Nitric oxide synthase is present in the cerebrospinal fluid of patients with active multiple sclerosis and is associated with increases in cerebrospinal fluid protein nitrotyrosine and S-nitrosothiols and with changes in glutathione levels

Nitric oxide (NO) is hypothesized to play a role in the immunopathogenesis of multiple sclerosis (MS). Increased levels of NO metabolites have been found in patients with MS. Peroxynitrite, generated by the reaction of NO with superoxide at sites of inflammation, is a strong oxidant capable of damaging tissues and cells. Inducible NO synthase (iNOS) is up-regulated in the CNS of animals with experimental allergic encephalomyelitis (EAE) and in patients with MS. In this study, Western blots of cerebrospinal fluid (CSF) from patients with MS demonstrated the presence of iNOS, which was absent in CSF from control subjects. There was also NOS activity present in both MS and control CSF. Total NOS activity was increased (by 24%) in the CSF from MS patients compared with matched controls. The addition of 0.1 mM ITU (a specific iNOS inhibitor) to the samples did not change the activity of the control samples but decreased the NOS activity in the MS samples to almost control levels. The addition of 1 mM L-NMMA (a nonisoform specific NOS inhibitor), completely inhibited NOS activity in CSF from control and MS subjects. Nitrotyrosine immunostaining of CSF proteins was detectable in controls but was greatly increased in MS samples. There were also significant increases in CSF nitrate + nitrite and oxidant-enhanced luminescence in MS samples compared with controls. Additionally, a significant decrease in reduced glutathione and significant increases in oxidized glutathione and S-nitrosothiols were found in MS samples compared with controls. Parallel changes in NO metabolites were observed in the plasma of MS patients, compared with controls, and accompanied a significant increase of reduced glutathione. These data strongly support a role for nitrosative stress in the pathogenesis of MS and indicate that therapeutic strategies focussed on decreasing production of NO by iNOS and/or scavenging peroxynitrite may be useful in alleviating the neurological impairments that occur during MS relapse.

Oxidant and antioxidant activities in childhood meningitis

Animal studies have provided substantial evidence for a key role of reactive oxygen species, nitric oxide and its related compounds in the complex pathophysiology of bacterial meningitis. However, there is little information on changes in the redox status in human meningitis. In the present study, we evaluated the redox status and oxidative stress in the central nervous system of children with meningitis. Oxidant and antioxidant activities were assessed from cerebrospinal fluid levels of acrolein-lysine adducts (a marker of lipid peroxidation), nitrite (a marker of nitric oxide production) and bilirubin derivatives (a marker of antioxidant activity of bilirubin). All these markers were several times higher in children during the early phase of bacterial meningitis compared with those of children without meningitis and patients with aseptic meningitis. In the bacterial meningitis group, the levels of bilirubin derivatives correlated significantly with those of acrolein-lysine adducts and nitrite. Acrolein-lysine adducts and nitrite decreased significantly as the patients started to respond to treatment but bilirubin derivatives remained elevated. In conclusion, our data indicate the enhancement of both oxidant and antioxidant activities in the central nervous system of children with early bacterial meningitis, but not in those with aseptic meningitis. Clinical and laboratory improvement may be associated with a decrease in oxidant activities in the central nervous system.

Interleukin-1beta, tumor necrosis factor-alpha, and nitrite levels in febrile seizures

Proinflammatory cytokines (such as interleukin-1beta, tumor necrosis factor-alpha) and nitric oxide are known to have both direct and indirect modulating effects on neurons and neurotoxic neurotransmitters released during excitation or inflammation. We measured interleukin-1beta, tumor necrosis factor-alpha, and nitrite levels in the peripheral blood and cerebrospinal fluid of children with febrile seizures and compared our results with those of children with febrile illnesses without seizures. Twenty-nine children with febrile seizure and 15 controls were studied. The mean concentrations of interleukin-1beta and nitrite were significantly increased in the cerebrospinal fluid (P < .01) of the children with febrile seizure. There were no significant changes in serum interleukin-1beta, tumor necrosis factor-alpha, nitrite, and cerebrospinal fluid tumor necrosis factor-alpha levels. Our data support the hypothesis that increased production of interleukin-1beta in the central nervous system or increased diffusion of interleukin-1beta through the blood-brain barrier is involved in the pathogenesis of febrile seizures.

Nitric oxide metabolites and interleukin-6 in cerebrospinal fluid from multiple sclerosis patients

Interleukin-6 (IL-6) and nitric oxide (NO) are implicated in the pathology of multiple sclerosis (MS). We have investigated the levels of these mediators in the cerebrospinal fluid (CSF) from 50 patients with MS and 23 control subjects. Mean CSF IL-6 level was higher in the total MS group in comparison with controls, but not significantly, whilst the difference between patients with stable MS and controls reached the level of statistical significance. Mean CSF nitrite/nitrate level was significantly higher in the total MS group compared with the control group, as well as in active MS patients versus controls. There was significant difference neither in the mean CSF IL-6 nor in nitrite/nitrate levels between active and stable MS patients. Interestingly, we observed a significant negative correlation between IL-6 and nitrite/nitrate levels in the CSF in the total MS group. Such a trend existed in both subgroups with active and stable MS, but without reaching the level of statistical significance. Our data further support the involvement of IL-6 and NO in ongoing pathological processes in MS, suggesting their potential interplay within the central nervous system in this disease.

Reduced nitric oxide metabolites in CSF of patients with tetrahydrobiopterin deficiency

We investigated CSF concentrations of nitrite and nitrate as indicators of nitric oxide (NO) production in patients with tetrahydrobiopterin (BH4) deficiencies. Patients with 6-pyruvoyl-tetrahydropterin synthase, sepiapterin reductase and dihydropteridine reductase deficiencies exhibited decreased CSF nitrite + nitrate levels compared with healthy control subjects. Reduced levels of nitrite + nitrate were not influenced by oral administration of 2.5-5.0 mg/kg tetrahydrobiopterin. Our data indicate impaired NO synthase function in patients with BH4 deficiency and suggest possible involvement in the neuronal cell dysfunction.

Nitric oxide (NO) metabolism in the cerebrospinal fluid of patients with severe head injury. Inflammation as a possible cause of elevated no metabolites

BACKGROUND

This article investigates nitric oxide (NO) metabolism following severe head injury (SHI). We wished to clarify the alterations of NO metabolism end products that is associated with SHI, and to delineate the role of inflammation in this process.

METHODS

In a prospective study, we simultaneously measured the concentrations of NO metabolites and interleukin-8 (IL-8) in the ventricular cerebrospinal fluid (CSF) of 11 patients who had suffered SHI. The CSF concentrations of nitrite (NO(-)(2)) and nitrate (NO(-)(3)) combined, and of IL-8 were measured during the following four time periods post-trauma: 6 to 10, 20 to 28, 40 to 56, and 64 to 74 hours. Levels were measured using the corresponding kits.

RESULTS

Compared to the ventricular CSF control values, all of our SHI patients had significantly elevated CSF levels of NO(-)(2) plus NO(-)(3) (NO(-)(2) + NO(-)(3)) and IL-8 during all periods tested. CSF NO(-)(2) + NO(-)(3) and IL-8 concentrations reached their maximums simultaneously at 20 to 28 hours following trauma (Spearman's rank correlation = 0.609, p < 0.05), and NO(-)(2) + NO(-)(3) levels were significantly higher than those measured at 6 to 10, 40 to 56, and 64 to 74 hours. [Nitrite-nitrate concentrations: 6-10 hours: 19.22 +/- 6.75, 20-28 hours: 25 +/- 6.2 micromol/l, 40-56 hours: 19.82 +/- 4.47, and 64-74 hours: 19.72 +/- 4.61 micromol/l, (p < 0.05). IL-8 concentrations: 6-10 hours: 3,232 +/- 2,976.2, 20-28 hours: 3,458.45 +/- 3,048 pg/mL, 40-56 hours: 2,616.41 +/- 2,539.21, 64-74 hours: 1,388.88 +/- 1,216.7 pg/mL, (p < 0.001).]. This simultaneous surge in NO(-)(2) + NO(-)(3) and IL-8 in the initial 24 hours post-traumatic indicated that inflammation secondary to SHI increased the rate of NO metabolism, resulting in higher levels of metabolites in the CSF.

CONCLUSION

In patients with SHI, CSF concentrations of the dominant metabolites of NO are elevated in the first 3 days after trauma. A similar concurrent spike in the CSF level of IL-8, a marker of acute inflammatory response, can also be demonstrated. These data indicate that the predominant cause of the higher CSF NO(-)(2) + NO(-)(3) concentrations observed in SHI is most likely inflammation.

Serum and cerebrospinal fluid nitrite and nitrate levels in relapsing-remitting and secondary progressive multiple sclerosis patients

Nitric oxide (NO) has been implicated in immune mediated cellular cytotoxicity and inflammatory processes including multiple sclerosis (MS). We aimed to assess NO production in MS patients and to delineate its involvement in different stages. The stable end-products of NO; nitrite(NO2-) and nitrate(NO3-) were analysed both in serum and CSF (cerebrospinal fluid) of patients with MS and non-inflammatory neurological diseases. Nitrite levels were quantified by calorimetric assay based on the Griess reaction. Nitrate levels were examined spectrophotometrically. MS patients exhibited significantly increased serum and CSF levels of NO2-+NO3- compared with the control subjects. CSF NO2-+NO3- levels were raised significantly in MS patients with both relapsing remitting (RR) and secondary progressive (SP) course. There was no significant difference between RR and SP MS patients with regard to NO metabolites. No significant correlation was found between NO metabolites and disability score, disease progression index, MRI (magnetic resonance imaging) activity and development of cortical atrophy on MRI. This study provides further evidence for excessive NO production both in CSF and peripheral blood of MS patients. Excessive CSF NO2-+NO3- levels being more increased than the levels in sera supports pathological inflammatory process within CNS (central nervous system) in both stages of MS. Another implication for the role of NO and INOS inhibitors in the treatment of MS patients with both RR and SP courses was also suggested.

Increased nitric oxide products in CSF in primary progressive MS may reflect brain atrophy

Because nitric oxide (NO) is a putative mediator of oligodendrocyte damage in the primary progressive form of MS (PPMS), the authors analyzed the levels of NO oxidation products in CSF and plasma from 25 patients with PPMS and 15 controls. The levels of nitrite + nitrate (NOx) in CSF were fourfold higher in patients with PPMS than in controls (p < 0.001), whereas the concentrations in plasma were similar. These data suggests involvement of NO in nervous tissue damage in PPMS.

High constitutional nitrate status in young cattle

Nitrate or nitrite can be ingested or endogenously produced from nitric oxide. They can cause intoxication and are of general concern for health because they relate to various diseases. Our goal was to study ontogenetic and nutritional effects on the nitrate+nitrite (NOx-) status in cattle, particularly calves. NOx- concentration in blood plasma, cerebrospinal fluid, saliva, and urine was measured based on nitrate conversion by added nitrate reductase to nitrite, which was then determined by the Griess reaction. Concentrations of nitrate were the result of the difference between NOx- and nitrite values. Nitrate in blood plasma, saliva and urine was > or =97% and in cerebrospinal fluid of calves was approximately 35% of NOx-. Preprandial plasma NOx- in calves born after shortened or normal lengths of pregnancy (277 and 290 days) was 470 and 830 micromol/l, respectively, decreased within 4-7 days to 40-60 micromol/l, remained in this range up to 4 months, was < or =5 micromol/l in heifers and no longer measurable in 3-8-year-old cows. Cerebrospinal NOx- in 8-day-old calves was 14 micromol/l and approximately 11-fold lower than in blood plasma. Salivary NOx- decreased postnatally from 600 to 200 micromol/l at 2 days and to 25 micromol/l at 4 weeks. Urinary NOx- excretion decreased from 125 or 16 micromol/l per kg x 24 h in 5-day-old calves to 45 or 8 micromol/kg x 24 h between 10 and 115 days of life and was undetectable in urine of heifers and cows. Feeding neonatal calves no or variable amounts of colostrum, delaying colostrum intake by 24 h after birth or feeding at different feeding intensity had no effect on the NOx- status. In conclusion, the high plasma, salivary and urinary NOx- concentrations especially in newborn calves, ingesting but insignificant amounts of nitrite or nitrate, indicated marked endogenous formation of nitrate, which decreased with age. The high nitrate status may contribute to enhanced susceptibility of young calves to exogenous nitrite+nitrite ingestion.

Nitric oxide metabolites, nitrates and nitrites in the cerebrospinal fluid in children with west syndrome

Nitric oxide (NO) has been implicated in the mediation of the neuronal excitotoxic cascade. In order to estimate brain NO production, cerebrospinal fluid (CSF) levels of NO metabolites, nitrates and nitrites (NN(x)) were measured in 31 children with west syndrome (WS) and in 12 controls. There was no age-related change in the NN(x) levels during the first year of life. The mean of the NN(x) levels was significantly higher in patients with WS than in controls (8.43 vs. 5.27 microM; P=0.01). Analysis of the etiological subgroups showed that the patients with a symptomatic etiology of WS had significantly higher NN(x) levels than controls (P<0.005) or than the patients with a cryptogenic etiology. The cryptogenic cases, in turn, did not differ from the controls (P=0.48). Levels of NN(x) were also significantly higher in children with focal brain abnormalities (infarction, atrophy or previous infection) than in those with other abnormalities or with normal neuroradiological findings (P<0.005). No correlation was found between the NN(x) levels and the duration of the symptoms, while paired samples obtained from eight children with WS showed that the NN(x) levels rose significantly (P=0.02) within the first 40 days of symptoms. The levels of NN(x) did not correlate with the CSF levels of neuronal growth factor or with the later decline in mental performance. This study demonstrates that the production of NO can be measured in human epileptic conditions and supports the idea gained from experimental studies that NO is involved in the pathophysiology of epilepsy. However, normal levels of NN(x) in patients with cryptogenic infantile spasms suggest that an increase in NO production be due to the concomitant neuronal damage rather than seizure activity per se. The findings suggest that there are no age-related changes in the NN(x) levels during the first year of life, and that children with symptomatic WS have elevated levels of NN(x), which rise during the first 40 days of symptoms. Although the NN(x) levels cannot be used to estimate the duration of symptoms or to predict the prognosis of mental development, they may support the differentiation of symptomatic from cryptogenic etiologies of WS.

Nitric oxide production during bacterial and viral meningitis in children

Nitric oxide is very likely to play a role in physiopathological mechanisms of bacterial meningitis. As shown by in vitro studies, nitric oxide is toxic to endothelial cells, as well as to neurones, and thus may be responsible for neurological sequelae in bacterial meningitis. Increased level of nitric oxide can also inhibit mitochondrial respiration, enhancing anaerobic glycolysis. Twenty-seven children with documented bacterial meningitis, 73 with viral (mumps and enteroviral) meningitis, and 51 controls were studied. All children with bacterial meningitis were given cefotaxime (200 mg/kg per day). Glucose and protein concentrations and cerebrospinal fluid cell counts were determined routinely, as well as nitrite and nitrate levels. The levels of nitrite and nitrate in cerebrospinal fluid on admission were higher in patients with bacterial meningitis than in controls or in children with viral meningitis. In 10 patients, dexamethasone therapy (0.4 mg/kg every 12 h for 2 days) was started about 10 min before the first antibiotic dose. A significantly lower nitrite concentration was observed after 24-48 h of treatment compared with non-steroid-treated patients. Significant positive correlations between the nitrite and granulocyte counts and the protein concentration in cerebrospinal fluid were found in all patients with meningitis. Increased nitric oxide production in cerebrospinal fluid during the acute phase of bacterial meningitis may result from the inflammatory process and tissue injury. Dexamethasone administered before the first parenteral antibiotic dose seems to reduce nitric oxide production in the cerebrospinal fluid during bacterial meningitis.

Raised cerebrospinal fluid nitrite and nitrate levels in patients with multiple sclerosis: no correlation with disease activity

A growing body of evidence implicates excessive generation of nitric oxide (NO) within the central nervous system (CNS) in multiple sclerosis (MS). The aim of our study is to analyse nitrite and nitrate as end products of NO in the cerebrospinal fluid (CSF) from MS patients and correlate the concentrations with clinicol characteristics of the disease. CSF nitrite and nitrate concentrations were measured after reduction of nitrate, by Griess reaction, in 105 MS potients, 27 patients with non-inflammatory neurological disorders (NIND) and 13 individuals without neurological disorder (Co). Mean CSF nitrite and nitrate concentrations were significantly higher in patients with MS and NIND compared with the Co patients (9.44 and 8.68, respectively, versus 6.85 microM; P=0.0001 and P=0.031, respectively). There was no significant correlation between CSF nitrite and nitrate concentrations and activity, phase, severity and duration of MS. Our data are in agreement with the results of previous studies which have demonstrated raised concentrations of CSF NO metabolites in MS patients, providing further evidence for NO involvement in MS. The lack of correlation between NO metabolites and disease activity speaks in favour of the possible dual role of NO, as both immunoregulatory and pro-inflammatory molecule, in the pathogenesis of MS.

Cerebrospinal fluid and plasma concentrations of nitric oxide metabolites in postoperative patients with subarachnoid hemorrhage

OBJECTIVE

To measure cerebrospinal fluid and plasma concentrations of nitrate and nitrite as indicators of nitric oxide production in adults after subarachnoid hemorrhage (SAH).

DESIGN

A prospective, clinical study.

SETTING

Multidisciplinary intensive care unit.

PATIENTS

Nine patients (three males and six females, aged 29-64 yrs) with aneurysm-induced SAH were studied. Glasgow Coma Scale score on admission ranged from 9 to 15. Ruptured aneurysms were clipped within 72 hrs of ictus, and then conventional hypervolemic, hemodilution, and induced hypertension methods were applied.

INTERVENTIONS

None.

MEASUREMENTS AND MAIN RESULTS

Nitrate and nitrite concentrations of patients were examined sequentially by a capillary zone electrophoresis every day for 13 days. As a control group, cerebrospinal fluid was sampled from patients (n = 9, six males and three females, aged 30-60 yrs) without neurologic disorders who underwent spinal taps for spinal anesthesia, and plasma from healthy human volunteers (n = 43, 21 males and 22 females, aged 23-49 yrs). There were no significant differences over time in cerebrospinal fluid nitrate concentrations after SAH. Concentrations of cerebrospinal fluid nitrate after SAH were increased compared with control values. Plasma nitrate concentration was decreased compared with control values, but the value on day 14 was increased significantly (p < .05) compared with those during days 2-11. Plasma and cerebrospinal fluid nitrite concentrations after SAH were similar to those in control subjects. Similar concentrations of nitric oxide metabolite in plasma and cerebrospinal fluid were observed between the patients with and without symptomatic vasospasm.

CONCLUSION

The increase of cerebrospinal fluid nitrate after SAH may attribute to the endogenous nitric oxide production in the injured brain.

Increased cerebrospinal fluid and serum nitrite and nitrate levels in amyotrophic lateral sclerosis

Abnormal glutamate metabolism is implied in the pathogenesis of Amyotrophic Lateral Sclerosis (ALS) and cerebrospinal fluid (CSF) glutamate levels appear to be elevated. Since nitric oxide (NO) inhibits glutamate transport, excessive amounts of nitric oxide could underlie the glutamate induced neurotoxicity in ALS. Stable metabolites of NO (NO2- + NO3-) levels were determined in serum and CSF of sporadic ALS patients and control subjects. NO2- + NO3- levels were higher in ALS, in males and in serum samples compared to controls, females and CSF, respectively. Furthermore, while the difference between serum and CSF NO2- + NO3- levels was significant in males (higher in serum) no such difference was observed in females. Our results suggest that nitric oxide may be involved in the pathogenesis of ALS directly or indirectly and in a sexually dimorphic manner.

Mercaptoethylguanidine attenuates inflammation in bacterial meningitis in rabbits

Reactive oxygen and nitrogen species participate in the inflammatory process during meningitis. Among them, superoxide, nitric oxide (NO), and their reaction product peroxynitrite exert cytotoxic effects. Mercaptoethylguanidine (MEG) exerts beneficial effects in in vivo inflammatory conditions by scavenging peroxynitrite and inhibiting the inducible NO synthase. This study was designed to investigate whether MEG may attenuate inflammation and brain injury in experimental meningitis. Meningitis increased nitrite/nitrate, and protein content in the cerebrospinal fluid (CSF). In the brain tissue high levels of malondialdehyde and formation of nitrotyrosine indicated lipid peroxidation and nitrosative stress, respectively. Myeloperoxidase activity was increased indicating accumulation of neutrophils into the brain parenchyma. Treatment with MEG decreased nitrite/nitrate levels whereas it did not affect the bacterial clearance from the CSF. Furthermore, treatment with MEG markedly reduced brain tissue levels of myeloperoxidase and malondialdehyde. These data demonstrate that MEG could have a therapeutic role in meningitis.

Markedly elevated nitrate/nitrite levels in the cerebrospinal fluid of children with progressive encephalopathy with edema, hypsarrhythmia, and optic atrophy (PEHO syndrome)

PURPOSE

To compare the levels of brain nitric oxide production in patients with PEHO or PEHO-like syndrome and in controls with other neurologic disease.

METHODS

Nitric oxide metabolites, nitrates, and nitrites (NNx), were measured in the cerebrospinal fluid (CSF) of children with PEHO syndrome or PEHO-like syndrome, and in controls with other neurologic diseases.

RESULTS

The NNx levels were markedly higher in both PEHO (mean, 48 microM; p < 0.001) and PEHO-like (22 microM; p < 0.003) patients as compared with the controls (6 microM), but did not correlate with age or with brain atrophy or CSF levels of insulin-like growth factor-1 (IGF-1).

CONCLUSIONS

Our findings suggest that in PEHO syndrome, production of nitric oxide is markedly increased, suggesting that nitric oxide is involved in the pathologic phenomena (i.e., seizures and neurodegeneration) of the disease.

Migraine, but not subarachnoid hemorrhage, is associated with differentially increased NPY-like immunoreactivity in the CSF

To test whether migraine and subarachnoid hemorrhage (SAH) are associated with increased sympathetic tone, we compared the neuropeptide Y-like (NPY-LI) and chromogranin A-like immunoreactivities (LI) of cerebrospinal fluid (CSF) from migraneurs and SAH patients with those from control subjects. Increased sympathetic tone was expected to produce higher co-release of these co-stored peptides and concordant changes in their CSF levels. In addition, we investigated a possible disturbed nitric oxide homeostasis by measuring CSF nitrites (NO). More than 70% of CSF NPY-LI corresponded to the chromatographic peak (HPLC) for the intact molecule in all three groups. Migraneurs had 64% higher CSF NPY-LI, but no significant difference in CSF chromogranin A-LI, as compared to controls. In contrast, SAH patients had 74% less CSF chromogranin A-LI and a trend to lower NPY-LI, as compared to controls. No differences in CSF NO were detected among groups. These results argue against an increased sympathetic tone in patients with either migraine or SAH, and suggest that the higher CSF NPY-LI of migraneurs probably originates from central neurons. Furthermore, our findings in SAH patients argue in favor of a decreased sympathetic tone; this could be a homeostatic response to counterbalance vasoconstriction mediated by other mechanisms.

Cerebrospinal fluid studies in children with cerebral malaria: an excitotoxic mechanism?

The pathogenesis of cerebral malaria is poorly understood. One hypothesis is that activation of microglia and astrocytes in the brain might cause the cerebral symptoms by excitotoxic mechanisms. Cerebrospinal fluid was sampled in 97 Kenyan children with cerebral malaria, 85% within 48 hr of admission. When compared with an age-matched reference range, there were large increases in concentrations of the excitotoxin quinolinic acid (geometric mean ratio cerebral malaria/reference population [95% confidence limits] = 14.1 [9.8-20.4], P < 0.001) and total neopterin (10.9 [9.1-13.0], P < 0.001) and lesser increases in tetra-hydrobiopterin, di-hydrobiopterin, and 5-hydroxyindoleacetic acid. There was no change in tryptophan concentration. In contrast, nitrate plus nitrite concentrations were decreased (geometric mean ratio = 0.45 [0.35-0.59], P < 0.001). There was a graded increment in quinolinic acid concentration across outcome groups of increasing severity. The increased concentration of quinolinic acid suggests that excitotoxic mechanisms may contribute to the pathogenesis of cerebral malaria.

Nitric oxide metabolites in CSF of patients with MS are related to clinical disease course

In this study, we have analyzed the stable metabolites of nitric oxide (NO), nitrite and nitrate, in the CSF of patients with MS, lymphocytic meningitis, and in healthy control subjects. Patients with MS with an active disease course exhibited increased CSF nitrite levels compared with patients with stable MS and healthy control subjects, whereas CSF nitrate levels did not differ between these groups. High CSF levels of both metabolites were seen in patients with meningitis. These data indicate that CSF nitrite levels may reflect clinical disease activity in MS.

Increased levels of nitrite/nitrate in the cerebrospinal fluid of patients with subarachnoid hemorrhage

The role of nitric oxide (NO) in the mechanism of delayed cerebral vasospasm (VS) after subarachnoid hemorrhage (SAH) was investigated by analyzing the stable metabolites of NO, nitrite and nitrate, by the Griess method in the cerebrospinal fluid (CSF) and venous blood of 29 patients with SAH, the CSF of 22 control patients, and venous blood from eight normal subjects. VS was defined as diffuse and severe angiographical vasospasm detected by angiography performed around days 7-9 after the onset. Six of the 29 patients had VS. The nitrite/nitrate levels in the blood of patients with SAH were almost within the range of those in normal subjects, but the levels in the CSF of patients with SAH were significantly higher than those of the control group. Patients with VS after SAH had significantly lower levels in the CSF than patients without VS on days 7-9, when VS is most likely to occur. These observations suggest that NO production in the CSF environment occurs following SAH, but possibly may not provoke VS.

Increased intrathecal nitric oxide formation in multiple sclerosis; cerebrospinal fluid nitrite as activity marker

Nitric oxide is formed from L-arginine by a family of enzymes: nitric oxide synthase (NOS). The inducible nitric oxide synthase is activated by cytokines and it has been suggested that activation of the enzyme gives rise to neurotoxic levels of reactive nitrogen oxides. This enzyme has been shown to be localized in multiple sclerosis (MS) lesions but the role of nitric oxide formation in the pathogenesis of MS is still unclear. Using capillary electrophoresis, we have analysed nitrite and nitrate in cerebrospinal fluid (CSF) and demonstrate increased levels of reactive nitrogen products in 17 patients with MS. The total levels of oxidized nitrogen products were significantly elevated in MS patients when compared with controls. In patients with active MS, nitrite levels were significantly increased when compared with controls and patients in remission. This is supportive of NOS induction in MS. We suggest that capillary electrophoresis analysis of nitrite and nitrate in CSF could provide a clinically useful way to determine disease activity in MS.

Levels of nitric oxide, gamma interferon and interleukin-12 in AIDS patients with toxoplasmic encephalitis

The production of nitric oxide (NO) by macrophages is important for the killing of intracellular pathogens, such as Toxoplasma gondii. Gamma interferon (IFN-gamma) and lipopolysaccharide stimulate NO production. The aim of this study was to investigate the importance of NO, IFN-gamma and interleukin-12 (IL-12) in the host immune response in AIDS patients suffering from toxoplasmic encephalitis (TE). It was demonstrated that the production of NO, detected as nitrite/nitrate in the sera and in the cerebrospinal fluid (CSF) of 32 AIDS patients with TE, was normal. In addition, levels of IFN-gamma in the sera and in the CSF of patients with TE were not increased. In contrast, serum levels of IL-12 in these patients were significantly increased (6.5 +/- 7.1 pg/ml; P = 0.0368), compared to the control patients (1.7 +/- 3.5 pg/ml). Furthermore, increased but not significant levels of IL-12 were also observed in the CSF of patients with TE (2.2 +/- 4.7 pg/ml; controls: 0.5 +/- 1.9 pg/ml). The results of this study indicate that reactivation or recurrence of T. gondii infection in HIV-1-infected patients is probably due to a down-regulation of IFN-gamma along with a resulting non-optimal NO activity.

Simple and rapid method for the measurement of nitrite and nitrate in human plasma and cerebrospinal fluid by capillary electrophoresis

Nitrite and nitrate levels in physiological fluids are commonly used as an index of nitric oxide production. We developed simple and rapid method for the determination of these anions by capillary zone electrophoresis employing borate buffer (pH 10, 100 mmol/l) as running electrolyte. The anions were analyzed in plasma and cerebrospinal fluid (CSF) without deproteinization of the samples. Electrophoresis was carried out in a capillary (36.5 cm x 75 microm) at a potential of 15 kV, with on-column UV detection at 214 nm. Mean retention times for nitrite and nitrates were 4.631 and 5.152 min, respectively. The method was linear (r=0.999) within a 1-500 micromol/l concentration range. Physiological levels of nitrate in plasma (40.2 micromol/l) and CSF (15.3 micromol/l) could be determined with good precision (coefficients of variation <6%) and accuracy (recoveries of added nitrate to plasma and CSF were 97.4 and 104.5%, respectively). Measurements of the physiological levels of nitrite in plasma (6.1 micromol/l) and CSF (0.9 micromol/l) were less precise and accurate.