Spontaneous DNA repair in human peripheral blood mononuclear cells

DNA molecules are constantly damaged during mitosis and by oxygen-free radicals produced by either cellular metabolism or by external factors. Populations at risk include patients with cancer-prone disease, patients under enhanced oxidative stress, and those treated with immunosuppressive/cytotoxic therapy. The DNA repair process is crucial in maintaining the genomal DNA integrity. The aim of this study was to evaluate spontaneous DNA repair capacity of peripheral blood mononuclear cells (PBMC) from normal blood donors. PBMC DNA repair ability represents DNA repair by other tissues as well. It is shown in the present study that in vitro incorporation of [3H]thymidine in non-stimulated PBMC expresses the ability of the cells to repair DNA damage. This method was validated by double-stranded DNA measurements. Both catalase and Fe2+ increased DNA repair, the former by preventing re-breakage of newly repaired DNA and the latter by introducing additional DNA damage, which enhanced DNA repair. Better understanding of DNA repair processes will enable to minimize DNA damage induced by oxidative stress.     

Cholesterol modulates P-glycoprotein activity in human peripheral blood mononuclear cells

P-glycoprotein (P-gp) is expressed in a wide range of cell types including peripheral blood mononuclear cells (PBMCs) where it may restrict intracellular accumulation of substrates like antineoplastic agents, HIV protease inhibitors, or rhodamine123. P-gp is known to be located in membrane microdomains, whose structure and function are susceptible to cholesterol alterations. This study evaluated the effect of cholesterol alteration in human PBMCs on P-gp activity. Whereas cholesterol depletion had no effect, cholesterol repletion of depleted cells significantly decreased intracellular rhodamine123 concentrations in lymphocytes to 32.2%+/-2.7 (p<0.001) and to 41.9%+/-3.5 (p<0.001) in monocytes. After cholesterol saturation of native cells intracellular rhodamine123 fluorescence decreased to 12.4%+/-1.6 (p<0.001) in lymphocytes and 12.9%+/-3.5 (p<0.001) in monocytes. These data demonstrate that elevated cellular cholesterol levels can markedly increase P-gp activity in human PBMCs.     

Non-specifically activated human peripheral blood mononuclear cells are cytotoxic for human keratinocytes in vitro

Cultured human keratinocytes were lysed by activated PBMC in a 4-h 51Cr release assay. PBMC were activated by incubation with 50 U/ml of rIL-2 for 4 days. The cytotoxic precursors were found to be NKH1+ and included both CD2+ and CD2- phenotypes. This cytotoxicity was not genetically restricted, as cells killed both allogeneic and autologous keratinocytes without priming. Cytotoxicity was blocked by pre-incubation of effector cells with mAb against LFA-1 alpha-(TS1/22) and beta-chains (TS1/18), but not by antibodies directed against CD4, CD8, or leukocyte common Ag (T200) suggesting that LFA-1 is an important interactive molecule in this cytotoxicity. IFN-gamma is reported to upregulate ICAM-1, the ligand for LFA-1. Pre-treatment of target keratinocytes with IFN-gamma was also found to greatly increase the sensitivity of keratinocytes to lysis. This increased sensitivity to lysis was blocked by anti-LFA-1 and anti-ICAM-1, but not by anti-DR (L243), and thus was not the result of increased DR expression. Such treated targets were lysed at low levels (15 to 18%) by an Ag-specific CD8+ cytotoxic clone as well as a T cell line derived from a skin lesion of allergic contact dermatitis. In contrast, control keratinocytes were only sensitive to IL-2-activated PBMC as described above. The above findings may be relevant to a variety of conditions in which epidermal damage is associated with lymphocytic infiltrate. These conditions include graft-vs-host disease, erythema multiforme, and lupus erythematosus. DR+ keratinocytes, which may be a marker for IFN-gamma are also found in the above conditions. It is suggested that epidermal pathology may be mediated by non-specific cytotoxicity induced in the course of an immune response.     

The efflux of biotin from human peripheral blood mononuclear cells

Peripheral blood mononuclear cells (PMBCs) are readily available for sampling and are a useful model for studying biotin metabolism in human cells. To better understand biotin handling by PMBCs, we investigated the mechanism(s) and kinetics of biotin efflux from PMBCs. Human PMBCs were incubated with [(3)H]biotin at 475 pmol/L to load the cells. The [(3)H]biotin-loaded cells were then harvested and incubated in [(3)H]biotin-free media for up to 20 hours. At various intervals, aliquots of the PMBC suspensions were collected and analyzed for intracellular [(3)H]biotin. [(3)H]Biotin efflux from cells at 37 degrees C was fast and triphasic; the half-lives for the three elimination phases were 0.2 +/- 0.02 hours, 1.2 +/- 0.1 hours, and 21.9 +/- 13.6 hours. Such a triphasic [(3)H]biotin efflux could reflect (1) rapid efflux of free biotin, (2) slower release of biotin bound to intracellular molecules, and (3) even slower release from carboxylases in cellular organelles. Incubation at 4 degrees C rather than 37 degrees C increased the [(3)H]biotin retained at 20 hours from 27% to 85%. This observation is consistent with transporter-mediated efflux. When cellular glucose utilization was reduced by 2-deoxy-d-glucose and sodium fluoride, [(3)H]biotin efflux was similar to controls, suggesting that biotin efflux does not directly require metabolic energy. When [(3)H]biotin-loaded cells were incubated in external medium containing unlabeled biotin analogs, [(3)H]biotin efflux was accelerated approximately two times compared with incubation in a biotin-free medium. This observation suggests that biotin efflux is mediated by the same transporter that mediates biotin uptake from the extracellular medium (i.e., classic countertransport).     

Immunomodulatory effects of bovine colostrum in human peripheral blood mononuclear cells

Human and bovine colostrum (BC) contain a remarkable amount of bioactive substances, including antibodies towards many common pathogens of the intestinal and respiratory tract as well as growth factors, vitamins, cytokines and other proteic, lipidic and glucidic factors. In this study we investigated whether BC had any immunomodulatory effect on human peripheral blood mononuclear cells (PBMC) from healthy donors. To this aim we focused on the production of IL-12 and IFN-gamma, cytokines involved in the Th1 polarization required for a successful immune response towards intracellular pathogens, such as bacteria and viruses. BC induced a dose-dependent production of IL-12 by CD14+ monocytes, but was unable to induce IFN-gamma production. However, BC differentially affected stimuli-induced IFN-gamma production: it enhanced IFN-gamma in response to weak antigenic stimulation and it inhibited IFN-gamma in response to strong antigenic stimulation. These effects were not dose-dependent. We also measured PBMC proliferation, which was substantially unaffected by BC. Our data suggest that the Th1-promoting activity of BC could contribute, together with the antibodies, to the protective effect of BC on the offspring. BC could also represent an inexpensive therapeutic tool in prevention and treatment of several human microbial infections, including influenza.     

Piperine inhibits cytokine production by human peripheral blood mononuclear cells

Piperine, an amide isolated from Piper species (Piperaceae), has been reported to exhibit central nervous system depression, anti-pyretic and anti-inflammatory activity. Immunomodulatory and anti-tumor activity of piperine has been demonstrated in mouse carcinomas. However, there is little information available concerning the effect of piperine on humans. We evaluated the immunopharmacological activity of this compound in human immune cells. Human peripheral blood mononuclear cells (PBMCs) were exposed to piperine, and cell proliferation was determined by the MTS assay. Piperine significantly inhibited phytohemagglutinin-stimulated human PBMC proliferation after exposure for 72 h. This compound inhibited PBMC activity, with an IC(50) of 100.73 ± 11.16 μg/mL. Production of interleukin-2 (IL-2) and interferon-γ (IFN-γ) was measured using an ELISA assay and RT-PCR. Piperine inhibited IL-2 and IFN-γ production in the PBMCs. RT-PCR data indicated that IL-2 and IFN-γ mRNA expression in PBMCs is suppressed by piperine. This compound significantly inhibited the production of these two cytokines by activated PBMCs in a dose-dependent manner. In conclusion, piperine appears to have potential as an immunomodulatory agent for immune system suppression.     

Transcriptional profiling of Francisella tularensis infected peripheral blood mononuclear cells: a predictive tool for tularemia

In this study, we analyzed temporal gene expression patterns in human peripheral blood mononuclear cells (PBMCs) infected with the Francisella tularensis live vaccine strain from 1 to 24 h utilizing a whole human Affymetrix gene chip. We found that a considerable number of induced genes had similar expression patterns and functions as reported previously for gene expression profiling in patients with ulceroglandular tularemia. Among the six uniquely regulated genes reported for tularemia patients as being part of the alarm signal gene cluster, five, namely caspase 1, PSME2, TAP-1, GBP1, and GCH1, were induced in vitro. We also detected four out of the seven potential biomarkers reported in tularemia patients, namely TNFAIP6 at 4 h and STAT1, TNFSF10, and SECTM1 at 16 and 24 h. These observations underscore the value of using microarray expression profiling as an in vitro tool to identify potential biomarkers for human infection and disease. Our results indicate the potential involvement of several host pathways/processes in Francisella infection, notably those involved in calcium, zinc ion binding, PPAR signaling, and lipid metabolism, which further refines the current knowledge of F. tularensis infection and its effects on the human host. Ultimately, this study provides support for utilizing in vitro microarray gene expression profiling in human PBMCs to identify biomarkers of infection and predict in vivo immune responses to infectious agents.     

Lactic acid stimulates interleukin-23 production by peripheral blood mononuclear cells exposed to bacterial lipopolysaccharide

Lactic acid is the predominant acid present in the vagina. We evaluated the consequences of lactic acid, at physiological levels present in the vagina, on cytokine responses of peripheral blood mononuclear cells (PBMCs) obtained from 10 individuals in the presence or absence of bacterial lipopolysaccharide. Preincubation of PBMCs in 15 mM lactic acid before the addition of lipopolysaccharide resulted in a 246% mean increase in interleukin-23 (IL-23) secretion over that released in the presence of lipopolysaccharide alone (P=0.0068). The lipopolysaccharide-induced production of tumor necrosis factor-α, IL-6, IL-10 and IL-12 was unaffected by lactic acid. IL-23 stimulation was not observed if the lactic acid was neutralized before its addition to the culture medium or if hydrochloric acid was substituted for lactic acid. In the absence of lipopolysaccharide, lactic acid did not stimulate the production of IL-23 or any of the other cytokines. The increase in IL-23 production was proportional to the lactic acid concentration over a 15-60 mM range. We conclude that at body sites characterized by lactic acid accumulation, such as in the human vagina, exposure to gram-negative bacteria results in selective IL-23 production, leading to a subsequent preferential stimulation of the Th17 T lymphocyte pathway.     

Taurine chloramine modulates cytokine production by human peripheral blood mononuclear cells

Summary.  The effect of taurine (Tau) and taurine chloramine (Tau-Cl) on the production of TNF-α, IL-1β, and IL-6 by peripheral blood mononuclear cells of healthy volunteers was examined. Cells were stimulated with bacterial lipopolysaccharide (LPS) in the presence of either Tau or Tau-Cl. After 24 h culture the cytokine concentrations were measured in both culture supernatants (secreted) and cell lysates (cell-associated) using ELISA. In LPS-stimulated cells Tau-Cl inhibited both the secreted and cell-associated IL-1β and IL-6, while exerted dual effect on TNF-α production: raising it slightly at low and reducing at higher concentration. By contrast, Tau had no significant effect on the cytokine production. These results indicate that Tau-Cl modulates synthesis of pro-inflammatory cytokines, and therefore it may play a role in the initiation and propagation of immune response. Received November 29, 2001 Accepted January 18, 2002 Published online August 30, 2002 Acknowledgments This research was supported by grants from the State Committee for Scientific Research of Poland (No 4 P05B 01018) and the Institute of Rheumatology (No I/14). The Institute of Rheumatology is supported by a core grant from the State Committee for Scientific Research of Poland. Authors' address: Ewa Kontny, Ph.D., Department of Pathophysiology and Immunology, Institute of Rheumatology, Spartanska 1, 02-637 Warsaw, Poland, E-mail: zpatiir@warman.com.pl Abbreviations: Tau, taurine; Tau-Cl, taurine chloramine; LPS, lipopolysaccharide; TNF-α, tumor necrosis factor-α; IL-1β, interleukin 1β; IL-6, interleukin 6; PBMC, peripheral blood mononuclear cells     

Induction of large granular lymphocyte morphology in human peripheral blood mononuclear cells

The transformation of human agranular blood lymphocytes into large granular lymphocytes (LGL) was studied. On the average, 2.8% of peripheral blood lymphocytes differentiate in less than 24 hr into LGL when cultured with autologous plastic-adherent monocytes and the Burkitt's lymphoma cell line Raji. The LGL precursors were intermediate-density lymphoid cells that were heterogenous for T3, T8, and Leu-7 antigens, negative for T4 and Leu-11, and positive for NK-9. During the transformation, frequency of Leu-11-positive cells increased and the cytotoxic activity was augmented. In single cell cytotoxicity experiments, the number of binding cells increased, whereas the number of killer cells among the binding cells remained unaltered. The transformation inducing factor was detectable in coculture supernatants of Raji and monocytes or Raji and the myeloid cell line ML-2. Analyses of the Raji-ML-2 coculture supernatants with reverse phase and gel filtration high-pressure liquid chromatography indicated that the factor is a heat- and trypsin-sensitive hydrophilic molecule with an apparent m.w. of 1000.     

Spontaneous inflammatory cytokine gene expression in normal human peripheral blood mononuclear cells

Cytokines regulate cellular immune activity and are produced by a variety of cells, especially lymphocytes, monocytes, and macrophages. Measurement of cytokine levels has yielded useful information on the pathological process of different diseases such as AIDS, endotoxic shock, sepsis, asthma, and cancer. It may also be of use in the monitoring of disease progression and/or inflammation. To determine spontaneous cytokine gene expression in whole blood and PBMCs, whole blood was obtained from healthy volunteers and total mRNA was isolated from PBMCs. The kinetics of response were determined by sequential testing of cytokine gene expression by RT-PCR analysis. Our results demonstrated that isolated and incubated PBMCs expressed TNF-alpha and high levels of IL-1beta, IL-6, IL-8, and IL-10. In contrast, WB only expressed the mRNA cytokines of TNF-alpha and IL-8 (p < 0.05). These results suggest that spontaneous myriad mRNA cytokine expression can be avoided with the use of WB incubation and the rapid collection of PBMCs. Furthermore, this method should be employed in all cases where the levels of cytokine gene expression can be evaluated.     

Induction of cytokines in human peripheral blood mononuclear cells by mycoplasmas.

Various species of mycoplasmas were tested for their ability to induce cytokine production in human peripheral blood mononuclear cells (PBMC). Human PBMC were incubated with Mycoplasma pneumoniae, M. hyorhinis, M. arginini, M. salivarium, M. orale, M. gallisepticum or A. laidlawii for 48 hr, and the activities of interleukin-1 beta (IL-1 beta), IL-2, IL-4, IL-6, tumor necrosis factor-alpha (TNF-alpha) and interferon (IFN) in the supernatants were determined by ELISA or bioassay. All mycoplasma species induced IL-1 beta, IL-6 and TNF-alpha, although IL-2 was induced only by M. pneumoniae. IFN was induced by 5 of the 7 species, and the IFN produced was antigenically confirmed to be mainly IFN-alpha. On the other hand, mycoplasma-stimulated cultures did not contain detectable amounts of IFN-beta and IL-4 activities. Furthermore, the cytokines were induced by mycoplasmal contaminating cells in human PBMC as well as by mycoplasma alone. These results suggest that many kinds of cytokines induced by mycoplasma contamination in cell culture affect immunological experiments in vitro.     

Kinetics of selenite uptake by mononuclear cells from peripheral human blood

The present study deals with the kinetics and thermodynamics of the uptake of⁷⁵Se-labeled SeO ₃ ^2? from incubation media to lymphocytes cultivated from eight normal individuals (14–55 years of age, two females). The uptake of SeO ₃ ^2? was evaluated on the assumption of pseudo-first-order kinetics with regard to a reacting cellular receptor pool. On the basis of the experimental observations, it was assumed that the suggested pool of receptor molecules-symbolically represented by “£H₄”—reacts with SeO ₃ ^2? in the hypothetical reaction: $$\pounds H_4 + SeO_3^{2 - } + 2H^ + \underset{{ - k_1 }}{\overset{{k_1 }}{\longleftrightarrow}}\pounds Se + 3H_2 O$$ The mean value of the change in standard free energy at 25°C was calculated to be ΔG ^o=?141.6±1.3 kJ/mol, while the corresponding mean value of the free energy of activation at 25°C was calculated to be ΔG ²⁺=?7.8±0.9 kJ/mol for the forward reaction. The calculated values of the corresponding individual changes in the respective standard enthalpies and entropies were mutually interdependent for all eight donors. ΔH ^o=?152+315ΔS ^o(kJ/mol) corresponding to the common value ΔG ^o??152 kJ/mol at 315°K. These mutual interdependencies are possibly the effect of variable conformational states (e.g., the macromolecular compactness) of the cellular receptor pools. This suggestion may furthermore be supported by the correlation traced between ΔH ^o vs the biological age in years of the donors: △H ^°?76.7?1.0 (age)kJ/mol (r = ?0.92) The calculated values of activation enthalpy ΔH ²⁺ kJ/mol and activation entropy ΔS ²⁺ (kJ/mol K) also mutually correlated linearly (r=0.998); the regression line was: △H ²⁺ = ?8.9 + 305△S²⁺ (kJ/mol) corresponding to the common value △H ²⁺ △ ?8.9 (kJ/mol) at 305°K Similarly the activation enthalpy ΔH ²⁺ vs the biological age in years correlated linearly: ΔH ²⁺=67.4?0.73(age) (kJ/mol) (r=?0.76) The range of ΔH ²⁺ studied was from 13.8 to 53.9 kJ/mol with a linearly corresponding range in ΔS ²⁺ from 73 to 205 J/mol K. The thermodynamic data reveal the selenite uptake during the hypothetical standard reaction to be exergonic and endothermic. Critical pH dependencies of the selenite uptake were explained.     

Substance P enhances interferon-gamma production by human peripheral blood mononuclear cells

Substance P (SP), a neuropeptide widely distributed in the organism, has been shown to stimulate lymphocyte proliferation and immunoglobulin synthesis. However, the effect of SP on specific lymphokines is unknown. Therefore we investigated the influence of SP on mitogen-induced interferon-gamma (IFN-gamma) production in vitro. Peripheral blood mononuclear cells (PBMC) of healthy donors were isolated by density gradient centrifugation and cultured in supplemented RPMI 1640 medium with phytohemagglutinin (PHA) or pokeweed mitogen (PWM), 0.125 and 0.25 mg/liter each, and varying concentrations of SP (10(-12) to 10(-6) M). After 24 and 48 h, IFN-gamma was measured in the supernatant using radioimmunoassay. Results were expressed as percent change of controls. SP alone had no relevant IFN-gamma inducing properties. It enhanced the IFN-gamma production of PWM-stimulated cells significantly up to 18%. The maximal effect was observed at 10(-8) M. PHA-stimulated cells also increased their IFN-gamma production after addition of SP. However, due to great interindividual variations this effect did not attain statistical significance. Stimulation of IFN-gamma production by SP might be of physiological importance, since the effect was seen at concentrations comparable to those found in the body. Our data lend further support to the immunoregulatory functions of SP.