Apoptosis of human peripheral blood mononuclear cells by wild‐type measles virus infection is induced by interaction of hemagglutinin protein and cellular receptor,SLAM via caspase‐dependent pathway

Although MV infection causes lymphopenia and degradation of cell‐mediated immunity, the mechanisms are poorly known. MV interacts with cellular receptors which mediate virus binding and uptake and are on the surface of PBMC. In this study, apoptosis of MV‐infected PBMC in vitro was analyzed. Both PBMC treated with UV‐inactivated viruses and those infected with live MV underwent apoptosis. Apoptosis of wild‐type MV‐infected PBMC was blocked by anti‐SLAM and anti‐MV hemagglutinin antibodies, respectively. Furthermore, addition of soluble MV hemagglutinin recombinant protein induced apoptosis in PBMC. These data suggest that induction of apoptosis in MV‐infected PBMC is triggered by interaction between hemagglutinin protein of MV and receptor, without other viral components. To further determine the mechanisms of apoptosis, caspase activity was analyzed by Western blotting. Wild‐type virus Yonekawa strain‐induced apoptosis was blocked by pretreatment with pan‐caspase inhibitor (Z‐VAD‐fmk). Intriguingly, the laboratory‐adapted Nagahata strain‐induced apoptosis was not blocked by Z‐VAD‐fmk, indicating that there may be different apoptosis pathways which depend on the viral receptors, SLAM and CD46. Both extrinsic and intrinsic apoptotic pathways, including activation of caspase‐3, ‐8 and ‐9, are involved in Yonekawa strain‐induced apoptosis. Taken together, the findings of this study could open up a new avenue for understanding the molecular mechanisms of MV‐induced PBMC apoptosis and immunosuppression.     

Aminopeptidase P isozyme expression in human tissues and peripheral blood mononuclear cell fractions

Aminopeptidase P (APP) isoforms specifically remove the N-terminal amino acid from peptides that have a proline residue in the second position. The mRNA levels of three different isoforms, each coded by a different gene, were determined in 16 human tissues and in peripheral blood mononuclear cell (PBMC) fractions by RT-PCR. The cytosolic isoform, APP1, and the cell surface membrane-bound isoform, APP2, are expressed in all of the human tissues and PBMC fractions examined. The very high expression of APP2 mRNA in kidney compared to other tissues was confirmed by enzyme activity measurements. Among the PBMC fractions, APP2 expression is highest in resting CD8(+) T cells, but decreases in these cells following their activation with phytohemagglutinin; in contrast, expression of APP2 increases in CD4(+) T cells upon activation. The third isoform, APP3, is a hypothetical protein identified by nucleotide sequencing. A detailed analysis of its amino acid sequence confirmed that the protein is an aminopeptidase P-like enzyme with greater similarity to Escherichia coli APP than to either APP1 or APP2. Two splice variants of APP3 exist, one of which is predicted to have a mitochondrial localization (APP3m) while the other is cytosolic (APP3c). Both forms are variably expressed in all of the human tissues and PBMC fractions examined.     

Cytokines profile and peripheral blood mononuclear cells morphology in Rett and autistic patients

A potential role for immune dysfunction in autism spectrum disorders (ASD) has been well established. However, immunological features of Rett syndrome (RTT), a genetic neurodevelopmental disorder closely related to autism, have not been well addressed yet.By using multiplex Luminex technology, a panel of 27 cytokines and chemokines was evaluated in serum from 10 RTT patients with confirmed diagnosis of MECP2 mutation (typical RTT), 12 children affected by classic autistic disorder and 8 control subjects. The cytokine/chemokine gene expression was assessed by real time PCR on mRNA of isolated peripheral blood mononuclear cells (PBMCs). Moreover, ultrastructural analysis of PBMCs was performed using transmission electron microscopy (TEM).Significantly higher serum levels of interleukin-8 (IL-8), IL-9, IL-13 were detected in RTT compared to control subjects, and IL-15 shows a trend toward the upregulation in RTT. In addition, IL-1β and VEGF were the only down-regulated cytokines in autistic patients with respect to RTT. No difference in cytokine/chemokine profile between autistic and control groups was detected. These data were also confirmed by ELISA real time PCR. At the ultrastructural level, the most severe morphological abnormalities were observed in mitochondria of both RTT and autistic PBMCs.In conclusion, our study shows a deregulated cytokine/chemokine profile together with morphologically altered immune cells in RTT. Such abnormalities were not quite as evident in autistic subjects. These findings indicate a possible role of immune dysfunction in RTT making the clinical features of this pathology related also to the immunology aspects, suggesting, therefore, novel possible therapeutic interventions for this disorder.     

Development and validation of a quantitative method for thymidine phosphorylase activity in peripheral blood mononuclear cells

Abstract

The enzyme thymidine phosphorylase (TP) is important for activation of capecitabine and 5-fluorouracil. Assessment of TP phenotype might be suitable for identification of patients at risk of fluoropyrimidine-induced toxicity. In this paper, we describe the development and validation an assay for TP activity in peripheral blood mononuclear cells (PBMCs). The assay was based on ex vivo conversion of the TP substrate thymidine to thymine. The amount of thymine formed was determined by high-performance liquid chromatography – ultraviolet detection (HPLC-UV) with 5-bromouracil as internal standard. Lymphocytes and monocytes were purified from isolated PBMCs to examine cell-specific TP activity. TP activity in PBMCs demonstrated Michaelis-Menten kinetics. The lower limit of quantification was 2.3?µg PBMC protein and assay linearity was demonstrated up to 22.7?µg PBMC protein. Within-day and between-day precisions were ≤9.2% and ≤6.0%, respectively. Adequate stability TP activity was demonstrated after long-term storage of PBMC dry pellets and lysates at ?80?°C. In monocytes, TP activity was approximately 3 times higher than in lymphocytes. Clinical applicability was demonstrated in samples that were collected from five cancer patients. A simple, precise and sensitive HPLC-UV assay for quantification of TP activity in PBMCs was developed that can be applied for clinical research.     

Coculture of human articular chondrocytes with peripheral blood mononuclear cells as a model to study cytokine-mediated interactions between inflammatory cells and target cells in the rheumatoid joint

Summary A model for the coculture of chondrocytes in gelified agarose with mononuclear cells was developed to serve as an in vitro equivalent for cytokine-mediated events at the cartilage-synovial pannus junction in destructive arthropathies. Chondrocytes cultured in agarose keep their phenotypic stability. They release cartilage-specific aggrecans into the surrounding artificial matrix. When activated with lipopolysaccharide for 1 h, mononuclear cells release Interleukin 1β and Tumor Necrosis Factorα, thereby stimulating the chondrocytes to produce Interleukin 6, to diminish incorporation of³⁵S into aggrecans, and to degrade these intercellular macromolecules. This coculture model is a useful tool for studying interactions between inflammatory cells and target cells. To demonstrate its usefulness, the effect of three anti-inflammatory drugs (piroxicam, sulphasalazine, and hydrocortisone) on cytokine release by mononuclear cells, and subsequently on chondrocyte aggrecan metabolism was studied. The drugs were unable to abrogate Interleukin 1 and Tumor Necrosis Factorα release by activated mononuclear cells. Therefore, these pharmacological agents did not protect the artificial target tissue against cytokine-mediated degradation.     

Differential expression of interferon-gamma,IL-4 and IL-10 in peripheral blood mononuclear cells during early pregnancy of the bovine

Maternal systemic immune response is regulated by conceptus-derived signals through peripheral blood mononuclear cells (PBMCs) via blood circulation during early pregnancy in cattle. In this study, the PBMCs from day 18 in non-pregnant cows and days 14, 18 and 30 in pregnant cows were used to explore the expression of interferon-gamma (IFN-γ), interleukin 4 (IL-4) and IL-10, and the plasma progesterone (P4) concentration was also determined. The results showed that the expression levels of mRNA and the protein of IFN-γ were lower and that IL-4 and IL-10 were higher in the PBMCs from the pregnant cows than in those of non-pregnant cows. From this study, early pregnancy induced a lower Th1 immunity (IFN-γ) and a higher Th2 immunity (IL-4 and IL-10) in the PBMCs, which may be related to interferon-tau and P4, thereby contributing to successful pregnancy in cattle.     

Gene expression profiles in human peripheral blood mononuclear cells as biomarkers for nutritional in vitro and in vivo investigations

Identification of chemopreventive substances may be achieved by measuring biological endpoints in human cells in vitro. Since generally only tumour cells are available for such investigations, our aim was to test the applicability of peripheral blood mononuclear cells (PBMC) as an in vitro primary cell model since they mimic the human in vivo situation and are relatively easily available. Cell culture conditions were refined, and the basal variation of gene expression related to drug metabolism and stress response was determined. Results were compared with profiles of an established human colon cell line (HT29) as standard. For biomarker development of nutritional effects, PBMC and HT29 cells were treated with potentially chemopreventive substances (chrysin and butyrate), and gene expression was determined. Key results were that relevant stress response genes, such as glutathione S-transferase T2 (GSTT2) and GSTM2, were modulated by butyrate in PBMC as in HT29 cells, but the blood cells were less sensitive and responded with high individual differences. We conclude that these cells may serve as a surrogate tissue in dietary investigations and the identified differentially expressed genes have the potential to become marker genes for population studies on biological effects.     

Reaggregation of fetal rat brain cells in a stationary culture system I: Methodology and cell identification

Summary A stationary tissue culture system for reaggregation cultures of rat brain cells is described. Aggregates were formed by placing cells at high concentrations in liquid overlay cultures on a nonadherent nutrient agar surface. No physical stress in the form of rotation or shaking was applied to the aggregating cell population. Transmission electron microscopy and immunohistochemistry showed that the cells developed from homogeneously dispersed, immature cells in Day 4 aggregates, to mature astrocytes, oligodendrocytes, and neurons in Day 20 aggregates. Twenty days and older aggregates had a tightly packed neuropil which was most prominent in a cell-sparse outer layer of the aggregates. When the aggregates were allowed to adhere to a substrate, both glial fibrillary acidic protein (GFAP) positive and negative cells were observed migrating out from the aggregates. Cells giving a positive reaction for neuron specific enolase (NSE) were also present. This reaggregation procedure, with transfer of selected brain cell aggregates into agar-coated multiwells is an alternative three-dimensional culture system which can be potentially useful in the study of morphogenesis and cell interactions in the nervous system. This project was supported by the Norwegian Cancer Society.     

Evaluation of copper toxicity in isolated human peripheral blood mononuclear cells and it's attenuation by zinc: ex vivo

Copper and zinc act as a cofactor of over 300 mammalian proteins. Both have same electronic configuration therefore they are antagonist at higher individual concentration. The present study was designed with the aim to investigate the mechanisms pertaining to toxic effects of copper on human peripheral blood mononuclear cells (PBMCs) and to evaluate the cytoprotective effect of zinc on copper-induced cytotoxicity. The copper uptake into PBMCs was progressively increased with increasing concentration of metal in the growth medium. However, no significant effect on copper uptake was observed in the presence of zinc. Cell proliferation rate was decreased with increasing copper concentration. Interestingly, the proliferation rate of zinc treated PBMCs remained nearly the same as that of control cells. LD₅₀ of copper (115 μM) was increased six times (710 μM) in presence of zinc for PBMCs. At higher concentrations of copper (> 100 μM) decrease level of GSH was noticed. Increased levels of metallothionein in PBMCs were observed in response to zinc. DNA fragmentation studies also showed that copper produced DNA fragmentation at LD₅₀ (115 μM). Subsequently, zinc showed protection against DNA fragmentation caused by copper. Cell structure of PBMCs at LD₅₀ (115 μM copper) showed membrane bound cystic spaces and mitochondria having disrupted cristae and few myelin figures. In presence of zinc at LD₅₀ of copper (115 μM) cells showed improvement in mitochondrial structure and membrane bound cystic spaces. Taken together, the results of our study demonstrates that zinc play an important role in prevention of copper toxicity in peripheral blood mononuclear cells.     

Age-related changes of beta-endorphin and cholecystokinin in human and rat mononuclear cells

Beta-endorphin (BE) and cholecystokinin (CCK) were measured in fresh PBMC isolated from human subjects and rats. The BE and CCK PBMC contents increased significantly with age both in human and rat models. Moreover, polyclonal stimulation induced a significant decrease of BE but not CCK contents in mononuclear cells from human aged subjects. The time course of changes in BE and CCK concentrations observed in fresh and cultured cells from subjects of different ages did not directly correlate to the time course of age-associated impairment of lectin-induced lymphocyte proliferative response and interleukin-2 synthesis. In fact, the lymphocyte functional defects were significantly observed only in the 71–99 year age group, whereas the neuropeptide changes were already evident in the 31–50 age group. Since BE has been shown to participate in the modulation of the immune system, the age-related modifications of PBMC BE could play a role in the immunodepression observed during aging.     

Adult peripheral blood mononuclear cells transdifferentiate in vitro and integrate into the retina in vivo

Adult peripheral blood-derived cells are able to differentiate into a variety of cell types, including nerve cells, liver-like cells and epithelial cells. However, their differentiation into retina-like cells is controversial. In the present study, transdifferentiation potential of human adult peripheral blood mononuclear cells into retina-like cells and integration into the retina of mice were investigated. Freshly isolated adult peripheral blood mononuclear cells were divided into two groups: cells in group I were cultured in neural stem cell medium, and cells in group II were exposed to conditioned medium from rat retinal tissue culture. After 5 days, several distinct cell morphologies were observed, including standard mononuclear, neurons with one or two axons and elongated glial-like cells. Immunohistochemical analysis of neural stem cell, neuron and retina cell markers demonstrated that cells in both groups were nestin-, MAP2 (microtubule-associated protein)- and GFAP (glial fibrillary acidic protein)-positive. Flow cytometry results suggested a significant increase in nestin-, MAP2- and CD16-positive cells in group I and nestin-, GFAP-, MAP2-, vimentin- and rhodopsin-positive cells in group II. To determine survival, migration and integration in vivo, cell suspensions (containing group I or group II cells) were injected into the vitreous or the peritoneum. Tissue specimens were obtained and immunostained 4 weeks after transplantation. We found that cells delivered by intravitreal injection integrated into the retina. Labelled cells were not detected in the retina of mice receiving differentiated cells by intraperitoneal injection, but cells (groups I and II) were detected in the liver and spleen. Our findings revealed that human adult peripheral blood mononuclear cells could be induced to transdifferentiate into neural precursor cells and retinal progenitor cells in vitro, and the differentiated peripheral blood mononuclear cells can migrate and integrate into the retina in vivo.     

Blood glutathione redox status and global methylation of peripheral blood mononuclear cell DNA in Bangladeshi adults

Oxidative stress and DNA methylation are metabolically linked through the relationship between one-carbon metabolism and the transsulfuration pathway, but possible modulating effects of oxidative stress on DNA methylation have not been extensively studied in humans. Enzymes involved in DNA methylation, including DNA methyltransferases and histone deacetylases, may show altered activity under oxidized cellular conditions. Additionally, in vitro studies suggest that glutathione (GSH) depletion leads to global DNA hypomethylation, possibly through the depletion of S-adenosylmethionine (SAM). We tested the hypothesis that a more oxidized blood GSH redox status is associated with decreased global peripheral blood mononuclear cell (PBMC) DNA methylation in a sample of Bangladeshi adults. Global PBMC DNA methylation and whole blood GSH, glutathione disulfide (GSSG), and SAM concentrations were measured in 320 adults. DNA methylation was measured by using the [³H]-methyl incorporation assay; values are inversely related to global DNA methylation. Whole blood GSH redox status (E_h) was calculated using the Nernst equation. We found that a more oxidized blood GSH E_h was associated with decreased global DNA methylation (B ± SE, 271 ± 103, p = 0.009). Blood SAM and blood GSH were associated with global DNA methylation, but these relationships did not achieve statistical significance. Our findings support the hypothesis that a more oxidized blood GSH redox status is associated with decreased global methylation of PBMC DNA. Furthermore, blood SAM does not appear to mediate this association. Future research should explore mechanisms through which cellular redox might influence global DNA methylation.     

Recovery and functionality of cryopreserved peripheral blood mononuclear cells using five different xeno-free cryoprotective solutions

In this study, we compared three commercially available and two widely used CPAs for their ability of cryopreserving PBMCs. Similar survival (81.0%) and recovery rate (73.7%) were observed among cells using these five CPAs. However, all the cryopreserved PBMCs exhibited a significantly lower survival rate when compared with the fresh samples (94.3%). We further evaluated effector cell subpopulation and tumoricidal activity of PBMC-derived cytokine-induced killing (CIK) cells and natural killing (NK) cells. Similar and high survival (CIK: 88.6%; NK: 87.5%) and recovery (CIK: 99.5%; NK: 99.7%) rates were detected in CIK and NK cells prepared from cryopreserved PBMCs using the five CPAs. The CD3⁺CD56⁺ effector percentage (27.3%) of cryopreserved PBMC-derived CIK cells using the five different CPAs and their tumoricidal activities on melanoma CHL-1 cells (45.7%) and bladder cancer cell line T-24 (44.7%) were similar but significantly lower than those of the fresh PBMC-derived controls (effector: 30.7%; CHL-1: 84.2%; T-24: 82.2%). Cryopreserved PBMC-derived NK cells also exhibited similar tumoricidal activities (CHL-1: 73.8%; T-24: 71.9%) but was significantly lower than that of the fresh control group. We were not able to identify a specific CPA that performed superior than others in PBMC cryopreservation.     

聚肌胞免疫刺激下仔猪外周血单核细胞的基因表达分析

聚肌胞(Poly I:C)是一种天然双链RNA(Double strand RNA, dsRNA)的拟似物,能够模拟病毒感染后所形成的dsRNA及刺激机体产生抗病毒免疫反应。文章以抗病力存在差异的大蒲莲和长白仔猪为研究对象,分离外周血单核细胞(Peripheral blood mononuclear cell, PBMC),在20 μg/mL的Poly I:C的免疫刺激下体外培养24 h,对影响免疫应答过程中的7个细胞因子(IRF3、IL6、IL8、IL10、TNFα、IFNγ和IFNα)和3个模式识别受体(TLR3、TLR4和RIG1)利用实时荧光定量PCR检测Poly I:C免疫刺激组相对于对照组的基因表达变化倍数。结果表明：检测的大部分细胞因子和受体(6个)表达量变化倍数很大,其中3种白细胞介素IL6、IL8和IL10免疫刺激变化倍数最大,平均变化倍数分别为20.71、10.87和5.18倍。对不同个体和品种间的比较发现,不仅大蒲莲和长白两品种间(大蒲莲猪的变化倍数平均高于长白猪)而且同品种的3头全同胞仔猪间对Poly I:C免疫刺激的应答也存在较大的变化。文章利用Poly I:C体外模拟dsRNA对PBMC的感染,为下一步筛选仔猪对Poly I:C刺激的免疫应答基因及鉴定大蒲莲猪特殊的抗性基因奠定了基础。     

The role of Card9 overexpression in peripheral blood mononuclear cells from patients with aseptic acute pancreatitis

Activated mononuclear cells are an early event in the course of severe acute pancreatitis (SAP). To date, the molecular mechanism triggering peripheral blood mononuclear cells (PBMCs) is poorly understood. The aim of this paper was to determine the potential role of Card9 in SAP. We collected data from 72 subjects between January 2013 and June 2014. Subsequently, PBMCs were isolated on day 1, 3 and 5 of pancreatitis. Immunofluorescence staining, quantitative real‐time PCR, Western blotting, immunoprecipitation and ELISA were used to determine the role of Card9 in SAP. Microbial culture showed that SAP patients at the early period did not develop any bacteria and fungi infection. Card9 expression in SAP patients was higher than that in mild acute pancreatitis and volunteer healthy controls, up to the peak on day 1. The monocyte‐derived cytokines interleukin (IL)‐17, IL‐1β, IL‐6 and tumour necrosis factor‐α mediated by the induction of Card9 markedly increased in SAP patients compared with the control group. Furthermore, the inducible formation of Card9‐Bcl10 complex was found in PBMCs, which may be involved in nuclear factor kappa B (NF‐κB) and p38 activation in SAP. Receiver operating characteristic curve indicated that Card9 levels had a high sensitivity of 87.5% and specificity of 67.7%, showing the close correlation with SAP patients. Card9 overexpression was firstly found in aseptic SAP, which may be played an important role in NF‐κB and p38 activation in PBMCs. It also provided the new insights into therapeutic interventions by targeting monocytes activation in SAP patients.     

The human peripheral blood mononuclear cell proteome responds to a dietary flaxseed-intervention and proteins identified suggest a protective effect in atherosclerosis

Flaxseed is one of the richest sources of lignans that are converted to enterolactone by the intestinal microflora. Enterolactone has been suggested to be the prime active compound mediating atherosclerosis-protective effects that were shown for flaxseed. The effects of a 1-wk intervention with 0.4 g of flaxseed/kg body weight per day on enterolactone plasma levels in seven healthy men revealed that all participants (PAs) responded with enhanced enterolactone plasma levels. Proteome analysis of peripheral blood mononuclear cells (PBMC) from donors before, during, and after the intervention showed that flaxseed consumption affected significantly the steady-state levels of 16 proteins of which four were altered in a similar manner when blood mononuclear cells were exposed ex vivo to enterolactone. Enhanced levels of peroxiredoxin and reduced levels of the long-chain fatty acid beta-oxidation multienzyme complex may be taken as indicators of a reduced oxidative stress whereas reduced levels of glycoprotein IIIa/II could indicate improved protection from thrombotic and inflammatory processes. In conclusion, the blood mononuclear cell proteome responds to dietary flaxseed intake with changes in a number of atherosclerosis-relevant proteins that may be taken as biomarkers of exposure and some of these changes observed can be attributed to the action of the lignan metabolite enterolactone.     

不同诱导因子对人外周血单个核细胞P2X7受体表达的作用

ATP激活P2X7受体可产生一系列的白细胞功能反应,因此P2X7受体的表达调控引起我们的兴趣。然而P2X7受体在正常人外周血单个核细胞(peripheral blood mononuclear cells,PBMC)、单核细胞中的表达调控机制尚未阐明。本文用半定量RT-PCR方法检测多种细胞因子、细菌抗原、丝裂原对P2X7受体表达的诱导作用,探索P2X7受体的诱导表达模式。结果表明,单个核细胞和单核细胞可检出P2X7受体的表达;白细胞介素2、4、6(interleukin-2、-4、-6,IL-2、IL-4、IL-6)、肿瘤坏死因子仪(tumour necrosis factor-α,TNF-α)等细胞因子和金黄色葡萄球菌CowanⅠ株(Staphylococcus aureus Cowan strainⅠ,SAC)、脂多糖(lipopolysaccharide,LPS)能上调PBMC的P2X7受体表达,而γ干扰素(interferon-γ,IFN-γ)、粒-巨噬细胞集落刺激因子(granulocyte-macrophage colony-stimulating factor,GM-CSF)、巨噬细胞集落刺激因子(macmphage colony-stimulating factor,M-CSF)和植物血凝素(phytohemagglutinin-M,PHA-M)等则没有作用;LPS和M-CSF可以提高单核细胞的P2X7受体表达,IFN-γ、TNF-α、GM-CSF作用较弱,但是这些因子的预处理并不能增强LPS对P2X7受体表达的诱导。炎症因子促进P2X7受体的表达,提示P2X7受体可能在对抗细菌感染的免疫反应中起一定作用,这有待于进一步研究。