C-alpha (PKC-alpha) and PKC-theta, peaking at 10 min, whereas PKC-beta, -delta, and -epsilon were translocated with a delay of >90 min and remained activated for up to 2 h. To characterize specific functions of distinct PKC isoenzymes, Abs against different PKC isoenzymes were introduced by means of electropermeabilization. Neutralization of PKC-alpha and -theta resulted in the complete inhibition of IL-2R expression, whereas anti-PKC-beta, -delta, and -epsilon Abs inhibited IL-2 synthesis. Extensive control experiments have shown that neither electropermeabilization nor control Ig influenced PKC activity and cellular functions. Our data thus clearly show that specific PKC isoenzymes regulate different cellular functions in stimulated human lymphocytes.

Effect of Cladribine, fludarabine, and 5-aza-deoxycytidine on S-adenosylmethionine (SAM) and nucleotides pools in stimulated human lymphocytes.

Cladribine (2-chloro-2′-deoxyadenosine, 2CdA) and Fludarabine (9-β-D-arabino-syl-2-fluoro-adenine) are 2-halogenated adenosine analogues which have found clinical application for the treatment of lymphocytic and lymphoid leukemias.1 Cladribine and Fludarabine result in apoptosis of cells2 and it has been established that the mechanisms of action of both drugs lead via their phosphorylated derivates to inhibition of DNA synthesis. Recently, we have reported the block of deoxyadenosine (dAdo) metabolism by Cladribine in lysates of CNS lymphoma cells3 and in lysates of human normal lymphocytes.4 A complete inhibition of phosphorylation of dAdo, and 60% of inhibition of adenosine deaminase (ADA) activity were observed in in vitro studies.KeywordsChronic Lymphocytic LeukemiaAdenosine DeaminaseLymphoid LeukemiaNucleotide PoolHeptanesulfonic AcidThese keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

Molecular cloning and characterization of ConBr, the lectin of Canavalia brasiliensis seeds.

ConBr, a lectin isolated from Canavalia brasiliensis seeds, shares with other legume plant lectins from the genus Canavalia (Diocleinae subtribe) primary carbohydrate recognition specificity for D-mannose and D-glucose. However, ConBr exerts different biological effects than concanavalin A, the lectin of Canavalia ensiformis seeds, regarding induction of rat paw edema, peritoneal macrophage spreading in mouse, and in vitro human lymphocyte stimulation. The primary structure of ConBr was established by cDNA cloning, amino acid sequencing, and mass spectrometry. The 237-amino-acid sequence of ConBr displays Ser/Thr heterogeneity at position 96, indicating the existence of two isoforms. The mature Canavalia brasiliensis lectin monomer consists of a mixture of predominantly full-length polypeptide (alpha-chain) and a small proportion of fragments 1-118 (beta-chain) and 119-237 (gamma-chain). Although ConBr isolectins and concanavalin A differ only in residues at positions 58, 70, and 96, ConBr monomers associate into dimers and tetramers in a different pH-dependent manner than those of concanavalin A. The occurrence of glycine at position 58 does not allow formation of the hydrogen bond that in the concanavalin A tetramer exists between Asp58 of subunit A and Ser62 of subunit C. The consequence is that the alpha carbons of the corresponding residues in ConBr are 1.5 A closer that in concanavalin A, and ConBr adopts a more open quaternary structure than concanavalin A. Our data support the hypothesis that substitution of amino acids located at the subunit interface of structurally related lectins of the same protein family can lead to different quaternary conformations that may account for their different biological activities.

T cell antigen receptor dependent signalling in human lymphocytes: cholera toxin inhibits interleukin-2 receptor expression but not interleukin-2 synthesis by preventing activation of a protein kinase C isotype, PKC- α

Activation and translocation of protein kinases C is a key event in the regulation of T lymphocyte activation, proliferation and function. Stimulation of human peripheral blood lymphocytes with the monoclonal antibody BMA 031 raised against the T cell antigen receptor led to a bimodal activation of protein kinases C. The immediate activation and translocation of the protein kinase C isoform PKC- α was followed by activation and translocation of the protein kinase C- β isoenzyme after 90 min of stimulation. Pretreatment of the cells with cholera toxin for 90 min completely abolished activation of protein kinase C- α. In sharp contrast, activation and translocation of protein kinase C- β was not influenced by the bacterial toxin, suggesting that activation and translocation of different protein kinase C isoenzymes are regulated by distinct mechanisms of transmembrane signalling coupled to the T cell antigen receptor/CD3 complex. The expression of high affinity IL-2 receptors was completely inhibited by cholera toxin, while IL-2 synthesis and secretion were not influenced in BMA 031-stimulated human lymphocytes. Extensive control experiments have shown that the effects of cholera toxin were not mediated by its B subunit, and were independent of elevation of intracellular cAMP concentration, suggesting that cholera toxin interfered with a signalling pathway leading to activation of protein kinase C- α, which could be responsible for the inhibition of IL-2 receptor expression. This hypothesis was substantiated by the finding that upon introduction of antibodies against protein kinase C- α, IL-2 receptor gene expression was completely suppressed. The results suggest, that protein kinase C- α might be the major protein kinase C isoenzyme of a signal transduction cascade regulating IL-2 receptor expression in stimulated human lymphocytes. © 1997 Elsevier Science B.V. All rights reserved.

Immunoreactivity of allergen (Bet v 1) conjugated to crystalline bacterial cell surface layers (S-layers)

Background: Crystalline cell surface layers (S-layers) from Gram-positive eubacteria had been demonstrated as carrier/adjuvants for chemically synthesized tumor-associated oligosaccharide haptens and capsular polysaccharide antigens of Streptococcus pneumoniae strains. Objectives: The applicability of S-layers as vaccine carrier for treatment of Type I allergy was investigated. Study design: Native or cross-linked S-layer self-assembly products and cell wall preparations from Bacillus sphaericus CCM 2177 and Thermoanaerobacter thermohydrosulfuricus L111-69 and L110-69 were used for immobilization of recombinant major birch pollen allergen Bet v 1. Results and conclusions: Depending on the carrier used, amounts of approximately 20–40 μg allergen per mg conjugate could be immobilized. By application of l-glutamic acid dimethyl ester as a spacer, this value could be increased approximately 10-fold. The functionality of the rBet v 1-conjugates was assessed in immunological systems. (i) The presence of intact B-cell epitopes was demonstrated in inhibition experiments using human Bet v 1-specific IgE. (ii) The rBet v 1 -S-layer conjugates were immunogenic in mice. (iii) The proliferation of rBet v 1-specific T-cell clones suggested that the peptides created by processing of immobilized Bet v 1 were similar to those derived from natural allergen. (iv) Stimulation of human allergen-specific TH2 lymphocytes with S-layer-conjugated Bet v 1 led to a modulation of the cytokine production pattern from TH2 to TH0TH1. This study indicates that S-layers may be suitable carriers for new immunotherapeutical vaccines for Type 1 hypersensitivity.

Effects of metronidazole and its metabolites on histamine immunosuppression activity

We have previously reported that metronidazole treatment increases human lymphocyte proliferation showing individual differences. This drug and its metabolites are imidazole compounds like histamine and cimetidine. The first is an endogenous amine that inhibits T-helper lymphocyte proliferation, and the second is a histamine antagonist. We presently report the in vitro effects of histamine, cimetidine, imidazole, metronidazole and its two principal metabolites (the acetic acid and hydroxy forms), on the mitogenic response to phytohemagglutinin (PHA) stimulation of human peripheral blood lymphocytes. Histamine decreased lymphocyte proliferation while (in order of potency) cimetidine, the hydroxy metabolite of metronidazole, imidazole and metronidazole, increased the mitogenic response to PHA in a dose-response fashion. The acetic acid metabolite lacked immunomodulatory effects. Competitive studies showed that cimetidine, metronidazole, and the hydroxy metabolite blocked the inhibitory effect of histamine on lymphocyte proliferation in a dose-related manner. This blockage was non-competitive, suggesting that the target of the imidazole compounds was not the active site of the H 2 receptor.

Stimulation of human peripheral blood lymphocytes by bioactive peptides derived from bovine milk proteins

The in vitro modulation of the proliferation of human peripheral blood lymphocytes of different synthetic peptides derived from milk proteins was investigated. Therefore, proliferation changes were followed up after incorporation of BrdU into the DNA, and the influence on protein biosynthesis was measured using the [ 3H]leucine incorporation test. Tyr-Gly and Tyr-Gly-Gly significantly enhanced (maximal 90 and 35%, respectively) the proliferation of PBL. For β-casomorphin-7 and β-casokinin-10, lymphocyte proliferation was suppressed at lower concentrations, but stimulated at higher concentrations (≥10 −7 mol/l). Protein synthesis was stimulated (maxima at 25%) only with Tyr-Gly and Tyr-Gly-Gly. The findings point to a need for further studies on the possible function of peptides derived from milk proteins as orally bioavailable immunopotentiatory compounds.