Regulatory effects of eotaxin,eotaxin-2, and eotaxin-3 on eosinophil degranulation and superoxide anion generation

Eosinophilic leukocytes have been implicated as primary effector cells in inflammatory and allergic diseases. When activated by cytokines, human eosinophils secrete and produce a variety of proinflammatory or tissue damaging substances. Although well known for their chemoattractant effects, little is known about the precise contribution of the eosinophil-selective chemokines, eotaxin, eotaxin-2, and eotaxin-3 to the effector functions of eosinophils. This forms the central focus of these investigations for which clone 15-HL-60 human eosinophilic cells were used as the in vitro model. Investigation results suggest that all three subtypes of eotaxin directly stimulate eosinophil superoxide anion generation that is inhibited by neutralizing eotaxin antibody or pretreatment of cells with the receptor antibody anti-CCR3. Pretreatment or co-treatment with each of the eotaxins augmented phorbol myristate-induced superoxide generation. Concentration-dependent degranulation of eosinophil peroxidase was noted for all three chemokines, and potentiation of calcium ionophore-induced degranulation was observed with eotaxin pretreatments. Results of interleukin-5 pretreatment studies suggest that the eotaxin chemokines may act cooperatively to enhance effector functions of eosinophils. Collectively, the present studies have advanced knowledge of the eotaxin family of chemokines to include eosinophil priming and modulation of eosinophil activation and secretion effector functions.     

In vitro and in vivo induction of nitric oxide by murine macrophages stimulated with Bordetella pertussis

Abstract Nitric oxide (NO) exhibits potent antimicrobial activity in vitro. The function of NO in host defenses in vivo, however, is presently unclear. Experiments were undertaken to determine the production of NO in vitro from murine peritoneal and alveolar macrophages, and murine macrophage cell line (J774A.1) stimulated with Bordetella pertussis or pertussis toxin (PT). In addition, we determined circulating levels of NO in the sera and bronchoalveolar lavage (BAL) fluids of mice infected intranasally with B. pertussis . The results of this study showed that in vitro murine peritoneal macrophages induce production of NO in response to B. pertussis and PT. In addition, murine macrophage cell line, J774A.1 also induces NO production after stimulation with B. pertussis . NO production was also detected in alveolar macrophages from mice infected intranasally with B. pertussis . Finally, a significant increment of circulating levels of NO was noted, in the sera but not in the BAL fluids, of mice infected intranasally with B. pertussis .     

The effect of IL-5 and eotaxin expression in the lung on eosinophil trafficking and degranulation and the induction of bronchial hyperreactivity

The mechanisms regulating the selective migration and degranulation of eosinophils in the asthmatic lung and the subsequent development of airways hyperreactivity (AHR) have not been fully delineated. In this investigation, we have employed a novel transgene model to facilitate the dissection of the contributions of IL-5 and/or eotaxin to eosinophil function in the absence of complex tissue signals derived from the allergic lung. Gene transfer of IL-5 and/or eotaxin to the lungs of naive mice induced a pronounced and selective airways eosinophilia, but did not result in eosinophil degranulation or AHR. Airways eosinophilia occurred independently of the induction of a blood eosinophilia, but was markedly augmented by the coexpression of both cytokines and/or by the transient mobilization of eosinophils from the bone marrow by the administration of i.v. IL-5. However, for eosinophil degranulation and AHR to occur, the inhalation of Ag was required in association with IL-5 and eotaxin expression. Investigations in IL-5-deficient mice linked eosinophilia, and not solely IL-5 and eotaxin, with the induction of AHR. Furthermore, eosinophil degranulation and AHR were dependent on CD4+ T cells. Importantly, this investigation shows that IL-5 regulates eosinophilia within the lung as well as in the circulation and also amplifies eotaxin-induced chemotaxis in the airway compartment. Moreover, the interplay between these cytokines, CD4+ T cells, and factors generated by Ag inhalation provides fundamental signals for eosinophil degranulation and the induction of AHR.     

Production and interaction of oxygen and nitric oxide free radicals in PMA stimulated macrophages during the respiratory burst

The activity of nitric oxide synthase (NOS) during the respiratory burst in phorbol-1,2-myristate-1,3-acetate (PMA) stimulated macrophages has been the topic of much debate in the literature. To help clarify the role of NOS, we have examined the chemiluminescence arising from peroxynitrite production, nitrite/nitrate and nitric oxide production, and oxygen consumption during the respiratory burst in PMA-stimulated macrophages. The Griess reaction was used to measure nitrite/nitrate, spin trapping with N-methyl D-glucamine dithiocarbamate (MGD)2-Fe2+ was used to quantify nitric oxide, and the spin probe 2,2,6,6-tetramethylpiperidine-N-oxyl-4-ol (TEMPOL) was used to measure oxygen consumption. Oxygen free radical production (hydroxyl and superoxide free radicals) was also investigated using the spin trap 5,5-dimethyl-1-pyroline-1-oxide (DMPO). The chemiluminescence emitted by the PMA-stimulated macrophages and nitrite/nitrate in the culture system were both found to increase. However, the rate of nitric oxide release remained constant, indicating that the activity of NOS is not enhanced during the respiratory burst in PMA stimulated macrophages.     

The potential role of nitric oxide in substrate switching in eosinophil peroxidase

Eosinophil recruitment and enhanced nitric oxide (NO) production are characteristic features of asthma and other airway diseases. Eosinophil peroxidase (EPO), a highly cationic hemoprotein secreted by activation of eosinophils, is believed to play a central role in host defense against invading pathogens. The enzyme uses hydrogen peroxide (H2O2) and bromide (Br-), a preferred cosubstrate of EPO, to generate the cytotoxic oxidant hypobromous acid. The aim of this work was to determine whether NO can compete with plasma levels of Br- and steer the enzyme reaction from a 2e- oxidation to a 1e- oxidation pathway. Rapid kinetic measurements were utilized to measure the rate of EPO compounds I and II formation, duration, and decay at 412 and 432 nm, respectively, at 10 degrees C. An EPO-Fe(III) solution supplemented with increasing Br- concentrations was rapidly mixed with fixed amounts of H2O2 in the absence and in the presence of increasing NO concentrations. In the absence of NO, EPO-Fe(III) primarily converted to compound I and, upon H2O2 exhaustion, it decayed rapidly to the ferric form. NO caused a significant increase in the accumulation of EPO compound II, along with a proportional increase in its rate of formation and duration as determined by the time elapsed during catalysis. The time courses for these events have been incorporated into a comprehensive kinetic model. Computer simulations carried out supported the involvement of a conformational intermediate in the EPO compound II complex decay. Collectively, our results demonstrated that NO displays the potential capacity to promote substrate switching by modulating substrate selectivity of EPO.     

人RANTES基因克隆及其体外表达

1995年,Cocchi等[1]发现RANTES、MIP-1α和MIP-1β等β-趋化因子具有抗HIV-1感染活性.1997年,Feng等[2]和Deng等[3]证实β-趋化因子受体CXCR4和CCR5分别是HIV-1侵染T淋巴细胞和巨噬细胞的辅助受体(co-receptor).T淋巴细胞嗜性(T-tropism)分离株被称为X4毒株,巨噬细胞嗜性(M-tropism)分离株则被称为R5毒株[4].RANTES与CCR5有着高度的亲和力,二者的结合可对HIV-1的细胞附着产生空间位阻效应,并下调CCR5在细胞表面的表达.这一结果使RANTES抗HIV-1感染机制在分子水平上得到合理的解释.最近,Garzino-Demo等[5]证明,β-趋化因子的诱导分泌与HIV-1感染后疾病进程的控制有着密切的关系,而且人群中β-趋化因子水平存在着显著的个体差异,表明β-趋化因子对艾滋病具有潜在的预防和治疗价值.为此,我们在克隆人RAN-TES基因的基础上,在体外转录与翻译系统中实现了该基因的表达,有利于今后进一步开展艾滋病的基因治疗.     

The interaction of nitric oxide with ascorbate oxidase.

1. The reaction of nitric oxide with oxidized and reduced ascorbate oxidase (L-ascorbate: oxygen oxidoreductase, EC 1.10.3.3) has been investigated by optical absorption measurements and electron paramagnetic resonance, and the results are compared with those of ceruloplasmin. 2. Upon anaerobic incubation of oxidized ascorbate oxidase with nitric oxide a decrease of the absorbance at 610 nm is found, which is due to an electron transfer from nitric oxide to Type-1 copper. 3. In the presence of nitric oxide the EPR absorbance of ascorbate oxidase decreases and shows predominatly a signal with characteristics of Type-2 copper (g parallel = 2.248; A parallel = 188 G), whereas the type-1 copper signal has vanished. 4. Comparison of the intensities of the EPR signals before and after NO-treatment points to the presence of one Type-2 and three Type-1 copper atoms per molecule of ascorbate oxidase. 5. It is shown that the changes in the optical and the EPR spectrum of ascorbate oxidase induced by nitric oxide are reversible. No difference in enzymic activity is found between the native enzyme and the NO-treated enzyme after removal of nitric oxide.     

Lack of mitochondrial nitric oxide production in the mouse brain

Based on our initial finding that the nitric oxide (NO) sensitive fluorochrome diaminofluorescein (DAF) was localized to mitochondria in cultured primary neurons, we investigated whether brain mitochondria produce NO through a mitochondrial NO synthase (mtNOS) enzyme. Isolated brain mitochondria were loaded with DAF and subjected to flow cytometry analysis. Neither the application of NOS inhibitors nor the genetic disruption of either NOS gene diminished the DAF-fluorescence. However, peroxynitrite scavengers reduced the mitochondrial DAF fluorescence, indicating that the DAF signal is not specific to NO. Chemiluminescence detection in the head space gas and a Clark-type NO-sensitive electrode in the solution failed to detect NO release in brain mitochondria. NOS activity in mitochondria was only 1% of the whole brain NOS activity level, which may be attributed to extramitochondrial contamination. Extensive immunoblotting and immunoprecipitation experiments failed to show the presence of endothelial, neuronal, or inducible NOS in mouse brain mitochondria using a variety of primary antibodies. Arginine, calmodulin or 2,5-ADP affinity purification protocols successfully concentrated eNOS and nNOS from full brain tissue but failed to show any signal in mitochondria. We conclude that mouse brain mitochondria do not contain NOS isoforms, nor do they produce NO through a NOS-dependent mechanism.     

Lack of central nitric oxide triggers erectile dysfunction in diabetes

Erectile dysfunction is a serious and common complication of diabetes mellitus. The proposed mechanisms for erectile dysfunction in diabetes include central and autonomic neuropathy, endothelial dysfunction, and smooth muscle dysfunction. The paraventricular nucleus (PVN) of the hypothalamus is known to be involved in centrally mediated penile erection. This study was designed to examine the role of nitric oxide (NO) within the central nervous system component of the behavioral responses including erection in diabetic rats. N-methyl-D-aspartic acid (NMDA)-induced erection, yawning, and stretch through the PVN can be blocked by prior administration of NO synthase (NOS) blocker, L-NMMA, in freely moving, conscious male normal rats. Four weeks after streptozotocin (STZ) and vehicle injections, NMDA-induced erection, yawning, and stretch responses through the PVN are significantly blunted in diabetic rats compared with control rats. Examination of neuronal NOS (nNOS) protein by Western blot analysis indicated a reduced amount of nNOS protein in the PVN of rats with diabetes compared with control rats. Furthermore, restoring nNOS within the PVN by gene transfer using adenoviral transfection significantly restored the erectile and yawning responses to NMDA in diabetic rats. These data demonstrate that a blunted NO mechanism within the PVN may contribute to NMDA-induced erectile dysfunction observed in diabetes mellitus.     

Human eosinophil stimulation promoter lymphokine: Production by antigen stimulated lymphocytes and assay with a new electro-optical technique

A human lymphokine, eosinophil stimulation promoter (ESP), was shown to be produced by mononuclear leukocytes in response to non-helminthic antigens. Supernatants of tuberculin-stimulated cultures of mononuclear leukocytes from tuberculinskin test reactive humans contained non-dialyzable ESP activity; ESP could not be demonstrated in the supernatants of tuberculin stimulated cultures from skin test negative donors. Thus, human ESP, like murine ESP, is a soluble lymphokine product of sensitized mononuclear cells. ESP activity was also demonstrated in supernatants of mononuclear leukocyte cultures stimulated with streptococcal antigens. ESP selectively enhanced migration of eosinophils. ESP production could be blocked by puromycin, and its activity was diminished by prior incubation with eosinophil-rich granulocytes. Correlation of antigen stimulated ESP activity with skin test reactivity establishes ESP as another in vitro correlate of delayed hypersensitivity in man. A video method of data collection and analysis is described which greatly facilitates in vitro studies of ESP activity. The method is applicable to the study of other lymphokines which effect cellular migration.     

The interaction of nitric oxide with soybean lipoxygenase-1.

The interaction of nitric oxide with the non-heme iron dioxygenase lipoxygenase is reported. This apparently resulted in a novel type of complex where an electron is donated to the NO molecule. In addition a new position for an EPR transition from iron was discovered which, it is suggested results from high spin ferric iron in a field of axial symmetry characterised by a very low value for D.     

Induction of cytokines and nitric oxide in murine macrophages stimulated with enzymatically digested lactobacillus strains

Based on observations that lactic acid bacteria have the ability to activate macrophages, we assessed the potential effects of eight different Lactobacillus strains treated with gastrointestinal enzymes on the production of nitric oxide and various cytokines in macrophages. RAW 264.7 murine macrophage cells were cultured with either precipitates or supernatants of Lactobacillus strains digested with pepsin followed by pancreatin. The increased production of nitric oxide and interleukin (IL)-1beta, IL-6, IL-12 and tumour necrosis factor (TNF)-alpha were observed when cultured with precipitates, and this effect was largely strain-dependent. In contrast, the exposure of RAW 264.7 cells to supernatants produced weaker or nearly undetectable effects in comparison to the effects of exposure to precipitates. The induction of nitric oxide appeared to be unaffected. These results demonstrate that nitric oxide and cytokines were effectively induced when the bacterial precipitate was treated with macrophages. The results of the present study also indicate that Lactobacillus strains treated with digestive enzymes are capable of stimulating the production of nitric oxide and cytokines in macrophages, which may modulate the gastrointestinal immune function of the host when it is given as a feed additive.     

Role of p38 in nitric oxide synthase and cyclooxygenase expression, and nitric oxide and PGE2 synthesis in human gingival fibroblasts stimulated with lipopolysaccharides

Periodontal disease, a gingival inflammatory disease caused by gram-negative bacteria, is the main cause of tooth loss. Lipopolysaccharides (LPS) present in bacterial cell walls induce human gingival fibroblasts' production of pro-inflammatory cytotoxins such as IL-1beta and TNFalpha. The goal of this study was to determine p38 role in the expression of inducible nitric oxide synthase enzyme (i-NOS) and cyclooxygenase (COX-2), as well as in PGE(2) and nitric oxide synthesis in human gingival fibroblasts challenged with LPS. We found that lipopolysaccharides induced a rapid and significant increase in p38 phosphorylation. After interruption of p38 transduction pathway by pre-treatment with inhibitor SB203580, no response to stimulation with LPS was observed; i-NOS expression and nitric oxide synthesis was completely blocked. However, p38 inhibition only partially blocked COX-2 expression and PGE2 synthesis. We conclude that p38 is critically involved in i-NOS induction, and that it participates in COX-2 expression and in PGE2 synthesis.     

Oltipraz inhibits inducible nitric oxide synthase in vitro and inhibits nitric oxide production in activated microglial cells

The clinically relevant drug oltipraz (OPZ) has previously been shown to inhibit cytochrome P450 enzymes [Chem. Res. Toxicol. 13 (2000) 245]. The current study reveals that OPZ is also able to inhibit *NO formation by purified inducible nitric oxide synthase (iNOS) but not by neuronal nitric oxide synthase in hemoglobin assays. The inhibition of iNOS by OPZ is reversible and competitive with an IC(50) of 5.9 microM and Ki of 0.6 microM. In murine BV-2 microglial cells, an immortalized cell line that produces *NO in response to lipopolysaccharide (LPS), OPZ is able to block the formation of nitrite in LPS treated cells. The inhibitory effect of OPZ on LPS treated cells is not due to cell toxicity. Finally, treatment of cells with OPZ does not induce or suppress expression of iNOS protein as shown by Western blot analysis.     

A peptide containing the cell adhesion sequence RGD can mediate degranulation and cell adhesion of crayfish granular haemocytes in vitro

The synthetic peptide Gly-Arg-Gly-Asp-Ser (GRGDS) (which corresponds to a fragment of fibronectin and contains its cell adhesion sequence RGD) caused degranulation and spreading of monolayers of isolated granular haemocytes of the crayfish Pacifastacus leniusculus in vitro. When coated on glass coverslips, this RGD-containing peptide could mediate cell attachment of granular cells in vitro. A control peptide, Gly-Arg-Gly-Glu-Ser (GRGES), did not have these activities.Thus, GRGDS imitates the biological activities in vitro of the cell adhesion factor recently purified from crayfish haemocytes. This suggests that the sequence Arg-Gly-Asp (RGD), which is responsible for the cell adhesion activities of a number of vertebrate proteins, may also be involved in degranulation and cell adhesion of arthropod haemocytes.This is the first report describing direct activities by an RGD-containing peptide towards invertebrate cells in vitro, and the first indication of the presence of an RGD-recognizing receptor on invertebrate haemocytes.     

Role of nitric oxide in human pulmonary microvascular endothelial cell adhesion

Cyclopentenylcytosine (CPEC) is cytotoxic to HT-29 cells in vitro and in vivo. Treatment with CPEC resulted in sensitizing HT-29 cells to cisplatin (CDDP), as evidenced by synergistic cytotoxicity. CPEC exhibits potent cytotoxicity to HT-29 cells in vitro, 2 and 24 h exposure providing an LC50 of 2.4 and 0.46 microM, respectively. Exposure of HT-29 cells to CDDP for 2 h resulted in an LC50 of 26 microM. Treatment of HT-29 cells with 1.0 or 1.25 microM CPEC and then incubating with CDDP showed synergistic cytotoxicity. Lesser synergy at very high concentrations of CPEC was demonstrated when HT-29 cells were first exposed to CDDP and then incubated with CPEC. Combination index calculations showed synergistic cytotoxicity in HT-29 cells when CPEC was combined with CDDP. Synergistic antitumor activity was demonstrable in vivo in mice transplanted with HT-29 tumor when treated with a combination of CPEC and CDDP without undue toxicity, since no excessive loss in mouse body weight or overt pathology was observed. CPEC had no influence on the total DNA adduct formation and CDDP did not affect the intracellular levels of CPEC or its metabolites, suggesting that enhanced CDDP cytotoxicity resulted from a step subsequent to excision of platinum-cross-linked DNA. These studies support a new approach for augmenting cytotoxic effect of CPEC with CDDP in treating human colon carcinoma.     

Thermodynamics of apocalmodulin and nitric oxide synthase II peptide interaction

The Ca2+-free form of calmodulin (CaM), apocalmodulin (ApoCaM), regulates a variety of target proteins including nitric oxide synthase II (NOS-II). The CaM-binding site of NOS-II can bind ApoCaM with high affinity. Substitution of hydrophobic amino acids by charged amino acids at crucial positions 3, 9 and 13 within the CaM-binding motif did not abolish the ApoCaM interaction that occurred with significant affinity, though the affinity of the interaction was decreased remarkably. Isothermal titration calorimetry revealed that interaction of ApoCaM and synthetic NOS-II peptides was driven entropically.     

Production of nitric oxide in host-virus interaction: A case study with a compatible begomovirus-kenaf host-pathosystem

Nitric oxide (NO) plays a key role in plant diseases resistance. Here we have first time demonstrated that begomovirus infection in susceptible H. cannabinus plants, results in elevated NO and reactive nitrogen species production during early infection stage not only in infected leaf but also in root and shoot. Production of NO was further confirmed by oxyhemoglobin assay. Furthermore, we used Phenyl alanine ammonia lyase as marker of pathogenesis related enzyme. In addition evidence for protein tyrosine nitration during the early stage of viral infection clearly showed the involvement of nitrosative stress.Key words: nitric oxide, mesta yellow vein mosaic virus, protein nitration