Dissociation of hemopoietic chimerism and allograft tolerance after allogeneic bone marrow transplantation.

Creation of stable hemopoietic chimerism has been considered to be a prerequisite for allograft tolerance after bone marrow transplantation (BMT). In this study, we demonstrated that allogeneic BMT with bone marrow cells (BMC) prepared from either knockout mice deficient in both CD4 and CD8 T cells or CD3E-transgenic mice lacking both T cells and NK cells maintained a high degree of chimerism, but failed to induce tolerance to donor-specific wild-type skin grafts. Lymphocytes from mice reconstituted with T cell-deficient BMC proliferated when they were injected into irradiated donor strain mice, whereas lymphocytes from mice reconstituted with wild-type BMC were unresponsive to donor alloantigens. Donor-specific allograft tolerance was restored when donor-type T cells were adoptively transferred to recipient mice given T cell-deficient BMC. These results show that donor T cell engraftment is required for induction of allograft tolerance, but not for creation of continuous hemopoietic chimerism after allogeneic BMT, and that a high degree of chimerism is not necessarily associated with specific allograft tolerance.     

Rapid identification and detection of parasitized human red cells by automated flow cytometry

Rapid and reliable identification of various human red cells parasites is important in many chemotherapeutic and immunologic studies. Because manual microscopic counting is tedious and imprecise, we have developed a simple diagnostic procedure for the automated flow cytometric detection of in vitro infected red cells, using a nucleic acid-binding fluorescent dye, acridine orange. Human malaria (Plasmodium falciparum)-infected red cells from continuous human erythrocyte culture were incubated at room temperature in acridine orange stain for 5 min after which the samples were analyzed by flow cytometry. Since mature red cells contain no DNA, infected red cells were identified with a distinct fluorescent signal. A total of 200,000 cells per sample were counted and analyzed in less than 2 min. Rings, trophozoites, and schizonts were assessed and identified in synchronized infected red cell cultures by flow cytometry. In addition, various stages of infected red cells were isolated with a cell sorter. This rapid method permits accurate and reliable assessment of data with the exclusion of anomalous data such as damaged cells, extraneous material, and contaminating particles.     

Rapid flow cytometry – Nile red assessment of PHA cellular content and heterogeneity in cultures of Pseudomonas aeruginosa 47T2 (NCIB 40044) grown in waste frying oil

The accumulation of cytoplasmic polyhydroxyalkanoates (PHAs) and the heterogeneity of bacterial populations were analysed by flow cytometry and SYTO-13 and Nile red staining in rhamnolipid-producing Pseudomonas aeruginosa cultures grown in waste frying oil as carbon source. A combination of SYTO-13 and Nile red fluorescence with cytometric forward and side scatter values may allow increases in the final production of polyhydroxyalkanoates (PHA) by two basic mechanisms: (i) rapid assessment of polyhydroxyalkanoate content and (ii) definition of flow cytometric cell sorting protocols to select high polyhydroxyalkanoate (PHA)-producing strains. We report a rapid (less than 30 min) flow cytometric assessment of PHAs in Pseudomonas aeruginosa 47T2 following Nile red staining: (i) to estimate cellular PHAs content; (ii) to study heterogeneity of the batch cultures producing PHAs and (iii) to establish the basis for sorting sub-populations with a high capacity to accumulate PHAs.     

Simplified flow cytometric method for fetal hemoglobin containing red blood cells

Assay of fetal hemoglobin (HbF) and/or HbF containing red blood cells (F+ cells) is essential for monitoring sickle cell and thalassemic patients, especially during treatment with HbF stimulators. Some previous flow cytometric methods contain several washing steps. This simplified method contains no washing step and takes less than an hour to perform. The %F+ cells in five mixtures of fetal red blood cells with adult red blood cells were nonsignificantly different in the original and simplified procedure. The %F+ cells of 12 patients compared in these two procedures were also not significantly different. The intra- and interassay %CVs do not exceed 3% and 7% respectively. EDTA, citrate, or heparin is suitable as anticoagulant and the samples can be stored at 4 degrees C for up to 2 weeks. The %F+ cells and %HbF [by high-performance liquid chromatography (HPLC)] of 83 samples were highly significantly correlated regardless of diagnosis. In conclusion, this new simplified flow cytometric method for F+ cells is simple, convenient, rapid, reproducible, and could be applied for monitoring sickle cell and thalassemic patients as an alternative to HPLC, where this is unavailable. It can also be applied as a fetal cell assay in fetomaternal hemorrhage.     

Allogeneic bone marrow grafts with high levels of CD4(+) CD25(+) FoxP3(+) T cells can lead to engraftment failure

Regulatory CD4(+) CD25(+) FoxP3(+) T cells (T(regs) ) suppress immunological reactions. However, the effect of adding T(regs) to hematopoietic stem cell grafts on recovery and graft versus host disease (GvHD) is unknown. T(regs) from splenocytes of C57Bl/6 and Balb/c wild-type mice were isolated by MACS separation and analyzed by flow cytometry. Using a murine syngeneic transplantation model that clearly distinguishes between donor and host hematopoiesis, we showed that co-transplantation of bone marrow cells (BMCs) with high levels of T(regs) leads to a 100% survival of the mice and accelerates the hematopoietic recovery significantly (full donor chimerism). In allogeneic transplantation, bone marrow and T(regs) co-transplantation were compared to allogeneic bone marrow transplantation with or without the addition of splenocytes. Survival, leukocyte recovery, chimerism at days -2, 19, 33, and 61 for murine CD4, human CD4, HLA-DR3, murine CD3, murine CD8, murine Balb/c-H2K(d) , murine C57Bl/6-H2K(b) , and GvHD appearance were analyzed. Allogeneic bone marrow transplantation requires the addition of splenocytes to reach engraftment. Mice receiving grafts with bone marrow, splenocytes and high levels of allogeneic T(regs) died within 28 days (hematopoietic failure). Here, we show also detailed flow cytometric data reagarding analysis of chimerism after transplantation in unique murine hematopoietic stem cell transplantation models. Our findings showed that the syngeneic co-transplantation of CD4(+) , CD25(+) , FoxP3(+) T-cells and BMCs induced a stimulating effect on reconstitution of hematopoiesis after irradiation. However, in the allogeneic setting the co-transplantation of T(regs) aggravates the engraftment of transplanted cells.     

Microenvironment created by stromal cells is essential for a rapid expansion of erythroid cells in mouse fetal liver

Mouse stromal cell lines (FLS lines), established from the livers of 13-day gestation mouse fetus, supported the proliferation and differentiation of the erythroid progenitor cells from mouse fetal livers and bone marrow in a semisolid medium in the presence of erythropoietin. A large erythroid colony of over 1000 benzidine-positive erythroid cells was developed from a single erythroid progenitor cell on the FLS cell layer after 4 days of culture. When in close contact with the layer, the erythroid progenitor cells divided rapidly with an average generation time of 9.6 h and mature erythroid cells, including enucleated erythrocytes, were produced. The present studies demonstrate that the microenvironment created by the stromal cells can support the rapid expansion of erythropoietic cell population in the fetal liver of mice.     

Effect of a small molecule inhibitor of nuclear factor-kappaB nuclear translocation in a murine model of arthritis and cultured human synovial cells

A small cell-permeable compound, dehydroxymethylepoxyquinomicin (DHMEQ), does not inhibit phosphorylation and degradation of IkappaB (inhibitor of nuclear factor-kappaB [NF-kappaB]) but selectively inhibits nuclear translocation of activated NF-kappaB. This study aimed to demonstrate the antiarthritic effect of this novel inhibitor of the NF-kappaB pathway in vivo in a murine arthritis model and in vitro in human synovial cells. Collagen-induced arthritis was induced in mice, and after onset of arthritis the mice were treated with DHMEQ (5 mg/kg body weight per day). Using fibroblast-like synoviocyte (FLS) cell lines established from patients with rheumatoid arthritis (RA), NF-kappaB activity was examined by electrophoretic mobility shift assays. The expression of molecules involved in RA pathogenesis was determined by RT-PCR, ELISA, and flow cytometry. The proliferative activity of the cells was estimated with tritiated thymidine incorporation. After 14 days of treatment with DHMEQ, mice with collagen-induced arthritis exhibited decreased severity of arthritis, based on the degree of paw swelling, the number of swollen joints, and radiographic and histopathologic scores, compared with the control mice treated with vehicle alone. In RA FLS stimulated with tumor necrosis factor-alpha, activities of NF-kappaB components p65 and p50 were inhibited by DHMEQ, leading to suppressed expression of the key inflammatory cytokine IL-6, CC chemokine ligand-2 and -5, matrix metalloproteinase-3, intercellular adhesion molecule-1, and vascular cell adhesion molecule-1. The proliferative activity of the cells was also suppressed. This is the first demonstration of an inhibitor of NF-kappaB nuclear translocation exhibiting a therapeutic effect on established murine arthritis, and suppression of inflammatory mediators in FLS was thought to be among the mechanisms underlying such an effect.     

Cell cycle perturbation of cultured C6 glioma cells following short-term contact with a low dose of ACNU

The purpose of this study was to investigate the cell cycle perturbation of cultured C6 rat glioma cells induced by 1-(4-amino-2-methyl-5-pyrimidyl)methyl-3-(2-chloroethyl)3-nitrosourea hydrochloride (ACNU) using simultaneous flow cytometric measurements of DNA and bromodeoxyuridine (BrdU) content. A new graphic computer program permitted the quantification of cell density in hexagonal subareas and allowed the fraction of BrdU-labeled cells with mid-S phase DNA content (FLS) to be defined in a narrow window. The cell kinetic parameters such as cell cycle time (Tc) and S phase time (Ts) were estimated from a manually plotted FLS curve at 18 and 6 hr, respectively. The major effect of ACNU on the cell cycle was an accumulation of the cells in the G2M phase 12 to 24 hr posttreatment when compared to G2M traverse of untreated cells. For the two-dimensional analysis, cells were labeled with BrdU and then treated with ACNU, or treated with ACNU and then labeled with BrdU. It was concluded that the cells in the S and G2M phases at the time of ACNU administration progressed to mitosis but that the G1 phase cells accumulated in the subsequent G2M phase. Two-dimensional FCM analysis using BrdU provided a useful tool in studying cell cycle perturbation.     

Effect of a small molecule inhibitor of nuclear factor-κB nuclear translocation in a murine model of arthritis and cultured human synovial cells

A small cell-permeable compound, dehydroxymethylepoxyquinomicin (DHMEQ), does not inhibit phosphorylation and degradation of IκB (inhibitor of nuclear factor-κB [NF-κB]) but selectively inhibits nuclear translocation of activated NF-κB. This study aimed to demonstrate the antiarthritic effect of this novel inhibitor of the NF-κB pathway in vivo in a murine arthritis model and in vitro in human synovial cells. Collagen-induced arthritis was induced in mice, and after onset of arthritis the mice were treated with DHMEQ (5 mg/kg body weight per day). Using fibroblast-like synoviocyte (FLS) cell lines established from patients with rheumatoid arthritis (RA), NF-κB activity was examined by electrophoretic mobility shift assays. The expression of molecules involved in RA pathogenesis was determined by RT-PCR, ELISA, and flow cytometry. The proliferative activity of the cells was estimated with tritiated thymidine incorporation. After 14 days of treatment with DHMEQ, mice with collagen-induced arthritis exhibited decreased severity of arthritis, based on the degree of paw swelling, the number of swollen joints, and radiographic and histopathologic scores, compared with the control mice treated with vehicle alone. In RA FLS stimulated with tumor necrosis factor-α, activities of NF-κB components p65 and p50 were inhibited by DHMEQ, leading to suppressed expression of the key inflammatory cytokine IL-6, CC chemokine ligand-2 and -5, matrix metalloproteinase-3, intercellular adhesion molecule-1, and vascular cell adhesion molecule-1. The proliferative activity of the cells was also suppressed. This is the first demonstration of an inhibitor of NF-κB nuclear translocation exhibiting a therapeutic effect on established murine arthritis, and suppression of inflammatory mediators in FLS was thought to be among the mechanisms underlying such an effect.     

The decisive role of the Saccharomyces cerevisiae cell cycle behaviour for dynamic growth characterization.

The dynamic behaviour of the cell cycle and the physiology of Saccharomyces cerevisiae was monitored in transient experiments. Frequent flow cytometric analyses of the DNA (nuclear phase state) and the cell size enabled us to characterize the proliferation properties of yeast cells under well controlled and undisturbed cultivation conditions. Preliminarily, the correlation between flow cytometric light scattering measurements and the cell size was attested for yeasts. These flow cytometric results are compared with the physiological behaviour of the culture that was detected by high resolution on-line analyses and off-line measurements. The presented results focus on the importance of the yeast cell cycle behaviour for the dynamic growth characterization. Any kind of transients in yeast cultures induced partial synchronization. The characteristics and the time course of the yeast cell cycle were found to be strongly dependent on the physiological environment.     

Differentiation of HL-60 promyelocytic leukemia cells monitored by flow cytometric measurement of nitro blue tetrazolium (NBT) reduction

Reduction of nitro blue tetrazolium (NBT) to insoluble blue formazan granules occurs during the stimulus-induced respiratory burst of mature granulocytes and is routinely used as an indicator of the extent of granulocytic differentiation of HL-60 acute promyelocytic leukemia cells. In the present study, the differentiation of HL-60 leukemia cells induced by dimethylsulfoxide (DMSO) or retinoic acid was monitored by flow cytometric (FCM) measurement of forward and 90 degree light scatter of NBT treated cells. Two-parameter correlated analysis permitted a distinction between cells with increased forward and decreased 90 degree light scatter (NBT-), and cells with decreased forward and increased 90 degree light scatter (NBT+). Fixation of NBT treated cells with 1% paraformaldehyde facilitated flow cytometric analysis, and allowed differences in NBT reduction to be quantitated. DMSO-induced cells expressed an all-or-none reduction of NBT to formazan, compared with retinoic acid treated cells that exhibited a graded response. Three parameter flow cytometric analysis of HL-60 leukemia cells stained with propidium iodide in combination with NBT allowed the determination of the cell cycle distribution of NBT-treated cells.     

Donor MHC class II antigen is essential for induction of transplantation tolerance by bone marrow cells

Posttransplant infusion of donor bone marrow cells (BMC) induces tolerance to allografts in adult mice, dogs, nonhuman primates, and probably humans. Here we used a mouse skin allograft model and an allogeneic radiation chimera model to examine the role of MHC Ags in tolerance induction. Infusion of MHC class II Ag-deficient (CIID) BMC failed to prolong C57BL/6 (B6) skin grafts in ALS- and rapamycin-treated B10.A mice, whereas wild-type B6 or MHC class I Ag-deficient BMC induced prolongation. Removal of class II Ag-bearing cells from donor BMC markedly reduced the tolerogenic effect compared with untreated BMC, although graft survival was significantly longer in mice given depleted BMC than that in control mice given no BMC. Infusion of CIID BMC into irradiated syngeneic B6 or allogeneic B10.A mice produced normal lymphoid cell reconstitution including CD4+ T cells except for the absence of class II Ag-positive cells. However, irradiated B10.A mice reconstituted with CIID BMC rejected all B6 and a majority of CIID skin grafts despite continued maintenance of high degree chimerism. B10.A mice reconstituted with B6 BMC maintained chimerism and accepted both B6 and CIID skin grafts. Thus, expression of MHC class II Ag on BMC is essential for allograft tolerance induction and peripheral chimerism with cells deficient in class II Ag does not guarantee allograft acceptance.     

Effectiveness of three micropropagation techniques to dissociate cytochimeras in Musa spp

In vitro mutagenesis of multicellular meristems of Musa spp. leads to a high degree of chimerism. Repeated vegetative propagation must be carried out to dissociate chimeras but the minimum number of cycles required is unknown. In general, mutated cells are difficult to monitor but mutations which result in a change in genome number are an exception. We simulated this case by colchicine treatment, followed by flow cytometric analysis. Colchicine treatment induced ploidy chimerism (mixoploidy), and chimera dissociation was assessed using three different propagation systems (shoot-tip culture technique - ST, multi-apexing culture technique - MA and corm slice culture technique - CS). The average percentage of cytochimeras was reduced from 100% to 36% after three subcultures using shoot-tip culture, from 100% to 24% when propagating by the corm slice culture technique and from 100% to 8% after the same number of subcultures using the multi-apexing technique. All propagation systems failed to eliminate chimerism completely. Factors that may influence chimera dissociation in vitro are discussed. This revised version was published online in June 2006 with corrections to the Cover Date.     

Neonatal tolerance induction in the thymus to MHC-class II-associated antigens. IV. Significance of intrathymic chimerism of blood-born Ia+ cells in Mls tolerance.

The significance of thymus cell chimerism in the induction and maintenance of tolerance was investigated. Mls-1b BALB/c mice were neonatally tolerized by the intravenous administration of either bone marrow (BM) cells or peritoneal cavity (PerC) cells from Mls-1b/a (BALB/c x AKR) F1 mice. Tolerance was long-lasting in the BM cell group, but transient in the PerC cell group, probably because PerC cells lack hemopoietic stem cells required for a continuous supply of tolerance-inducing cells. The degree of anti-Mls-1a responsiveness of these BALB/c thymus cells was correlated with the degree of intrathymic distribution of the inoculated F1 cells. The effect of BM cell inoculation, resulting in a year-long deletion of Mls-1a-reactive V beta 6-bearing T cells is in marked contrast to that of PerC cell inoculation which causes only a transient loss of V beta 6+ mature thymocytes (for about 1 week after birth). This functional profile of the tolerant state correlates well with the degree and persistence of the intrathymic presence of F1 type Ia+ cells. The long-lasting presence of donor-derived cells throughout the thymus tissue in the BM cell group is also in marked contrast to the early disappearance of Ia+ cells (within 2-3 weeks) from the cortex and then from the medulla in the PerC cell group, although these Ia+ cells were once spread throughout the thymus tissue 4 days after the tolerance-inducing cell inoculation. Taken together with a failure to induce consistent unresponsiveness to Mls-1a determinants in Mls-1b thymocytes regenerating in Mls-1a-thymic epithelial environments, all the above data indicate that intrathymic chimerism caused by hemopoietic stem cell-derived MHC-class II-bearing cells is a requisite for the induction and maintenance of unresponsiveness by means of clonal deletion in experimentally as well as naturally induced tolerance to Mls determinants.     

The flow cytometric PKH-26 assay for the determination of T-cell mediated cytotoxic activity

We present a rapid flow cytometric and non-radioactive functional assay developed for the determination of the cytotoxic activity of T lymphocytes, natural killer cells, and lymphokine-activated killer cells. In contrast to indirect evaluation of cytotoxicity using radioactive assays, this assay is based on the quantitative and qualitative flow cytometric analysis of cell damage on a single cell level. Target cells are stained with PKH-26, a lipophilic dye that stably integrates into the cell membrane, without disturbing its surface marker expression. It, thus, permits the distinction between target and effector cells. After short term in vitro incubation (1.5-3h), AnnexinV-FITC (ann-FITC) staining allows to discriminate between apoptotic and non-apoptotic target cells. Data analysis is performed first by gating on PKH-26 positive target cells, followed by the analysis of the ann-FITC positive subpopulation. The percentage of cytotoxicity in the PKH-26 gated cell population is calculated by subtracting unspecific ann-FITC positive target cells, measured in appropriate controls without effector cells. Using in vitro generated antigen-specific cytotoxic T lymphocytes, we demonstrate that this flow cytometric assay is sensitive, correlates well with the standard 51Cr release assay, and is easy to handle.     

High-efficiency recovery of target cells using improved yeast display system for detection of protein–protein interactions

We constructed a high-throughput screening (HTS) system for target cells based on the detection of protein–protein interactions by flow cytometric sorting due to the improvement in the yeast cell surface display system. Interaction model proteins, which are the ZZ domain derived from Staphylococcus aureus and the Fc part of human immunoglobulin G (IgG), were displayed on the yeast cell surface. We achieved a rapid and enhanced expression of these proteins as a result of adopting an appropriate yeast strain and a suitable promoter. The displayed ZZ domain had an ability to bind to rabbit IgG and the displayed Fc part to protein A. These were confirmed by flow cytometry and fluorescence microscopy. Furthermore, the cells displaying the ZZ domain or Fc part were isolated from the model libraries constructed by mixing the control yeast cells with the target yeast cells. The ratio of the target cells was increased from 0.0001% to more than 70% by two cycles of cell sorting. These results indicate that we can achieve a rapid and highly efficient isolation method for the target cells with FACSCalibur and that this method will further extend the application of flow cytometric sorting to library selections.     

Interleukin-35 (IL-35) inhibits proliferation and promotes apoptosis of fibroblast-like synoviocytes isolated from mice with collagen-induced arthritis

Rheumatoid arthritis (RA) is an inflammatory disorder of the joints that affects 0.5–1 % of adults. Excessive growth of the fibroblast-like synoviocytes (FLS) promotes hyperplasia of synovial tissues and causes its invasion into the bone and cartilage, which eventually causes deformity and dysfunction of affected joints. Interleukin 35 (IL-35) was shown to suppress the inflammatory responses to collagen-induced arthritis (CIA) via upregulation of T regulatory cells and suppression of T helper type 17 cells in a mouse model. To study the effects of IL-35 on the proliferation and apoptosis frequency of cultured FLS isolated from mice with CIA as well as to examine the effects of IL-35 on CIA in vivo. Thirty DBA/1 J mice, which are used as an animal model for RA, were divided randomly (ten mice per group) to a CIA group (collagen treatment), a CIA + IL-35 group (collagen and IL-35 treatments), and a control group (no treatment). Starting on the 24th day after collagen administration, IL-35 was injected intraperitoneally into mice of the CIA + IL-35 group once per day for 10 days. An arthritis index was calculated, and pathological analysis of synovial tissue was performed. FLS isolated from CIA mice were treated with various concentrations of IL-35 (12.5–100 ng/ml). The MTT assay was used to examine FLS proliferation, and apoptosis frequency of FLS was detected by flow cytometry. On day 24, the CIA mice began to exhibit arthritis symptoms, and the symptoms rapidly progressed with time. Treatment with IL-35 significantly alleviated arthritis symptoms and reduced the synovial tissue inflammation. In addition, IL-35 treatment inhibited proliferation and promoted apoptosis in cultured FLS from CIA mice in a dose-dependent manner. IL-35 could ameliorate the symptoms of arthritis in the CIA mouse model in vivo and inhibited FLS proliferation while promoting FLS apoptosis in vitro, thereby exhibited the potential in inhibiting the progression of RA.     

Comparative Study on the Suitability of Two Techniques for Measuring the Transfer of Lipophilic Drug Models from Lipid Nanoparticles to Lipophilic Acceptors

Due to their particle size in the submicrometer range, lipid nanoparticles are suitable for parenteral administration. In order to obtain information on their potential in vivo performance, a simple and effective in vitro assay to evaluate the drug release behavior of such particles is required. This study compares the use of different experimental setups for this purpose. Lipid nanoparticles from trimyristin which were loaded with fluorescent lipophilic drug models (a temoporfin and Nile red) were used as donor particles. The transfer of the two drug models to multilamellar vesicles (MLV) and emulsion droplets as lipophilic acceptor compartments was examined. The determination of the transferred substance was performed either after separation by centrifugation or by an in situ flow cytometric technique. The transfer of temoporfin was slow to the acceptor MLV and very rapid to the acceptor emulsion. With both acceptors, the transfer of temoporfin stopped at a concentration much lower than the theoretical equilibrium values. The transfer of the less lipophilic drug Nile red was very rapid to both acceptors with equilibrium concentrations close to the expected values. The transfer results of temoporfin especially to the acceptor MLV obtained with the two detection techniques were comparable while the centrifugation technique indicated an apparently higher Nile red transfer rate than the flow cytometric technique. Both techniques are equally suitable to study the transfer of temoporfin, while the flow cytometric technique is advantageous to measure the very rapid transfer of Nile red.Key words: drug transfer, flow cytometry, lipid nanoparticles, liposomes, ultracentrifugation