The dose-dependent immunoregulatory effects of the nitric oxide synthase inhibitor n(g)-nitro-L-arginine methyl ester in rats with sub-acute peritonitis

Background

Chronic inflammation accompanied by arginine deficiency, immune dysfunction, and excess nitric oxide (NO) production is a clinical condition found in patients with peritonitis. A previous study showed that the nonselective NOS inhibitor N^G-nitro-L-arginine methyl ester (L-NAME) may facilitate the metabolism of the immune nutrient arginine without altering NO homeostasis in rats with sub-acute peritonitis. Here, we investigated the effects of L-NAME on the immunocytic subpopulation distribution and response.

Materials and Methods

Male Wistar rats with cecal puncture-induced peritonitis were administered parenteral nutrition solutions supplemented with 0 (CPP group), 5 (LNA group), 25 (MNA group) or 50 (HNA group) mg·kg⁻¹·day⁻¹ of L-NAME for 7 days. Parenteral-fed sham-operated rats (TPN group) and orally-fed healthy rats (R group) were included as controls.

Results

The TPN group had significantly increased spleen weights and levels of plasma nitrite/nitrate (NOx), circulating white blood cells (WBC), and splenocytic T cells, as well as significantly decreased levels of cytotoxic T- and B-leukocytes and B-splenocytes compared to the R group. The CPP group had significantly decreased levels of plasma NOx and concanavalin (Con) A-stimulated interferon (IFN)-γ and interleukin (IL)-2 production by leukocytes and significantly increased production of Con A-stimulated tumor necrosis factor (TNF)-α and lipopolysaccharide (LPS)-stimulated IFN-γ in the leukocytes. In addition, the LNA and MNA groups had significantly decreased spontaneous IL-6 and Con A-stimulated TNF-α and IFN-γ production by the leukocytes while the HNA group had significantly increased LPS-stimulated TNF-α and Con A-stimulated IFN-γ and IL-2 production by the splenocytes compared to the CPP group.

Conclusions

Low-dose L-NAME infusion may suppress proinflammatory and T-helper-1 (Th1) response in leukocytes, and high-dose infusion may activate the proinflammatory response in splenic macrophages and Th1 response in T-splenocytes in rats with sub-acute peritonitis.     

Decreased leukocyte recruitment by inorganic nitrate and nitrite in microvascular inflammation and NSAID-induced intestinal injury

Nitric oxide (NO) generated by vascular NO synthases can exert anti-inflammatory effects, partly through its ability to decrease leukocyte recruitment. Inorganic nitrate and nitrite, from endogenous or dietary sources, have emerged as alternative substrates for NO formation in mammals. Bioactivation of nitrate is believed to require initial reduction to nitrite by oral commensal bacteria. Here we investigated the effects of inorganic nitrate and nitrite on leukocyte recruitment in microvascular inflammation and in NSAID-induced small-intestinal injury. We show that leukocyte emigration in response to the proinflammatory chemokine MIP-2 is reduced by 70% after 7 days of dietary nitrate supplementation as well as by acute intravenous nitrite administration. Nitrite also reduced leukocyte adhesion to a similar extent and this effect was inhibited by the soluble guanylyl cyclase inhibitor ODQ, whereas the effect on emigrated leukocytes was not altered by this treatment. Further studies in TNF-α-stimulated endothelial cells revealed that nitrite dose-dependently reduced the expression of ICAM-1. In rats and mice subjected to a challenge with diclofenac, dietary nitrate prevented the increase in myeloperoxidase and P-selectin levels in small-intestinal tissue. Antiseptic mouthwash, which eliminates oral nitrate reduction, markedly blunted the protective effect of dietary nitrate on P-selectin levels. Despite attenuation of the acute immune response, the overall ability to clear an infection with Staphylococcus aureus was not suppressed by dietary nitrate as revealed by noninvasive IVIS imaging. We conclude that dietary nitrate markedly reduces leukocyte recruitment to inflammation in a process involving attenuation of P-selectin and ICAM-1 upregulation. Bioactivation of dietary nitrate requires intermediate formation of nitrite by oral nitrate-reducing bacteria and then probably further reduction to NO and other bioactive nitrogen oxides in the tissues.     

Antihypertensive effects of onion on NO synthase inhibitor-induced hypertensive rats and spontaneously hypertensive rats

This study was designed to show the effects of onion on blood pressure in N(G)-nitro-L-arginine methyl ester (L-NAME) induced-hypertensive rats and stroke prone spontaneously hypertensive rats (SHRSP) using dried onion at 5% in their diets. For the experiment with L-NAME induced-hypertensive rats, male 6-weeks-old Sprague-Dawley rats were given tap water containing L-NAME to deliver 50 mg/kg BW/day. In this experiment, we found distinct antihypertensive effects of onion on the L-NAME induced-hypertensive rats and the SHRSP. Dietary onion decreased the thiobarbituric acid reactive substances (TBARS) in plasma in these hypertensive rats. Also, onion increased the nitrate/nitrite (products of nitric oxide (NO)) excreted in urine and the NO synthase (NOS) activity in the kidneys in SHRSP. These results suggested that the increased NO caused by the greater NOS activity, and additionally by the increased saving of NO by the antioxidative activity of onion, was one of the cause of the antihypertensive effect of onion in SHRSP. In the L-NAME induced hypertensive rats, onion did not significantly block the inhibition of NOS activity by L-NAME, and decreased nitrate/nitrite excretion in urine was not restored. The mechanism of the antihypertensive effect of onion probably involves increased saving of NO by antioxidative activity of onion in L-NAME induced-hypertensive rats.     

Effect of combination of nitric oxide synthase and cyclooxygenase inhibitors on carrageenan-induced pleurisy in rats

In the present study, we examined the effects of L-nitroarginine methylester (L-NAME), a non-selective nitric oxide synthase (NOS) inhibitor, indomethacin (IND), a non-selective COX inhibitor and a combination of these agents (L-NAME+IND) on carrageenan-induced pleurisy in rats. Exudate volume, albumin leakage, leukocyte influx, exudate and plasma nitrite/nitrate (NO(x)) levels and exudate PGE(2) levels increased markedly 6 h after an intrapleural injection of 2% carrageenan. First, the effects of L-NAME and IND alone were investigated. L-NAME non-significantly reduced exudate volume by 26% at 10 mg/kg (i.p.), and significantly by 45% at 30 mg/kg. IND dose-dependently decreased the exudate volume at 0.3-10 mg/kg (p.o.) and the effect reached the maximal level at 1 mg/kg (33%). Second, the effects of L-NAME (10 mg/kg, i.p.), IND (1 mg/kg, p.o.) and L-NAME+IND were examined. L-NAME and IND alone at the dose employed significantly reduced the exudate volume and albumin levels by 21-26%. L-NAME but not IND tended to reduce the increased exudate and plasma NO(x) by 18% and 19%, respectively. IND but not L-NAME significantly reduced leukocyte numbers and PGE(2) levels in the exudates by 25% and 77%, respectively. L-NAME+IND significantly reduced exudate volume, albumin leakage, leukocyte number, PGE(2) and NO(x) by 43%, 41%, 31%, 80% and 37%, respectively. The inhibitory effects of L-NAME+IND on exudate volume, albumin leakage and NO(x) levels were greater than those of L-NAME and IND alone. In conclusion, a non-selective NOS inhibitor and COX inhibitor showed anti-inflammatory effects at the early phase of carrageenan-induced pleurisy, and a combination of both inhibitors had a greater effect than each alone probably via the potentiation of NOS inhibition. The simultaneous inhibition of NOS and COX could be a useful approach in therapy for acute inflammation.     

Increased L-arginine uptake and inducible nitric oxide synthase activity in aortas of rats with heart failure

L-Arginine crosses the cell membrane primarily through the system y(+) transporter. The aim of this study was to investigate the role of L-arginine transport in nitric oxide (NO) production in aortas of rats with heart failure induced by myocardial infarction. Tumor necrosis factor-alpha levels in aortas of rats with heart failure were six times higher than in sham rats (P < 0.01). L-Arginine uptake was increased in aortas of rats with heart failure compared with sham rats (P < 0.01). Cationic amino acid transporter-2B and inducible (i) nitric oxide synthase (NOS) expression were increased in aortas of rats with heart failure compared with sham rats (P < 0.05). Aortic strips from rats with heart failure treated with L-arginine but not D-arginine increased NO production (P < 0.05). The effect of L-arginine on NO production was blocked by L-lysine, a basic amino acid that shares the same system y(+) transporter with L-arginine, and by the NOS inhibitor N(G)-nitro-L-arginine methyl ester (L-NAME). Treatment with L-lysine and L-NAME in vivo decreased plasma nitrate and nitrite levels in rats with heart failure (P < 0.05). Our data demonstrate that NO production is dependent on iNOS activity and L-arginine uptake and suggest that L-arginine transport plays an important role in enhanced NO production in heart failure.     

NK but not CD1-restricted NKT cells facilitate systemic inflammation during polymicrobial intra-abdominal sepsis

Evidence suggests that NK and NKT cells contribute to inflammation and mortality during septic shock caused by cecal ligation and puncture (CLP). However, the specific contributions of these cell types to the pathogenesis of CLP-induced septic shock have not been fully defined. The goal of the present study was to determine the mechanisms by which NK and NKT cells mediate the host response to CLP. Control, NK cell-deficient, and NKT cell-deficient mice underwent CLP. Survival, cytokine production, and bacterial clearance were measured. NK cell trafficking and interaction with myeloid cells was also studied. Results show that mice treated with anti-asialoGM1 (NK cell deficient) or anti-NK1.1 (NK/NKT cell deficient) show less systemic inflammation and have improved survival compared with IgG-treated controls. CD1 knockout mice (NKT cell deficient) did not demonstrate decreased cytokine production or improved survival compared with wild type mice. Trafficking studies show migration of NK cells from blood and spleen into the inflamed peritoneal cavity where they appear to facilitate the activation of peritoneal macrophages (F4-80(+)GR-1(-)) and F4-80(+)Gr-1(+) myeloid cells. These findings indicate that NK but not CD1-restricted NKT cells contribute to acute CLP-induced inflammation. NK cells appear to mediate their proinflammatory functions during septic shock, in part, by migration into the peritoneal cavity and amplification of the proinflammatory activities of specific myeloid cell populations. These findings provide new insights into the mechanisms used by NK cells to facilitate acute inflammation during septic shock.     

TEMPOL enhances the antihypertensive effects of sodium nitrite by mechanisms facilitating nitrite-derived gastric nitric oxide formation

Orally administered nitrite exerts antihypertensive effects associated with increased gastric nitric oxide (NO) formation. While reducing agents facilitate NO formation from nitrite, no previous study has examined whether antioxidants with reducing properties improve the antihypertensive responses to orally administered nitrite. We hypothesized that TEMPOL (4-hydroxy-2,2,6,6-tetramethylpiperidine-N-oxyl) could enhance the hypotensive effects of nitrite in hypertensive rats by exerting antioxidant effects (and enhancing NO bioavailability) and by promoting gastric nitrite-derived NO generation. The hypotensive effects of intravenous and oral sodium nitrite were assessed in unanesthetized freely moving rats with L-NAME (N^ω-nitro-L-arginine methyl ester; 100 mg/kg; po)-induced hypertension treated with TEMPOL (18 mg/kg; po) or vehicle. While TEMPOL exerted antioxidant effects in hypertensive rats, as revealed by lower plasma 8-isoprostane and vascular reactive oxygen species levels, this antioxidant did not affect the hypotensive responses to intravenous nitrite. Conversely, TEMPOL enhanced the dose-dependent hypotensive responses to orally administered nitrite, and this effect was associated with higher increases in plasma nitrite and lower increases in plasma nitrate concentrations. In vitro experiments using electrochemical and chemiluminescence NO detection under variable pH conditions showed that TEMPOL enhanced nitrite-derived NO formation, especially at low pH (2.0 to 4.0). TEMPOL signal evaluated by electron paramagnetic resonance decreased when nitrite was reduced to NO under acidic conditions. Consistent with these findings, increasing gastric pH with omeprazole (30 mg/kg; po) attenuated the hypotensive responses to nitrite and blunted the enhancement in plasma nitrite concentrations and hypotensive effects induced by TEMPOL. Nitrite-derived NO formation in vivo was confirmed by using the NO scavenger 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide (C-PTIO), which blunted the responses to oral nitrite. Our results showed that TEMPOL promotes nitrite reduction to NO in the stomach and enhanced plasma nitrite concentrations and the hypotensive effects of oral sodium nitrite through mechanisms critically dependent on gastric pH. Interestingly, the effects of TEMPOL on nitrite-mediated hypotension cannot be explained by increased NO formation in the stomach alone, but rather appear more directly related to increased plasma nitrite levels and reduced nitrate levels during TEMPOL treatment. This may relate to enhanced nitrite uptake or reduced nitrate formation from NO or nitrite.     

MAPK信号途径在一氧化氮抑制大鼠心肌肥大中的作用

实验观察了一氧化氮（NO）前体L－精氨酸对肾性高血压大鼠心肌组织eNOS蛋白表达及亚硝酸盐／硝酸盐含量、MKP－1蛋白表达及MAPK活性的影响,以及与心肌肥厚的关系,采用两肾一夹Goldblatt肾性高血压模型,随机分为5组：L－精氨酸高、中、低剂量组,分别于术后第5周给予L－精氨酸50、150及450mg/kg;L－NAME组,腹腔注射L－NAME 10mg/kg,同时给予L－精氨酸150mg/kg;高血压对照组,正常饮水,以及另设的一假手术对照组。用药8周后,用插管法测量大鼠动脉血压、左心室重与体重比值,用胶内原位磷酸化法测MFAPK活性、免疫印迹法检测心肌组织eNOS及MKP－1蛋白表达、酶还原法测定心肌组织亚硝酸盐／硝酸盐－硝酸盐含量。结果表明：（1）L－精氨酸可明显抑制肾动脉狭窄术后的血压升高、左心室重与体重比增加,增加心肌组织eNOS、MKP-1蛋白表达及亚硝酸盐－硝酸盐含量,降低心肌组织MAPK活性,其中以150mg/kg组作用最为明显;（2）NOS抑制剂L－NAME可明显抑制－精氨酸的以上作用,肾性高血压大鼠心肌组织eNOS蛋白表达下降。NO生成减少及MKP－1蛋白表达下降以及MAPK活性增强可能与高血压及心肌厚形成有关,L－精氨酸通过促进心肌组织eNOS蛋白表达、增加NO产生和MKP－1表达、减弱MAPK活性而发挥抗高血压及心肌肥厚的作用。     

4-Hydroxynonenal is markedly higher in patients on a standard long-term home parenteral nutrition

Parenteral nutrition, a commonly used procedure in patients with gastrointestinal disorders, may lead with time to liver steatosis and fibrosis, whose pathogenesis has yet to be elucidated. Oxidative stress and particularly lipid peroxidation likely contribute to the expression of such hepatobiliary complications, by means of their recognized proinflammatory and profibrogenic effects. To evaluate the adequacy against oxidative insult of a standard micronutrient supplementation in patients under long term parenteral nutrition, a comprehensive patterns of redox indices has been determined on peripheral blood samples from forty one adults in comparison to fifty eight blood donors taken as controls. A sustained oxidative stress in peripheral blood of home parenteral patients was observed. Of the two lipid peroxidation markers found to be markedly increased, namely fluorescent plasma protein adducts with malondialdehyde and 4-hydroxynonenal, respectively, only the second was statistically correlated with all the antioxidant-related changes consistently detected in the patients, namely decreased plasma alpha-tocopherol and selenium intake and higher erythrocyte oxidized glutathione. Plasma level of 4-hydroxynonenal-protein adducts appears to be a reliable and easily measurable marker of oxidative status, particularly indicated to monitor the adequacy of dietary regimen during parenteral nutrition.     

两种败血症休克模型大鼠心肌细胞一氧化氮合酶活性的改变

目的：观察两种败血症休克模型大鼠的血流动力学及心肌细胞一氧化氮合酶活性变化的异同,探讨一氧化氮合酶参与败血症休克性心肌抑制的机制。方法：采用注射脂多糖（LPS）诱导及盲肠结扎穿孔（CLP）致腹膜炎诱导败血症休克模型,测定血流动力学指标以及心肌细胞胞浆一氧化氮合酶（NOS）活性。结果：①CLP模型大鼠的血流动力学指标随时间呈先上升后下降的趋势,LPS模型直接表现为类似于CLP模型晚期的动力学状态。在使用NOS抑制剂N-硝基-L精氨酸甲酯（L-NAME）后,CLP模型晚期及LPS模型的心室动力学指标均有明显改善。②CLP模型大鼠心肌细胞胞浆NOS活性在败血症中期达到最大。与假手术组相比,LPS模型、CLP模型晚期心肌细胞胞浆NOS活性均有明显增加,但是LPS模型与CLP模型晚期两组之间无明显差异。③使用L-NAME后,CLP晚期组与LPS组亚硝基及硝基化合物生成量均明显降低（P〈0.01）。其中,LPS组与CLP晚期组相比,前者固定表达型NOS生成亚硝基及硝基化合物生成量明显高于后者（P〈0．01）。结论：在LPS与CLP诱导的败血症休克模型中,心肌NOS是引起心室动力学变化的主要因素;在两种模型,心肌NOS亚型的表达不同,在LPS模型中主要为iNOS,而在CLP模型中则可能是cNOS和iNOS共同发挥作用。     

Ventricular hypertrophy and arterial hemodynamics following deprivation of nitric oxide in rats

In the present study, we elucidated the possible role of hemodynamic parameters and chemical factors in the development of ventricular hypertrophy (VH) following chronic nitric oxide (NO) deprivation with Nomega-nitro-L-arginine methyl ester (L-NAME). Impedance spectral analysis was used to obtain the arterial hemodynamics including the steady and pulsatile components. Body weight (BW), left ventricular (LV) weight (LVW), LVW/BW ratio, LV collagen volume fraction (LVCVF), cyclic GMP, and nitrite/nitrate were measured. The extent of VH was evaluated by the LW/BW, total number, numerical density, and size of cardiomyocytes. Sprague-Dawley rats were given L-NAME 10, 20, and 40 mg/kg/day from the age of 10 to 18 weeks. Control and age-matched rats were given vehicle for the same period. Treatment of L-NAME for 8 weeks caused a dose-dependent increase in tail cuff pressure and a reduction in BW with increases in LVW, LVW/BW, number, numerical density, and size of myocytes. There was elevation of aortic pressure with decreases in cardiac output, and arterial compliance. The total peripheral resistance, characteristic impedance and pulse wave reflection were increased. Histological finding revealed severe myocardial hypertrophy and fibrosis with fibroblast infiltration. The LVCVF was increased, while LV cGMP and nitrite/nitrate were reduced in a dose-dependent manner. The results suggest that chronic NOS blockade causes hypertension, impairment of large vessel properties, and VH. The development of VH may result partly from the decreases in cGMP and nitrite/nitrate in the ventricle. Correlation analysis indicates that the extent of VH is equally related to the steady and pulsatile hemodynamics.     

集胞藻PCC 6803高产精氨酸藻株的紫外诱变选育

精氨酸在医药和食品工业上具有广泛用途。集胞藻PCC 6803是单细胞蓝藻, 能利用工业废气(主要成分是氮氧化物NO_x)与水反应生成的硝酸盐和亚硝酸盐合成氨基酸等化合物, 因而选育高产精氨酸藻株, 不仅能提高精氨酸产量, 而且能去除工业废气中的NO_x, 具有潜在的应用前景。研究在集胞藻PCC 6803中利用紫外诱变, 筛选抗0.8 g/L D-精氨酸和抗0.2 g/L 6-氮尿嘧啶的突变株, 选育到了一株精氨酸产量显著提高的突变株#13807-111-55, 它每OD₇₃₀值细胞的胞外精氨酸产量相比出发株提高了62.3倍, 达到(0.76±0.1) mg/(L·OD₇₃₀), 总精氨酸产量相比出发株提高了6.0倍, 达到(0.82±0.08) mg/(L·OD₇₃₀)。该突变株每OD₇₃₀值细胞的胞外精氨酸产量明显高于胞内, 表明该突变藻株是精氨酸分泌型, 因而具有潜在的应用前景。     

Sex differences in modulating blood brain barrier permeability by NO in pentylenetetrazol-induced epileptic seizures

Susceptibility to epilepsy as well as BBB dysfunction in some pathological conditions varies depending on sex difference. It has recently been shown that systemically given NO donor and antagonists modify the nature of seizures induced by PTZ (pentylenetetrazol) differently in male and female rats. This study investigates the role of NO on BBB permeability in PTZ seizures with sex differences using NO donor, sodium nitroprusside (SNP), and NOS inhibitor, NG-nitro-L-arginine methyl ester (L-NAME). Nitrite+nitrate levels as indices of NO generation in the brain were also assessed. L-NAME prolonged seizure latency in male rats, seizure intensity and seizure duration were lessened. L-NAME depicted opposite effects in seizure nature in female rats. SNP prolonged seizure latency, while seizure intensity and duration were lessened only in female rats. L-NAME in male rats increased L-NAME use in female rats (not in male rats) which resulted in a more leaky BBB especially in midbrain, thalamus, hippocampus, corpus striatum and cerebellum whereas SNP use in male rats and not in female rats resulted in pronounced BBB opening in all brain regions studied than PTZ per se. L-NAME while decreasing nitrite+nitrate levels in male rat brains, acted in an opposite fashion in females. SNP use depicted an inverse picture with respect to L-NAME, with an opposite action in different sexes. This study reveals that NO effect on BBB in PTZ-induced seizures depends unequivocally on sex difference. The sex-dependent action of NO in seizures and in CNS pathologies warrants further investigation.     

Nitrate reductase alters 3-nitrotyrosine accumulation and cell cycle progression in LPS + IFN-gamma-stimulated RAW 264.7 cells.

Nitrite (NO2-), an end product of nitrogen radical metabolism, has recently been shown to increase tyrosine nitration by activated leukocytes indicating that nitrite modulates the immune response. We investigated the hypothesis that nitrite may increase nitration of molecular targets within activated cells leading to altered cell cycle progression. Intracellular nitrite was increased by transfection of murine macrophage-like RAW 264.7 cells with the nitrate reductase gene obtained from barley. Nitrate reductase facilitates the conversion of nitrate to nitrite; thus when extracellular nitrate is present, intracellular nitrite will be increased. Results show that addition of KNO3 increases NO2- production and intracellular nitrotyrosine accumulation in the transfectant but not the parent. Inhibition of nitric oxide synthesis with L-NAME during activation with IFN-gamma + LPS reduced NO2- production to the same extent in both cell lines; however, cellular accumulation of nitrotyrosine was reduced by only 25% in the transfectant (P = 0.21) and 49% in the parent cell line (P = 0.007), suggesting that intracellular nitrite increased nitrotyrosine accumulation through a pathway not requiring NO synthesis, i.e., myeloperoxidase system. Approximately 15% of the transfected cells had 4n DNA content 24 h postactivation compared to < 1% of the parent cells. Increased DNA copy number was correlated to nitrotyrosine accumulation. These findings show that intracellular nitrite can increase accumulation of nitrotyrosine and that nitration is linked to cell cycle perturbation.     

Streptozotocin-pancreatic damage in the rat: modulatory effect of 15-deoxy delta12,14-prostaglandin j(2) on nitridergic and prostanoid pathway.

15-deoxy-delta (12,14)prostaglandin J(2) (15d-PGJ(2)) has been identified as a natural ligand of the PPARgamma subtype. PPAR activation in nonadipose tissues seems to inhibit iNOS and COX2 expression. Vasoactive compounds like nitric oxide and prostaglandins are increased in pancreatic tissue from streptozotocin-diabetic rats. We hypothesize that 15d-PGJ(2) may regulate the production of these proinflammatory compounds that lead to beta cell destruction in the diabetic pathology. In this work we evaluated Ca(2+)-dependent (cNOS) and Ca(2+)-independent (iNOS) activity, nitrate/nitrite levels, 15-dPGJ(2) and prostaglandin E(2) (PGE(2)) levels in isolated pancreatic islets, and 15d-PGJ(2) levels in plasma from control and streptozotocin-diabetic rats. Our results show that cNOS is predominant in control, while iNOS isoform is increased in the diabetic islets (P < 0.01). 15d-PGJ(2) 10(-5)M inhibits cNOS and iNOS activity both in control and diabetic islets (P < 0.05). Nitrate/nitrite and PGE(2) levels are higher in diabetic than in control islets (P < 0.05 and P < 0.01, respectively). 15d-PGJ(2) 10(-5)M decreases nitrate/nitrite and PGE(2) levels both in control and in diabetic islets. Bisphenol A diglycidyl ether (BADGE), a recently described PPARgamma antagonist, seems to act as a PPARgamma agonist, diminishing nitrate/nitrite and PGE2 levels in control and diabetic islets. 15d-PGJ(2) production is lower in islets from diabetic animals compared to control (P < 0.05). Our observations suggest that 15d-PGJ(2) is able to diminish the production of vasoactive proinflammatory agents in pancreatic islets. The diminished 15d-PGJ(2) levels in the diabetic islets are probably related to the diminished capacity to limit the inflammatory response due to experimental diabetes in the rat.     

No effect of short-term arginine supplementation on nitric oxide production, metabolism and performance in intermittent exercise in athletes

Arginine supplementation has been shown to alleviate endothelial dysfunction and improve exercise performance through increasing nitric oxide production in patients with cardiopulmonary diseases. In addition, arginine supplementation could decrease accumulations of lactate and ammonia, metabolites involved in development of muscular fatigue. The aim of this study was to investigate the effect of short-term arginine supplementation on performance in intermittent anaerobic exercise and the underlying mechanism in well-trained male athletes. Ten elite male college judo athletes participated with a randomized crossover, placebo-controlled design. The subjects consumed 6 g/day arginine (ARG trial) or placebo (CON trial) for 3 days then performed an intermittent anaerobic exercise test on a cycle ergometer. Blood samples were collected before supplementation, before and during exercise and 0, 3, 6, 10, 30 and 60 min after exercise. ARG trial had significantly higher arginine concentrations than CON trial at the same time point before, during and after exercise. In both trials, nitrate and nitrite concentration was significantly higher during and 6 min after exercise comparing to the basal concentration. The increase in nitrate and nitrite concentration during exercise in both trials was parallel to the increase in plasma citrulline concentrations. There was no significant difference between the 2 trials in plasma nitrate and nitrite, lactate and ammonia concentrations and peak and average power in the exercise. The results of this study suggested that short-term arginine supplementation had no effect on nitric oxide production, lactate and ammonia metabolism and performance in intermittent anaerobic exercise in well-trained male athletes.     

Erythropoietin decreases cytotoxicity and nitric oxide formation induced by inflammatory stimuli in rat oligodendrocytes

In the present study, we investigated whether erythropoietin (Epo) has a protective effect against cytotoxicity induced by interferon-gamma (IFN-gamma ) and lipopolysaccharide (LPS) in primary rat oligodendrocyte cultures. The possible modulatory effect of erythropoietin on inducible nitric oxide synthase (iNOS) mRNA expression and nitrite production were also analyzed. Erythropoietin exerted a significant protective effect against IFN-gamma and LPS-induced oligodendrocyte injury as determined by lactate dehydrogenase assay. Treatment with erythropoietin inhibited the expression of iNOS mRNA and nitrite production resulting from proinflammatory stimulation by IFN-gamma and LPS. These results suggest that erythropoietin has protective effects against inflammatory oligodendrocyte injury in vitro and may play a protective role in neurological disorders characterized by oligodendrocyte death, such as multiple sclerosis.