Functional Activity Of Granulocytes Research Articles

Micromechanical properties and functional activity of granulocytes when simulating exogenous loading with ATP in vitro

The micromechanical properties of leukocytes make a certain contribution to the blood flow velocity in the microcirculatory bed, while the micromechanical properties themselves change under the influence of a complex network of purinergic signals.The aim of the work was to study the micromechanical properties and functional activity of granulocytes in normal conditions and in patients with acute lymphoblastic leukemia when simulating exogenous loading with ATP in vitro.Materials and methods. Leukocytes were isolated from the blood of patients with acute lymphoblastic leukemia and healthy people. Each sample was divided into a test sample and a control sample. In the test samples, the loading with ATP in vitro was simulated. Leukocytes of the control samples were incubated in the culture medium without the addition of ATP. Young’s modulus and adhesion force were measured using an atomic force microscope in the force spectroscopy mode. The cell surface potential was measured in an atomic force microscope in the Kelvin mode. To assess the functional activity of granulocytes, hypoosmotic tests in vitro and determination of migration activity were used.Results. In tests with exogenous ATP, both in samples from healthy people and from patients with acute lymphoblastic leukemia, a decrease in the rigidity and potential of the plasma membrane surface, an increase in the adhesive properties of leukocytes and migration activity were found. At the same time, the responses of granulocytes to the osmotic loading were different: for example, in the group of healthy people, the loading with ATP caused cell contraction and a decrease in the use of the membrane reserve by the cell in a hypotonic environment, and in patients with acute lymphoblastic leukemia, it caused an increase in the volume and more intensive use of the membrane reserve in volume regulation.Conclusion. The revealed effects indicate the leading role of the ATP molecule in the signal transduction mechanisms between blood cells in the microvasculature. The increase in the adhesive properties of the cell surface of granulocytes revealed in the study, in parallel with the increase in their migration activity under the influence of the ATP molecule, can contribute to the development of inflammation in the vessel wall.

БИОФИЗИЧЕСКИЕ СВОЙСТВА КЛЕТОЧНОЙ ПОВЕРХНОСТИ И ФУНКЦИОНАЛЬНАЯ АКТИВНОСТЬ ГРАНУЛОЦИТОВ БОЛЬНЫХ ОСТРЫМ ЛИМФОБЛАСТНЫМ ЛЕЙКОЗОМ ПРИ МОДЕЛИРОВАНИИ НАГРУЗКИ С АТФ IN VITRO

The current study is devoted to the investigation of the biophysical properties of the cell surface and the functional activity of granulocytes in patients with acute lymphoblastic leukemia when simulating the ATP load in vitro. The experiment was performed on the peripheral blood of patients with acute lymphoblastic leukemia (ALL) who underwent a standard course of chemotherapy. In experimental tests, exogenous loading with ATP was simulated in vitro by adding 100.0 μM adenosine-5-triphosphate disodium salt trihydrate to the granulocyte suspension. Incubation with the drug was carried out for 15 min at 370 C. As a control, a suspension of granulocytes in RPMI 1640 medium from the same patient, but without the addition of the drug, was used, this was incubated for 15 min at a temperature of 370 C. After the incubation time, the biophysical properties (rigidity, charge of the cell surface, the strength of intercellular adhesion) of granulocytes in experimental and control samples were studied using atomic force microscopy, and the migration activity of cells was also assessed in a direct capillary test under agarose. A model with exogenous ATP in ALL patients showed a decrease in the rigidity and potential of the plasma membrane surface, an increase in the adhesive properties and migration activity of granulocytes. The revealed effects point to the key role of the ATP molecule in the mechanisms of intercellular signaling in the microvasculature.

Histological study of the effect of granulocyte colony-stimulating factor on experimentally induced corneal burn in adult male albino rats

ABSTRACT Chemical injuries to the eye represent one of the true ophthalmic emergencies that require immediate and intensive intervention to minimize severe complications and visual loss. Granulocyte colony-stimulating factor (G-CSF) is a potent hematopoietic cytokine that influences the proliferation, survival, maturation, and the functional activation of granulocytes. The present work was performed to evaluate the histological effect of G-CSF in treating rat corneal alkali burn model. Thirty adult male albino rats were divided equally into three main groups: Group I was served as a control group, and in Group II and III, their corneas of the right eyes were injured by applying a piece of filter paper soaked in 1M NaOH. Group II (alkali burn-induced group) was left without any treatment, while Group III (G-CSF-treated group) was injected subcutaneously by 100 µg/kg of G-CSF for 5 consecutive days. All animals were sacrificed after 3 weeks. Cornea specimens were processed for histological and immunohistochemical staining for P63 followed by morphometry. Microscopic examination of Group II revealed marked alterations in the corneal epithelium, inflammatory cellular infiltration, and neovascularization. Treatment with G-CSF showed great improvement of the corneal structure, disappearance of the neovascularization and the inflammatory cells, and decreased p63 reaction of the basal layers.

Differential effects of t helper-17 cytokines on the functions of granulocytes isolated from schistosoma mansoni-infected patients and healthy individuals

Background and aim The role of T helper-17 lymphocytes in the regulation of the immune response against Schistosoma soluble egg antigens is still controversial. In this study, the in-vitro effects of T helper-17 cytokines [interleukin (IL)-17 and IL-22] on granulocyte functions isolated from Schistosoma- infected patients or healthy individuals were examined. Patients and methods Twenty-seven Schistosoma mansoni- infected patients and 13 healthy individuals from Kasr Al-Aini Viral Hepatitis Center were enrolled in the present study. Granulocytes were isolated from whole blood of patients and controls by Ficoll–Paque density gradient for removal of the mononuclear layer and then lysis of red blood cells. Granulocytes were stimulated in vitro with soluble egg antigen in the presence of IL-17, IL-22, or both. After 24 h, the supernatants were collected for the measurement of tumor necrosis factor (TNF)-α, hydrogen peroxide (H 2 O 2 ), myeloperoxidase (MPO), and nitric oxide (NO) using enzyme-linked immunosorbent assay as surrogate markers for granulocyte functions. Results The results indicated that the presence of IL-17 significantly decreased ( P 2 O 2 , MPO, and NO production by granulocytes isolated from Schistosoma- infected patients. In contrast, in the presence of IL-22 or both IL-17 and IL-22, there were significant increases in the production of H 2 O 2 and TNF-α by granulocytes isolated from Schistosoma- infected patients. Moreover, in the presence of both IL-17 and IL-22, nonsignificant changes were observed in MPO or NO levels compared with those in the control participants. Conclusion IL-17, in contrast to IL-22, inhibited the functional activity of granulocytes isolated from S. mansoni- infected patients. Therefore, neutralization of IL-17 may work as a therapeutic strategy for these patients.

G-CSF and Erythropoietin Combination Therapy for Infarct Repair: Two Plus Two Equals Two?

G-CSF and Erythropoietin Combination Therapy for Infarct Repair: Two Plus Two Equals Two?

Effects of Whole-Body Gamma Irradiation and 5-Androstenediol Administration on Serum G-CSF

5-Androstenediol (5-AED) is a natural circulating adrenocortical steroid hormone that interconverts in vivo with other members of the 5-androstene family of steroids: dehydroepiandrosterone and 5-androstenetriol. These steroids stimulate immune responses and resistance to infection. 5-AED has been identified as a systemic radiation countermeasure that enhances survival in mice exposed to gamma irradiation and ameliorates radiation-induced neutropenia in mice and nonhuman primates. 5-AED mitigates radiation-induced decreases in platelets, natural killer (NK) cells, red blood cells, and monocytes. Administration of 5-AED causes functional activation of circulating granulocytes (phagocytic ability), monocytes (oxidative burst), and NK cells (surface CD11b expression). The effects of 5-AED on survival and hematological parameters are consistent with induction of hematopoietic cytokines. To test this hypothesis, we measured serum cytokines by ELISA, Luminex, and a cytokine array. A cytokine array was used for 62 different cytokines, chemokines, growth factors, and soluble receptors. 5-AED caused significant increases in circulating granulocyte colony-stimulating factor (G-CSF) in irradiated and unirradiated animals as observed with ELISA and Luminex. The cytokine array results suggest induction of G-CSF and additional cytokines, and related molecules. Since G-CSF is an important hematopoietic cytokine, the results support our hypothesis that the previously observed increases in numbers of hematopoietic progenitors, circulating innate immune cells and platelets, and functional activation of granulocytes, monocytes, and NK cells result from a cytokine cascade induced by 5-AED.

In Vivo Induction of Cytokine mRNA and Protein in Mice by the Radioprotectant Steroid 5-Androstenediol.

We previously showed 5-androstenediol (5-AED) injected sc enhanced survival in mice exposed to whole-body gamma-irradiation, ameliorated radiation-induced neutropenia in mice, dogs, and monkeys, and induced increases in bone marrow GM-CFC in irradiated mice. Radiation-induced decreases in platelets, natural killer cells, red blood cells, and monocytes were also blunted by the steroid. Administration of 5-AED caused functional activation of circulating granulocytes (phagocytic ability), monocytes (oxidative burst), and natural killer cells (surface CD11b expression). To test our hypothesis that 5-AED acts via initiation of a cytokine cascade in hematopoietic tissue, we performed real time quantitative PCR on spleen samples taken from mice and correlated the results with serum ELISA. PCR was performed for mRNAs of GM-CSF, IL-6, IL-10, IL-12, and IFNg. Spleens and serum were taken at 3 time points: 4 h after 5-AED or vehicle (PEG-400) injection, and 4 or 24 h after irradiation (7.5 Gy whole-body gamma) or sham-irradiation. Each group contained 5 mice. Results were analyzed by 2-way ANOVA for PCR results 4 and 24 h after irradiation, and by a t-test 4 h after injection. Radiation alone induced increases in mRNAs for all cytokines at both 4 and 24 h, except for IFNg, which was not elevated at 4 h. 5-AED alone did not induce a significant increase for any cytokine, but the increases bordered on significance for IL-12 at 4 h after irradiation or sham-irradiation (28 h after injection, p = 0.07), and for GM-CSF 24 h after irradiation or sham-irradiation (48 h after injection, p = 0.08). There was a significant positive interaction between radiation and 5-AED for IL-6, 4 h after irradiation (p = 0.006). The interaction effect bordered on significance for IL-12 4 h after irradiation (p = 0.07) and for GM-CSF 24 h after irradiation (p = 0.10). ELISA for serum cytokine protein was measured for G-CSF, IL-6, IL-10, and IL-12. Results were analyzed by the Mann-Whitney test for exact p-values. IL-6 was not detected in serum. G-CSF was detected 4 and 24 h after irradiation or sham-irradiation only in 5-AED-treated mice. IL-10 and IL-12 were detected only 24 h after irradiation, and the values in 5-AED-treated mice were significantly higher than those in vehicle-treated mice (p = 0.02). The results support our hypothesis that the previously observed increases in numbers of circulating innate immune cells and platelets, and functional activation of granulocytes, monocytes, and NK cells, result from a cytokine cascade induced by 5-AED.

Molecular assembly of the ternary granulocyte-macrophage colony-stimulating factor receptor complex

Granulocyte-macrophage colony-stimulating factor (GM-CSF) is a hematopoietic cytokine that stimulates the production and functional activity of granulocytes and macrophages, properties that have encouraged its clinical use in bone marrow transplantation and in certain infectious diseases. Despite the importance of GM-CSF in regulating myeloid cell numbers and function, little is known about the exact composition and mechanism of assembly of the GM-CSF receptor complex. We have now produced soluble forms of the GM-CSF receptor alpha chain (sGMRalpha) and beta chain (sbetac) and utilized GM-CSF, the GM-CSF antagonist E21R (Glu21Arg), and the betac-blocking monoclonal antibody BION-1 to define the molecular assembly of the GM-CSF receptor complex. We found that GM-CSF and E21R were able to form low-affinity, binary complexes with sGMRalpha, each having a stoichiometry of 1:1. Importantly, GM-CSF but not E21R formed a ternary complex with sGMRalpha and sbetac, and this complex could be disrupted by E21R. Significantly, size-exclusion chromatography, analytical ultracentrifugation, and radioactive tracer experiments indicated that the ternary complex is composed of one sbetac dimer with a single molecule each of sGMRalpha and of GM-CSF. In addition, a hitherto unrecognized direct interaction between betac and GM-CSF was detected that was absent with E21R and was abolished by BION-1. These results demonstrate a novel mechanism of cytokine receptor assembly likely to apply also to interleukin-3 (IL-3) and IL-5 and have implications for our molecular understanding and potential manipulation of GM-CSF activation of its receptor.

Residual Haematopoietic Damage in Adult and 8 Day-old Mice Exposed to 7 Gy of X-rays

Our experiments have focused on the analysis of residual haematopoietic damage in 8-day-old and 12-week-old mice X-irradiated with a single dose of 7 Gy. In the case of the adult mice, analysis of the femoral and splenic CFU-S, CFU-GM and BFU-E showed a persistent depletion of these haematopoietic progenitor cells after irradiation. In contrast, in 1-week-old irradiated mice, a progressive recovery of the femoral haematopoietic progenitors was observed, achieving essentially normal values 1 year after irradiation. The spleens of these mice, however, contained significantly less haematopoietic progenitors than the control group, mainly as a consequence of the size reduction of this organ. In the peripheral blood, normal cellularity values were observed in most cases, although in the adult group a decline in numbers or circulating cells was noted after the first year following irradiation. Long-term bone marrow cultures (LTBMCs) established 1 year after the irradiation of adult mice generated poor adherent layers, while confluent stromas were observed in flasks corresponding to 8-day-old irradiated mice. Analyses of the functional activity of granulocytes obtained from either the peripheral blood or LTBMCs revealed that both young and adult irradiated mice produced granulocytes generating high levels of superoxide anion, in relation to age-matched controls. This finding was correlated with a long-term microenvironmental activation which resulted in an overproduction of granulocyte-macrophage colony-stimulating factor.

The Florey Lecture, 1991. The colony-stimulating factors: discovery to clinical use

The four colony-stimulating factors, GM-GSF, G-CSF, M-CSF and Multi-CSF, are specific glycoproteins with a likely common ancestral origin which interact to regulate the production, maturation and function of granulocytes and monocyte-macrophages. Each has been purified and produced in active recombinant form. Animal studies have shown the ability of injected CSF to increase the production and functional activity of granulocytes and macrophages in vivo and to enhance resistance to infections. These studies have led to the current extensive clinical use of CSFs to promote the formation and function of granulocytes and macrophages in a wide variety of disease situations in which there is an associated risk of serious infections. Although our knowledge of the control of haemopoiesis remains incomplete, the approaches used to develop the CSFs can be used to extend this knowledge, with the promise of the introduction into clinical medicine of additional effective therapeutic agents.

The synthetic peptide from HIV increases functional activity of granulocytes in healthy subjects

The influence of HIV lysate and eight synthetic peptides which are fragments of HIV proteins on the functional activity of polymorphonuclear neutrophils (PMN) was tested in 12 healthy subjects. PMN activity in nitroblue tetrazolium reduction (NBT test) and PMN chemiluminescence (CL) was studied. Only one peptide was found to result in a significant increase in NBT test on the whole blood. This was the oligopeptide (G-97) from the CD4-binding site of HIV-1 gp120. The increase of CL response of PMN in the presence of G-97 was revealed after only 15 min preincubation. The same effect in the presence of sera from healthy or infected patients at the persistent generalized lymphadenopathy stage was achieved by increasing the time of preincubation to 30 min. G-97 did not influence the proliferative activity of lymphocytes.

Influence of HIV Antigens on Functional Activity of Neutrophilic Granulocytes in

The effect of nine HIV antigens, including eight synthetic peptides, on the functional activity of granulocytes was studied using the reduction of nitroblue tetrazolium test (NBT test). Some peptides partly suppressed the functional activity of granulocytes. The most pronounced suppression was caused by ImVL (HIV-1 lysate immobilized on plates for ELISA) and SP-7 (a synthetic peptide from the gp41 protein of HIV-1). The degrees to which the functional activity of granulocytes was suppressed by ImVL and SP-7 was in inverse proportion to the specific antibody concentrations. No correlation was found between the reduction in the NBT test value and the amount of CD4+, CD8+ cells on CD4/8 ratio.

Expression of c-jun, jun B and jun D proto-oncogenes in human peripheral-blood granulocytes

We have found that purified human peripheral-blood granulocytes express constitutively significant levels of proto-oncogenes c-jun, jun B and jun D mRNA. Upon functional activation of granulocytes by 4 beta-phorbol 12-myristate 13-acetate (PMA), the levels of c-jun, jun B and jun D transcripts were increased. The three jun genes showed a similar time course in their induction by PMA, maximal mRNA levels being reached after 60 min of induction. These results suggest that expression of c-jun, jun B and jun D genes might be involved in terminal granulocyte differentiation or in regulating granulocyte functionality.

Recombinant human granulocyte-macrophage colony-stimulating factor induces secretion of autoinhibitory monokines by U-937 cells.

Colony-stimulating factors are required for survival proliferation, differentiation and functional activation of granulocytes, macrophages and their precursor cells. In the present report, however, we demonstrate antiproliferative activity of recombinant human (rh) granulocyte-macrophage colony-stimulating factor (GM-CSF) on monoblast cell line U-937 and provide evidence for the involvement of tumor necrosis factor alpha TNF-alpha and interleukin 1 beta (IL 1 beta) in its growth inhibitory action. GM-CSF (but not granulocyte CSF, G-CSF or macrophage CSF, M-CSF) suppressed DNA synthesis and self renewal of U-937 cells. Similarly, medium conditioned by U-937 cells in response to GM-CSF (GM-CSF U-937-CM) was able to reduce clonogenicity and [3H]thymidine uptake by U-937 cells. Since neutralization of GM-CSF present in GM-CSF U-937-CM by monoclonal antibody to GM-CSF did not abrogate the autoinhibitory activity present in GM-CSF U-937-CM, we considered the possibility that other soluble molecules are released by U-937 cells upon GM-CSF stimulation. Neutralization by antibodies to IL 1 beta and TNF-alpha suggested that both monokines could be the antiproliferative principle operating in GM-CSF U-937-CM. Moreover, employing IL 1 beta-specific enzyme-linked immunosorbent assay, TNF-alpha specific radioimmunoassay, Northern analysis using a cloned TNF-alpha-specific cDNA and an oligonucleotide probe for IL 1 beta, we demonstrate GM-CSF-inducible IL 1 beta and TNF-alpha gene expression by U-937 cells at the mRNA and protein level. Although M-CSF expression was induced under similar conditions, M-CSF failed to inhibit growth of U-937 cells.

The Wellcome Foundation lecture, 1986. The molecular control of normal and leukaemic granulocytes and macrophages.

The development of semisolid culture methods supporting the clonal proliferation and maturation of granulocytes and macrophages led to the discovery of a group of specific glycoproteins, the colony-stimulating factors (CSFs), whose function it is to control the proliferation and functional activity of granulocytes, macrophages and associated blood cells. The four known CSFs in the mouse and man have been purified and complementary DNAs (cDNAs) for each have been cloned. The injection of bacterially synthesized recombinant CSF into mice has demonstrated that these CSFs can function in vivo to regulate granulocyte and macrophage formation. A major physiological role played by these CSFs is to control resistance to invading microorganisms through mechanisms capable of extremely rapid activation. Because the CSFs are the only known proliferative factors for these cells, the CSFs are involved in the initiation and the emergence of myeloid leukaemia but, conversely, at least one of the CSFs, G-CSF, is able to suppress myeloid leukaemic populations because of the ability of the CSFs to initiate differentiation commitment in responding granulocytic and macrophage populations. The CSFs are promising agents for clinical use in the treatment of infections in patients with depressed granulocyte-macrophage formation and possibly in the management of some types of myeloid leukaemia.

The molecular biology and functions of the granulocyte-macrophage colony-stimulating factors

Rapid progress has occurred recently in characterizing the molecular nature of the specific glycoprotein colony-stimulating factors (CSFs) controlling the proliferation; and some functional activities of granulocytes and monocyte-macrophages. All four known murine CSFs have been purified, and cDNAs for two have been cloned and expressed by mammalian and bacterial cells. Similarly, three human CSFs have been purified, and cDNAs for two cloned and expressed. This work has opened up the exciting prospects of testing the effects of these recombinant CSFs on hematopoiesis in vivo. Each CSF has a broader range of hematopoietic target cells than previously suspected, and it is now clear that the CSFs are not simply proliferative stimuli but can also regulate the functional activity of mature cells. There are increasing reasons to believe that these CSFs will be useful therapeutic agents in stimulating hematopoietic regeneration in leukopenic states and the functional activity of granulocytes and monocytes in infections.

The Molecular Biology and Functions of the Granulocyte-Macrophage Colony-Stimulating Factors

Rapid progress has occurred recently in characterizing the molecular nature of the specific glycoprotein colony-stimulating factors (CSFs) controlling the proliferation; and some functional activities of granulocytes and monocyte-macrophages. All four known murine CSFs have been purified, and cDNAs for two have been cloned and expressed by mammalian and bacterial cells. Similarly, three human CSFs have been purified, and cDNAs for two cloned and expressed. This work has opened up the exciting prospects of testing the effects of these recombinant CSFs on hematopoiesis in vivo. Each CSF has a broader range of hematopoietic target cells than previously suspected, and it is now clear that the CSFs are not simply proliferative stimuli but can also regulate the functional activity of mature cells. There are increasing reasons to believe that these CSFs will be useful therapeutic agents in stimulating hematopoietic regeneration in leukopenic states and the functional activity of granulocytes and monocytes in infections.

Infectious complications and host immune defense in acute leukemia

Microbiological and immunological studies were carried out on 73 acute leukemia patients in order to establish the relationship between the host immune defense and the frequency and severity of infections. Pronounced disturbances in the functional activity of granulocytes, the total complement hemolytic activity and C 3 component of the complement are found during induction chemotherapy; in this period the infectious complications are more frequent and severe than at the onset of the disease. No relationship is established between serum lysozyme levels and resistance to infections. The elevated immunoglobulins G and M as a possible response to the infectious agents are considered. It is emphasized that a pronounced immunosuppression as well as the most frequent infectious complications are found in patients in relapse.