The Role of Annexin A1 in DNA Damage Response in Placental Cells: Impact on Gestational Diabetes Mellitus.

The functions of annexin A1 (ANXA1), which is expressed on membranes and in cytoplasmic granules, have been fully described. Nonetheless, the role of this protein in protecting against DNA damage in the nucleus is still emerging and requires further investigation. Here, we investigated the involvement of ANXA1 in the DNA damage response in placental cells. Placenta was collected from ANXA1 knockout mice (AnxA1-/-) and pregnant women with gestational diabetes mellitus (GDM). The placental morphology and ANXA1 expression, which are related to the modulation of cellular response markers in the presence of DNA damage, were analyzed. The total area of AnxA1-/- placenta was smaller due to a reduced labyrinth zone, enhanced DNA damage, and impaired base excision repair (BER) enzymes, which resulted in the induction of apoptosis in the labyrinthine and junctional layers. The placentas of pregnant women with GDM showed reduced expression of AnxA1 in the villous compartment, increased DNA damage, apoptosis, and a reduction of enzymes involved in the BER pathway. Our translational data provide valuable insights into the possible involvement of ANXA1 in the response of placental cells to oxidative DNA damage and represent an advancement in investigations into the mechanisms involved in placental biology.

Role of Annexin A1 Secreted by Neutrophils in Melanoma Metastasis.

Annexin A1 (AnxA1) is highly secreted by neutrophils and binds to formyl peptide receptors (FPRs) to trigger anti-inflammatory effects and efferocytosis. AnxA1 is also expressed in the tumor microenvironment, being mainly attributed to cancer cells. As recruited neutrophils are player cells at the tumor sites, the role of neutrophil-derived AnxA1 in lung melanoma metastasis was investigated here. Melanoma cells and neutrophils expressing AnxA1 were detected in biopsies from primary melanoma patients, which also presented higher levels of serum AnxA1 and augmented neutrophil-lymphocyte ratio (NLR) in the blood. Lung melanoma metastatic mice (C57BL/6; i.v. injected B16F10 cells) showed neutrophilia, elevated AnxA1 serum levels, and higher labeling for AnxA1 in neutrophils than in tumor cells at the lungs with metastasis. Peritoneal neutrophils collected from naïve mice were co-cultured with B16F10 cells or employed to obtain neutrophil-conditioned medium (NCM; 18 h incubation). B16F10 cells co-cultured with neutrophils or with NCM presented higher invasion, which was abolished if B16F10 cells were previously incubated with FPR antagonists or co-cultured with AnxA1 knockout (AnxA1-/-) neutrophils. The depletion of peripheral neutrophils during lung melanoma metastasis development (anti-Gr1; i.p. every 48 h for 21 days) reduced the number of metastases and AnxA1 serum levels in mice. Our findings show that AnxA1 secreted by neutrophils favors melanoma metastasis evolution via FPR pathways, addressing AnxA1 as a potential biomarker for the detection or progression of melanoma.

Neutrophil depletion in the pre-implantation phase impairs pregnancy index, placenta and fetus development.

Maternal neutrophils cells are players in gestational tolerance and fetus delivery. Nonetheless, their actions in each phase of the pregnancy are unknown. We here investigated the role of maternal neutrophil depletion before the blastocyst implantation phase and outcomes in the pregnancy index, placenta, and fetus development. Neutrophils were pharmacologically depleted by i.p. injection of anti-Gr1 (anti-neutrophils; 200 µg) 24 hours after plug visualization in allogeneic-mated C57BL/6/BALB/c mice. Depletion of peripheral neutrophils lasted until 48 hours after anti-Gr1 injection (gestational day 1.5-3.5). On gestational day 5.5, neutrophil depletion impaired the blastocyst implantation, as 50% of pregnant mice presented reduced implantation sites. On gestational day 18.5, neutrophil depletion reduced the pregnancy rate and index, altered the placenta disposition in the uterine horns, and modified the structure of the placenta, detected by reduced junctional zone, associated with decreased numbers of giant trophoblast cells, spongiotrophoblast. Reduced number of placenta cells labeled for vascular endothelial growth factor (VEGF), platelet-endothelial cell adhesion molecule (PECAM-1), and intercellular cell adhesion molecule (ICAM-1), important markers of angiogenesis and adhesiveness, were detected in neutrophil depleted mice. Furthermore, neutrophil depletion promoted a higher frequency of monocytes, natural killers, and T regulatory cells, and lower frequency of cytotoxic T cells in the blood, and abnormal development of offspring. Associated data obtained herein highlight the pivotal role of neutrophils actions in the early stages of pregnancy, and address further investigations on the imbricating signaling evoked by neutrophils in the trophoblastic interaction with uterine epithelium.

Intravital Microscopy: A Tool to Investigate the Toxicity in the Immune System, Vessel Rheology, and Xenobiotic Distribution.

Intravital microscopy (IVM) is an essential experimental approach for evaluating, in real time, cell interactions in the blood and rheological parameters in the microcirculation of the living animals. Different tissues are surgically exposed to the visualization of the microvascular network in optical microscopies connected to video cameras and image software. By evaluating in situ microcirculatory network, IVM allows the visualization and quantification of physiological and pathological processes in the blood or in the adjacent tissues considering the whole system. Therefore, IVM has been used to evaluate the effects and mechanisms of actions in the microvascular network caused by pharmacological or toxic chemical agents. In this chapter, different experimental approaches are described to study the toxic effects and mechanisms of xenobiotics in the microcirculatory network.

Direct effects of poly(ε-caprolactone) lipid-core nanocapsules on human immune cells.

Aim: Poly(ε-caprolactone) lipid-core nanocapsules (LNCs) are efficient drug carriers and drug-free LNCs display therapeutic effects, inhibiting tumor growth and neutrophil activities. Herein, we investigated the direct actions of LNCs on human immune cells, to guide their therapeutic application. Materials & methods: LNC's uptake, cytokine release, cell migration, proliferation and intracellular pathways under inflammatory stimulation were investigated. Results & conclusion: LNCs quickly penetrated leukocytes without cytotoxicity; inhibited mitogen-induced lymphocyte proliferation, cytokine release and leukocyte migration under inflammatory stimulation, which were associated with inhibition of the MAP kinase pathway and intracellular calcium influx. Hence, we showed LNCs as a down-regulatory agent on immune cells, suggesting that either the particles themselves or their application as a drug carrier can halt non-desired inflammatory processes.

Antiangiogenic effects of the chemopreventive agent tributyrin, a butyric acid prodrug, during the promotion phase of hepatocarcinogenesis.

Agents that inhibit angiogenic factors may prevent the development of hepatocellular carcinoma (HCC). Thus, the objective of this study was to kinetically evaluate the antiangiogenic activity of tributyrin (TB), a butyric acid prodrug, in the promotion stage of hepatocarcinogenesis. For this purpose, the resistant hepatocyte (RH) model was used for induction of preneoplastic lesions in Wistar rats. During the promotion phase, the animals received TB or maltodextrin (MD) as control daily. The rats were killed at three time-points (P1, P2 and P3). Increased expression of Vegfa and Vegfr2 was observed during promotion phase of hepatocarcinogenesis, which was not reversed by TB treatment. However, TB treatment reduced the expression of cluster of differentiation (CD) 34-positive vessels at P3 and α-smooth muscle actin (α-SMA)-positive vessels at P2 compared with MD. Enhanced levels of hypoxia inducible factor-1α (HIF-1α) and phosphorylated extracellular signal-regulated kinases (pERK) were detected at P3 when compared with P1 and P2 in the MD treatment. TB treatment reduced the levels of HIF-1α and pERK at P3 relative to the MD control. Experiments with human umbilical vein endothelial cells (HUVEC) showed that sodium butyrate (NaBu) inhibited cell migration and tube formation, confirming the antiangiogenic activity of its prodrug TB. In conclusion, antiangiogenic activity of TB is an early event that already occurs in preneoplastic livers, reinforcing its potential chemopreventive effects against HCC.

Vitamin D treatment abrogates the inflammatory response in paraquat-induced lung fibrosis.

A high incidence of intentional or accidental paraquat (PQ) ingestion is related to irreversible lung fibrosis and no effective therapy is currently available. Vitamin D has emerged with promising results as an immunomodulatory molecule when abrogating the inflammatory responses of lung diseases. Therefore, we have investigated the role of vitamin D treatments on PQ-induced lung fibrosis in male C57/BL6 mice. Lung fibrosis was induced by a single injection of PQ (10 mg/kg; i.p.). The control group received PQ vehicle. Seven days later, after the PQ injection or the vehicle injection, the mice received vitamin D (5 µg/kg, i.p., once a day) or vehicle, for a further 7 days. Twenty-four hours after the last dose of vitamin D or the vehicle, the analysis were performed. The vitamin D treatments reduced the number of leukocytes in their BALF and they decreased the IL-6, IL-17, TGF-beta and MMP-9 levels and the abrogated collagenase deposits in their lung tissues. Conversely, the vitamin D treatments increased the resolvin D levels in their BALF. Moreover, their tracheal contractility was also significantly reduced by the vitamin D treatments. Altogether, the data that was obtained showed a promising use of vitamin D, in treating the lung fibrosis that had been induced by the PQ intoxications. This may improve its prognostic use for a non-invasive and low cost therapy.

Anacardic acids from cashew nuts ameliorate lung damage induced by exposure to diesel exhaust particles in mice.

Anacardic acids from cashew nut shell liquid, a Brazilian natural substance, have antimicrobial and antioxidant activities and modulate immune responses and angiogenesis. As inflammatory lung diseases have been correlated to environmental pollutants exposure and no reports addressing the effects of dietary supplementation with anacardic acids on lung inflammation in vivo have been evidenced, we investigated the effects of supplementation with anacardic acids in a model of diesel exhaust particle- (DEP-) induced lung inflammation. BALB/c mice received an intranasal instillation of 50 µ g of DEP for 20 days. Ten days prior to DEP instillation, animals were pretreated orally with 50, 150, or 250 mg/kg of anacardic acids or vehicle (100 µ L of cashew nut oil) for 30 days. The biomarkers of inflammatory and antioxidant responses in the alveolar parenchyma, bronchoalveolar lavage fluid (BALF), and pulmonary vessels were investigated. All doses of anacardic acids ameliorated antioxidant enzyme activities and decreased vascular adhesion molecule in vessels. Animals that received 50 mg/kg of anacardic acids showed decreased levels of neutrophils and tumor necrosis factor in the lungs and BALF, respectively. In summary, we demonstrated that AAs supplementation has a potential protective role on oxidative and inflammatory mechanisms in the lungs.

Intracellular mechanisms of hydroquinone toxicity on endotoxin-activated neutrophils.

Circulating neutrophils promptly react to different substances in the blood and orchestrate the beginning of the innate inflammatory response. We have shown that in vivo exposure to hydroquinone (HQ), the most oxidative compound of cigarette smoke and a toxic benzene metabolite, affects circulating neutrophils, making them unresponsive to a subsequent bacterial infection. In order to understand the action of toxic molecular mechanisms on neutrophil functions, in vitro HQ actions on pro-inflammatory mediator secretions evoked by Escherichia coli lipopolysaccharide (LPS) were investigated. Neutrophils from male Wistar rats were cultured with vehicle or HQ (5 or 10 µM; 2 h) and subsequently incubated with LPS (5 µg/ml; 18 h). Hydroquinone treatment impaired LPS-induced nitric oxide (NO), tumour necrosis factor α (TNF-α), interleukin (IL)-1ß and IL-6 secretions by neutrophils. The toxic effect was not dependent on cell death, reduced expression of the LPS receptor or toll-like receptor-4 (TLR-4) or cell priming, as HQ did not induce reactive oxygen species generation or ß(2)integrin membrane expression. The action of toxic mechanisms on cytokine secretion was dependent on reduced gene synthesis, which may be due to decreased nuclear factor κB (NF-κB) nuclear translocation. Conversely, this intracellular pathway was not involved in impaired NO production because HQ treatments only affected inducible nitric oxide synthase protein expression and activity, suggesting posttranscriptional and/or posttranslational mechanisms of action. Altogether, our data show that HQ alters the action of different LPS-activated pathways on neutrophils, which may contribute to the impaired triggering of the host innate immune reaction detected during in vivo HQ exposure.

In vivo hydroquinone exposure impairs MCP-1 secretion and monocyte recruitment into the inflamed lung.

Alveolar macrophages (AMs) are important cells in the resolution of the inflammatory process and they come into direct contact with inhaled pollutants. Hydroquinone (HQ) is an environmental pollutant and a component of cigarette smoke that causes immunosuppressive effects. In the present work, we showed that mice exposed to low levels of aerosolized HQ (25 ppm; 1 h/day/5 days) presented impaired mononuclear cell migration to the lipopolysaccharide (LPS)-inflamed lung. This may have been due to reduced monocyte chemoattractant protein-1 (MCP-1) secretion into bronchoalveolar lavage fluid (BALF), and it was not related to alterations to mononuclear cell mobilization into the blood or adhesion molecules expression on mononuclear cell membranes. Corroborating the actions of HQ on MCP-1 secretion, reduced MCP-1 concentrations were also found in the supernatant of ex vivo AM and tracheal tissue collected from HQ-exposed mice. A direct action of HQ on MCP-1 secretion, resulting from impaired gene synthesis, was verified by in vitro incubation of naive AMs or tracheal tissue with HQ. The role of reduced levels of MCP-1 in the BALF on monocyte migration was analysed in the human monocytic lineage THP-1 in in vitro chemotaxis assays, which showed that the reduced concentrations of MCP-1 found in the BALF or cell supernatants from HQ-exposed mice impaired cell migration. Considering the fact that MCP-1 presents a broad spectrum of actions on pathophysiological conditions and that resident mononuclear cells are involved in lung tissue homeostasis and in immune host defence, the mechanism of HQ toxicity presented herein might be relevant to the genesis of infectious lung diseases in smokers and in inhabitants of polluted areas.

Hydroquinone stimulates inflammatory functions in microvascular endothelial cells via NF-κB nuclear activation.

Hydroquinone impairs several leucocyte cell functions, which alter the immune response. Although endothelial cell functions are important for the development of immune responses, hydroquinone actions on endothelial cell have not been shown. Therefore, the effect of hydroquinone exposure (10 or 100 µM for 2 hr) on primary culture of microvascular endothelial cells (PMECs) obtained from the cremaster muscle of Wistar rats incubated in the presence or absence of lipopolysaccharide (LPS, 2 µg/mL) was investigated. Hydroquinone treatment induced the membrane expression of cell adhesion molecules (CAMs) from the immunoglobulin superfamilies ICAM-1 (intercellular), VCAM-1(vascular) and PECAM-1 (platelet endothelial) and induced the secretion of cytokines interleukin-1ß (IL-1ß) and tumour necrosis factor-α (TNF-α). The effects were dependent on transcriptional modifications because enhanced CAM mRNA expression as well as both cytokines and nuclear factor κB (NF-κB) nuclear activation was found. These effects may be due to the direct action of hydroquinone rather than its quinone metabolites, because endothelial cells do not present myeloperoxidase enzyme and hydroquinone incubation did not induce the expression of cytochrome P450 2E1 (CYP2E1) or prostaglandin H synthase 1. In addition, the incubation of endothelial cells with benzoquinone (10 µM, 2 hr) impaired PECAM-1 expression and did not modify NF-κB nuclear activation. Taken together, the data herein presented reveal that hydroquinone evokes pro-inflammatory properties in endothelial cells that are triggered by the enhancement of NF-κB nuclear translocation-dependent gene transcription.

In vivo hydroquinone exposure alters circulating neutrophil activities and impairs LPS-induced lung inflammation in mice.

Hydroquinone (HQ) is an environmental contaminant which causes immune toxicity. In this study, the effects of exposure to low doses of HQ on neutrophil mobilization into the LPS-inflamed lung were investigated. Male Swiss mice were exposed to aerosolized vehicle (control) or 12.5, 25 or 50ppm HQ (1h/day for 5 days). One hour later, oxidative burst, cell cycle, DNA fragmentation and adhesion molecules expressions in circulating neutrophils were determined by flow cytometry, and plasma malondialdehyde (MDA) levels were measured by HPLC. Also, 1h later the last exposures, inflammation was induced by LPS inhalation (0.1mg/ml/10min) and 3h later, the numbers of leukocytes in peripheral blood and in the bronchoalveolar lavage fluid (BALF) were determined using a Neubauer chamber and stained smears; adhesion molecules expressed on lung microvessel endothelial cells were quantified by immunohistochemistry; myeloperoxidase (MPO) activity was measured in the lung tissue by colorimetric assay; and cytokines in the BALF were determined by ELISA. In vivo HQ exposure augmented plasma MDA levels and oxidative activity of neutrophils, but did not cause alterations in cell cycle and DNA fragmentation. Under these conditions, the number of circulating leukocytes was not altered, but HQ exposure reduced LPS-induced neutrophil migration into the alveolar space, as these cells remained in the lung tissue. The impaired neutrophil migration into BALF may not be dependent on reduced cytokines secretions in the BALF and lung endothelial adhesion molecules expressions. However, HQ exposure increased the expression of ß(2) and ß(3) integrins and platelet-endothelial cell adhesion molecule-1 (PECAM-1) in neutrophils, which were not further enhanced by fMLP in vitro stimulation, indicating that HQ exposure activates circulating neutrophils, impairing further stimulatory responses. Therefore, it has been shown, for the first time, that neutrophils are target of lower levels of in vivo HQ exposure, which may be considered in host defense in infectious diseases.

Amphetamine modulates cellular recruitment and airway reactivity in a rat model of allergic lung inflammation.

Asthma is characterized by pulmonary cellular infiltration, vascular exudation and airway hyperresponsiveness. Several drugs that modify central nervous system (CNS) activity can modulate the course of asthma. Amphetamine (AMPH) is a highly abused drug that presents potent stimulating effects on the CNS and has been shown to induce behavioral, biochemical and immunological effects. The purpose of this study was to investigate the effects of AMPH on pulmonary cellular influx, vascular permeability and airway reactivity. AMPH effects on adhesion molecule expression, IL-10 and IL-4 release and mast cell degranulation were also studied. Male Wistar rats were sensitized with ovalbumin (OVA) plus alum via subcutaneous injection. One week later, the rats received another injection of OVA-alum (booster). Two weeks after this booster, the rats were subjected to AMPH treatment 12 h prior to the OVA airway challenge. In rats treated with AMPH, the OVA challenge reduced cell recruitment into the lung, the vascular permeability and the cellular expression of ICAM-1 and Mac-1. Additionally, elevated levels of IL-10 and IL-4 were found in samples of lung explants from allergic rats. AMPH treatment, in comparison, increased IL-10 levels but reduced those of IL-4 in the lung explants. Moreover, the tracheal responsiveness to methacholine (MCh), as well as to an in vitro OVA challenge, was reduced by AMPH treatment, and levels of PCA titers were not modified by the drug. Our findings suggest that single AMPH treatment down-regulates several parameters of lung inflammation, such as cellular migration, vascular permeability and tracheal responsiveness. These results also indicate that AMPH actions on allergic lung inflammation include endothelium-leukocyte interaction mechanisms, cytokine release and mast cell degranulation.

Inibição in vivo das óxido nítrico sintases: efeitos sobre a expressão de moléculas de adesão e secreção de mediadores inflamatórios / In vivo inhibition of nitric oxide synthases: effects on expressions of adhesion molecules and secretion of inflammatory mediators

Resultados preliminares do nosso grupo de pesquisa demonstraram que a inibição da síntese de NO por período de tempo prolongado reduz o recrutamento de leucócitos para focos inflamatórios, dependente, pelo menos em parte, da inibição da interação leucócito-endotélio e da expressão de L-selectina. 0 presente trabalho visou complementar os estudos sobre os mecanismos envolvidos nesta ação antiinflamatória. Para tanto, ratos Wistar machos (180 a 220g) receberam L-NAME (20mg/Kg; v.o.; 14 dias) ou água pela mesma via e período de tempo. Foi avaliada a atividade das enzimas óxido nítrico sintases (NOS) no tecido cerebral por radioimunoensaio; o recrutamento leucocitário para cavidade peritoneal induzido pelo LPS (5mg/kg, 4 horas); as expressões de moléculas de adesão em leucócitos do sangue circulante, no músculo cremaster e nos sinusóides hepáticos por ensaios de citometria de fluxo ou imunohistoquímica; as expressões gênicas de moleculas de adesão, quantificadas por PCR e a secreção/produção de mediadores inflamatórios em leucócitos por ensaios imunoenzimáticos, reacao de Griess ou quimiluminescência. Os resultados obtidos mostraram que: 1) o tratamento com L-NAME reduziu em torno de 90% a atividade das NOS dependentes de Ca+2 em condições basais ou após estimulação in vivo com LPS; 2) as concentrações de NO no plasma e no peritônio inflamado estavam reduzidos em animais tratados com L-NAME (30% vs. controles); 3) a migração de leucócitos polimorfonucleares (PMN) para o peritônio inflamado estava reduzida em animais tratados com L-NAME (40% vs. controles); 4) as expressões de L-selectina e PECAM-1 em leucócitos circulantes; de PECAM-1 no endotélio do músculo cremaster e de VAP-1 no endotélio dos sinusóides hepáticos e músculo cremaster de animais tratados com L-NAME estavam reduzidas; 5) a redução na expressão de L-selectina foi dependente de inibição de sua síntese; 6) a concentração de IL-10 estava major no soro de animais tratados com L-NAME em relação aos controles; 7) a maior concentração de IL-10 circulante pode refletir a produção desta citocina por leucócitos na circulação, uma vez que a concentração de IL-10 também estava maior no sobrenadante de leucócitos circulantes de animais tratados com L-NAME; 8) concentrações reduzidas de IL-1ß e LTB4 foram detectadas nos sobrenadantes de neutrófilos obtidos de animais tratados com L-NAME; 9) macrófagos obtidos de animais tratados com L-NAME produziram maiores concentrações de IL-1ß, TNF-α e IL-6, e menores concentrações de IL-10 na ausência de estimulação; na vigência estimulação in vitro com LPS os macrófagos de animais tratados com L-NAME produziram menores concentrações de NO. Em conjunto, os resultados obtidos neste trabalho mostram que o tratamento com L-NAME por período prolongado de tempo inibe a atividade das NOS dependentes de Ca+2 e nesta condição reduz as concentrações de NO circulante e no foco da inflamação, além de inibir a migração de leucócitos para o foco inflamatório, confirmando propriedades pro-inflamatórias do NO. Os mecanismos envolvidos na inibição da migração celular parecem compreender a modulação da expressão e/ou síntese das moléculas de adesão constitutivas expressas em leucócitos e no endotélio, além da modulação da secreção de mediadores pró ou antiinflamatórios em leucócitos circulantes e neutrófilos. Por outro lado, os efeitos do tratamento com L-NAME sobre a secreção de mediadores químicos por macrófagos induzem a secreção destes e corroboram a dualidade dos efeitos do NO no processo de recrutamento celular

Our previous results have demonstrated that in vivo chronic inhibition of nitric oxide synthesis reduces leukocyte recruitment into inflammatory focus, dependent, at least in part, on impaired leukocyte-endothelial interactions and expression of L-selectin. This study aimed to clarify the mechanisms involved in the reduced leukocyte migration observed in L-NAME-treated rats. For this purpose, male Wistar rats (180-220g) were treated with L-NAME (20 mg/kg, oral route, 14 days, dissolved in drinking water); controls animals received water by the same route and period of time. The effectiveness of L-NAME treatment was investigated by examining the activity of nitric oxide synthases (NOS) in the brain tissue using radioimmunoassay. In addition, effects of L-NAME treatment were evaluated in LPS-induced leukocyte recruitment into peritoneal cavity (5mg/kg, 4 hours); expression of adhesion molecules was determined in circulating leukocytes, cremaster muscle and liver sinusoids by flow cytometry and immunohistochemistry assay; gene expressions of adhesion molecules were quantified by PCR and leukocyte secretion of inflammatory mediators was measured by immunoenzimatics assays, Griess reaction or chemiluminescence. Our results show that: 1) L-NAME treatment reduced, around 90%, Ca+2 - dependent NOS activity in the presence or not of in vivo inflammation; 2) concentrations of NO in the plasma and into inflamed peritoneum were reduced in L-NAME-treated animals (30% vs. control animals); 3) migration of PMN leukocytes into inflammed peritoneum was impaired in L-NAME-treated rats (40% vs. control animals); 4) expressions of L-selectin and PECAM-1 in circulating leukocytes, PECAM-1 in endothelium from cremaster muscle and VAP-1 in endothelium from liver sinusoids and cremaster muscle were reduced in L-NAME-treated rats; 5) decrease in L-selectin expression was dependent on inhibition of its synthesis; 6) concentrations of IL-10 was higher in serum from L-NAME-treated rats in comparison to control rats; 7) these higher concentrations of circulating IL-10 can reflect the production of this cytokine by leukocytes from circulation, as IL-10 levels was greater in the supernatant of circulating leukocytes obtained from L-NAME-treated animals; 8) L-NAME treatment disturbed neutrophils ability to secrete IL-1ß e LTB4, since these concentrations were lower in the supernatants of neutrophils from L-NAME-treated animals; 9) in absence of stimulation, macrophages obtained from L-NAME-treated rats produced higher concentrations of IL-1ß, TNF-α e IL-6, and lower concentrations of IL-10, whereas in presence of in vitro LPS these cells produced lower concentrations of NO. Taken together, our results show that L-NAME treatment administrated for a prolonged period of time inhibits Ca+2 -dependent NOS activity, and in this condition, reduces concentrations of NO in plasma and into inflammatory focus and decreases leukocyte migration to the inflammatory focus thus confirming pro-inflammatory properties of NO. The mechanisms involved in impaired cellular migration seem to involve the modulation of expression and/or synthesis of constitutive adhesion molecules in leukocytes and endothelium, and to interfere in the secretion of pro or anti inflammatory mediators. On the other hand, actions of NO in secreation of chemical mediators by macrophages induces the production of inflammatory mediators and support the duality of NO in the cellular recruitment process