Protein disulfide isomerase redox-dependent association with p47(phox): evidence for an organizer role in leukocyte NADPH oxidase activation.

Mechanisms of leukocyte NADPH oxidase regulation remain actively investigated. We showed previously that vascular and macrophage oxidase complexes are regulated by the associated redox chaperone PDI. Here, we investigated the occurrence and possible underlying mechanisms of PDI-mediated regulation of neutrophil NADPH oxidase. In a semirecombinant cell-free system, PDI inhibitors scrRNase (100 µg/mL) or bacitracin (1 mM) near totally suppressed superoxide generation. Exogenously incubated, oxidized PDI increased (by ~40%), whereas PDIred diminished (by ~60%) superoxide generation. No change occurred after incubation with PDI serine-mutated in all four redox cysteines. Moreover, a mimetic CxxC PDI inhibited superoxide production by ~70%. Thus, oxidized PDI supports, whereas reduced PDI down-regulates, intrinsic membrane NADPH oxidase complex activity. In whole neutrophils, immunoprecipitation and colocalization experiments demonstrated PDI association with membrane complex subunits and prominent thiol-mediated interaction with p47(phox) in the cytosol fraction. Upon PMA stimulation, PDI was mobilized from azurophilic granules to cytosol but did not further accumulate in membranes, contrarily to p47(phox). PDI-p47(phox) association in cytosol increased concomitantly to opposite redox switches of both proteins; there was marked reductive shift of cytosol PDI and maintainance of predominantly oxidized PDI in the membrane. Pulldown assays further indicated predominant association between PDIred and p47(phox) in cytosol. Incubation of purified PDI (>80% reduced) and p47(phox) in vitro promoted their arachidonate-dependent association. Such PDI behavior is consistent with a novel cytosolic regulatory loop for oxidase complex (re)cycling. Altogether, PDI seems to exhibit a supportive effect on NADPH oxidase activity by acting as a redox-dependent enzyme complex organizer.

Loss of CD40 endogenous S-nitrosylation during inflammatory response in endotoxemic mice and patients with sepsis.

Signal transduction through the surface molecule CD40 is critical for cellular activation in immunoinflammatory states such as sepsis. The mechanisms regulating this pathway are not completely understood. Because CD40 displays potentially regulatory cysteine residues and CD40 is probably exposed to NO in the inflammatory milieu, we hypothesized that S-nitrosylation, the interaction of NO with cysteines residues, acts as a post-translational modification on CD40, coregulating the signaling activity and, therefore, the level of cellular activation. As assessed by the biotin switch and the reduction/chemiluminescence S-nitrosylation detection techniques, CD40 was found to be S-nitrosylated endogenously and upon exposure to NO donors in both human and murine macrophages. S-nitrosylation of CD40 was associated with milder activation by its ligand (CD40L), leading to reduced in vitro cytokine (IL-1beta, IL-12, and TNF-alpha) production, which was reversed in the presence of inhibitors of NO synthesis. S-nitrosylated CD40 was found in resting RAW 246.7 macrophages and BALB/c mice peritoneal macrophages, turning into the denitrosylated state upon in vitro or systemic exposure, respectively, to LPS. Moreover, monocytes from patients with sepsis displayed denitrosylated CD40 in contrast to the CD40 S-nitrosylation measured in healthy individuals. Finally, in an attempt to explain how S-nitrosylation regulates CD40 activation, we demonstrate that NO affects the redistribution of CD40 on the cell surface, which is a requirement for optimal signal transduction. Our results support a novel post-translational regulatory mechanism in which the CD40 signal may be, at least in part, dependent on cellular activation-induced receptor denitrosylation.

Platelet-derived exosomes from septic shock patients induce myocardial dysfunction.

INTRODUCTION: Mechanisms underlying inotropic failure in septic shock are incompletely understood. We previously identified the presence of exosomes in the plasma of septic shock patients. These exosomes are released mainly by platelets, produce superoxide, and induce apoptosis in vascular cells by a redox-dependent pathway. We hypothesized that circulating platelet-derived exosomes could contribute to inotropic dysfunction of sepsis. METHODS: We collected blood samples from 55 patients with septic shock and 12 healthy volunteers for exosome separation. Exosomes from septic patients and healthy individuals were investigated concerning their myocardial depressant effect in isolated heart and papillary muscle preparations. RESULTS: Exosomes from the plasma of septic patients significantly decreased positive and negative derivatives of left ventricular pressure in isolated rabbit hearts or developed tension and its first positive derivative in papillary muscles. Exosomes from healthy individuals decreased these variables non-significantly. In hearts from rabbits previously exposed to endotoxin, septic exosomes decreased positive and negative derivatives of ventricular pressure. This negative inotropic effect was fully reversible upon withdrawal of exosomes. Nitric oxide (NO) production from exosomes derived from septic shock patients was demonstrated by fluorescence. Also, there was an increase in myocardial nitrate content after exposure to septic exosomes. CONCLUSION: Circulating platelet-derived exosomes from septic patients induced myocardial dysfunction in isolated heart and papillary muscle preparations, a phenomenon enhanced by previous in vivo exposure to lipopolysaccharide. The generation of NO by septic exosomes and the increased myocardial nitrate content after incubation with exosomes from septic patients suggest an NO-dependent mechanism that may contribute to myocardial dysfunction of sepsis.

Platelet-derived exosomes induce endothelial cell apoptosis through peroxynitrite generation: experimental evidence for a novel mechanism of septic vascular dysfunction.

INTRODUCTION: Several studies link hematological dysfunction to severity of sepsis. Previously we showed that platelet-derived microparticles from septic patients induce vascular cell apoptosis through the NADPH oxidase-dependent release of superoxide. We sought to further characterize the microparticle-dependent vascular injury pathway. METHODS: During septic shock there is increased generation of thrombin, TNF-alpha and nitric oxide (NO). Human platelets were exposed for 1 hour to the NO donor diethylamine-NONOate (0.5 microM), lipopolysaccharide (LPS; 100 ng/ml), TNF-alpha (40 ng/ml), or thrombin (5 IU/ml). Microparticles were recovered through filtration and ultracentrifugation and analyzed by electron microscopy, flow cytometry or Western blotting for protein identification. Redox activity was characterized by lucigenin (5 microM) or coelenterazine (5 microM) luminescence and by 4,5-diaminofluorescein (10 mM) and 2',7'-dichlorofluorescein (10 mM) fluorescence. Endothelial cell apoptosis was detected by phosphatidylserine exposure and by measurement of caspase-3 activity with an enzyme-linked immunoassay. RESULTS: Size, morphology, high exposure of the tetraspanins CD9, CD63, and CD81, together with low phosphatidylserine, showed that platelets exposed to NONOate and LPS, but not to TNF-alpha or thrombin, generate microparticles similar to those recovered from septic patients, and characterize them as exosomes. Luminescence and fluorescence studies, and the use of specific inhibitors, revealed concomitant superoxide and NO generation. Western blots showed the presence of NO synthase II (but not isoforms I or III) and of the NADPH oxidase subunits p22phox, protein disulfide isomerase and Nox. Endothelial cells exposed to the exosomes underwent apoptosis and caspase-3 activation, which were inhibited by NO synthase inhibitors or by a superoxide dismutase mimetic and totally blocked by urate (1 mM), suggesting a role for the peroxynitrite radical. None of these redox properties and proapoptotic effects was evident in microparticles recovered from platelets exposed to thrombin or TNF-alpha. CONCLUSION: We showed that, in sepsis, NO and bacterial elements are responsible for type-specific platelet-derived exosome generation. Those exosomes have an active role in vascular signaling as redox-active particles that can induce endothelial cell caspase-3 activation and apoptosis by generating superoxide, NO and peroxynitrite. Thus, exosomes must be considered for further developments in understanding and treating vascular dysfunction in sepsis.

Medicina baseada em evidências em terapia intensiva / Evidence-based intensive care medicine

A Medicina Baseada em Evidência (MBE) se refere ao uso consciente e criterioso da melhor evidência científica para a tomada de decisões nada mais do é do que o uso de princípios de epidemiologia e bioestatística aplicados a estudos clínicos, que devem ser permanentemente atualizados à luz de novos achados em um processo contínuo, vivo, e submetidos ao juízo clínico do médico responsável pelos cuidados. Inicialmente os autores discutem as dificuldades de encontrar estudos clínicos que forneçam evidências consistentes em terapia intensiva. Sob este ponto, são abordadas maneiras de contornar a possível inexistência destes estudos por meio de análise criteriosa de revisões sistemáticas. Os problemas encontrados em revisões sitemáticas também são revistos, buscando mostrar que a visão integrada de diversas formas de conhecimento seja talvez a melhor estratégia.

Noxa1 is a central component of the smooth muscle NADPH oxidase in mice.

NADPH oxidase is the most important source of oxygen-derived radicals (ROS) in the vascular wall. In vascular smooth muscle cells (VSMC), NADPH oxidase is characterized by the expression of the membrane subunit Nox1, which is activated by cytoplasmic proteins binding to its activation domain. We set out to identify the cytoplasmic protein involved in NADPH oxidase activation in mouse VSMC. Western blot analysis revealed that human endothelial cells and leukocytes but not VSMC from the aorta of the rat and the mouse express the classic NADPH oxidase activator p67phox. In mouse VSMC, however, the p67phox homologue Noxa1 was detected. Using antibodies generated against mouse Noxa1, the protein was observed in the cytosolic fraction of mouse VSMC with a molecular weight of about 51 kDa. Immunohistochemistry revealed that Noxa1 is expressed in the smooth muscle layer but not in endothelium or the adventitia of the mouse carotid artery. Fluorescent fusion proteins of Noxa1 were observed to be expressed in the cytoplasm of VSMC and coexpression of the NADPH oxidase organizer Noxo1 targeted the complex to membrane. An antisense plasmid of Noxa1 attenuated the endogenous Noxa1 protein expression in VSMC. This plasmid attenuated the ROS formation in mouse VSMC as detected using L012 chemiluminescence and prevented the agonist-induced ROS production in response to basic fibroblast growth factor and epidermal growth factor. In conclusion, these data indicate that Noxa1 replaces p67phox in VSMC and plays a central role in the activation of the NADPH oxidase in the vascular wall.

Regulation of NAD(P)H oxidase by associated protein disulfide isomerase in vascular smooth muscle cells.

NAD(P)H oxidase, the main source of reactive oxygen species in vascular cells, is known to be regulated by redox processes and thiols. However, the nature of thiol-dependent regulation has not been established. Protein disulfide isomerase (PDI) is a dithiol/disulfide oxidoreductase chaperone of the thioredoxin superfamily involved in protein processing and translocation. We postulated that PDI regulates NAD(P)H oxidase activity of rabbit aortic smooth muscle cells (VSMCs). Western blotting confirmed robust PDI expression and shift to membrane fraction after incubation with angiotensin II (AII, 100 nm, 6 h). In VSMC membrane fraction, PDI antagonism with bacitracin, scrambled RNase, or neutralizing antibody led to 26-83% inhibition (p < 0.05) of oxidase activity. AII incubation led to significant increase in oxidase activity, accompanied by a 6-fold increase in PDI refolding isomerase activity. AII-induced NAD(P)H oxidase activation was inhibited by 57-71% with antisense oligonucleotide against PDI (PDIasODN). Dihydroethidium fluorescence showed decreased superoxide generation due to PDIasODN. Confocal microscopy showed co-localization between PDI and the oxidase subunits p22(phox), Nox1, and Nox4. Co-immunoprecipitation assays supported spatial association between PDI and oxidase subunits p22(phox), Nox1, and Nox4 in VSMCs. Moreover, in HEK293 cells transfected with green fluorescent protein constructs for Nox1, Nox2, and Nox4, each of these subunits co-immunoprecipitated with PDI. Akt phosphorylation, a known downstream pathway of AII-driven oxidase activation, was significantly reduced by PDIasODN. These results suggest that PDI closely associates with NAD(P)H oxidase and acts as a novel redox-sensitive regulatory protein of such enzyme complex, potentially affecting subunit traffic/assembling.

Direct detection of reactive oxygen species ex vivo.

Oxidative stress is thought to play an important role in the initiation and progression of renal, cardiovascular, neoplastic, and neurodegenerative diseases. It is also widely believed that oxidative stress is a main cause of aging. Although considerable progress has been made in the understanding of the sources and actions of oxidative stress, the true role of oxygen-derived free radicals in the pathology of most human diseases largely remains to be determined. One major obstacle for radical research is the lack of specific and sensitive methods to quantify oxidative stress in vivo and in vitro. Although a multitude of different assays is available to assess free radical generation, each of these methods has substantial limitations. This article will provide a brief review on the most frequently used techniques to assess oxygen-derived free radical generation in isolated tissue preparations and cells. Emphasis will be put on most recent technical innovations and the shortcomings associated with current techniques.

Brazilian Sepsis Epidemiological Study (BASES study).

INTRODUCTION: Consistent data about the incidence and outcome of sepsis in Latin American intensive care units (ICUs), including Brazil, are lacking. This study was designed to verify the actual incidence density and outcome of sepsis in Brazilian ICUs. We also assessed the association between the Consensus Conference criteria and outcome METHODS: This is a multicenter observational cohort study performed in five private and public, mixed ICUs from two different regions of Brazil. We prospectively followed 1383 adult patients consecutively admitted to those ICUs from May 2001 to January 2002, until their discharge, 28th day of stay, or death. For all patients we collected the following data at ICU admission: age, gender, hospital and ICU admission diagnosis, APACHE II score, and associated underlying diseases. During the following days, we looked for systemic inflammatory response syndrome (SIRS), sepsis, severe sepsis, and septic shock criteria, as well as recording the sequential organ failure assessment score. Infection was diagnosed according to CDC criteria for nosocomial infection, and for community-acquired infection, clinical, radiological and microbiological parameters were used. RESULTS: For the whole cohort, median age was 65.2 years (49-76), median length of stay was 2 days (1-6), and the overall 28-day mortality rate was 21.8%. Considering 1383 patients, the incidence density rates for sepsis, severe sepsis and septic shock were 61.4, 35.6 and 30.0 per 1000 patient-days, respectively. The mortality rate of patients with SIRS, sepsis, severe sepsis and septic shock increased progressively from 24.3% to 34.7%, 47.3% and 52.2%, respectively. For patients with SIRS without infection the mortality rate was 11.3%. The main source of infection was lung/respiratory tract. CONCLUSION: Our preliminary data suggest that sepsis is a major public health problem in Brazilian ICUs, with an incidence density about 57 per 1000 patient-days. Moreover, there was a close association between ACCP/SCCM categories and mortality rate.

Brazilian Sepsis Epidemiological Study (BASES study)

(ICUs), including Brazil, are lacking. This study was designed to verify the actual incidence density and outcome of sepsis in Brazilian ICUs. We also assessed the association between the Consensus Conference criteria and outcome Methods This is a multicenter observational cohort study performed in five private and public, mixed ICUs from two different regions of Brazil. We prospectively followed 1383 adult patients consecutively admitted to those ICUs from May 2001 to January 2002, until their discharge, 28th day of stay, or death. For all patients we collected the following data at ICU admission: age, gender, hospital and ICU admission diagnosis, APACHE II score, and associated underlying diseases. During the following days, we looked for systemic inflammatory response syndrome (SIRS), sepsis, severe sepsis, and septic shock criteria, as well as recording the sequential organ failure assessment score.Infection was diagnosed according to CDC criteria for nosocomial infection, and for community-acquired infection, clinical, radiological and microbiological parameters were used. Results For the whole cohort, median age was 65.2 years (49–76), median length of stay was 2 days (1–6), and the overall 28-day mortality rate was 21.8%. Considering 1383 patients, the incidence density rates for sepsis, severe sepsis and septic shock were 61.4, 35.6 and 30.0 per 1000 patient-days, respectively. The mortality rate of patients with SIRS, sepsis, severe sepsis and septic shock increased progressively from 24.3% to 34.7%, 47.3% and 52.2%, respectively. For patients with SIRS without infection the mortality rate was 11.3%. The main source of infection was lung/respiratory tract. Conclusion Our preliminary data suggest that sepsis is a major public health problem in Brazilian ICUs, with an incidence density about 57 per 1000 patient-days. Moreover, there was a close association between ACCP/SCCM categories and mortality rate.

Functional role of NADPH oxidase in activation of platelets.

Involvement of phagocyte NADPH oxidase in host defense response is well established. In contrast, little is known about the functional role of NADPH oxidase in platelets. In this study, we analyzed involvement of platelet NADPH oxidase in aggregation of human platelets and in amplification of production of reactive oxygen species (ROS) by activated human neutrophils. Apocynin, a known NADPH oxidase inhibitor, as well as superoxide dismutase mimetic Mn(III)tetrakis(1-methyl-1-pyridyl)porphyrin, inhibited ROS generation by collagen-activated platelets, collagen-induced aggregation of platelets, as well as collagen-induced release of thromboxane B2. These data suggest the key role of intracellular ROS derived from NADPH oxidase in the control of thromboxane A2 (TXA2) production in platelets stimulated by collagen. Apocynin also inhibited thrombin-induced ROS production and thrombin-induced platelet aggregation. Activation of neutrophils with latex resulted in an outburst of ROS that was inhibited by apocynin. ROS production by latex-stimulated platelets was modest and also inhibited by apocynin. However, when a mixture of platelets and neutrophils was stimulated with latex, ROS production was three to six times higher in comparison with activation of neutrophils alone. Platelet-dependent augmentation of neutrophil ROS production was abrogated by TXA2 synthase inhibitor (furegrelate, 1 microM) or by aspirin (300 microM). In summary, NADPH oxidase in platelets seems to play a major role as an intracellular signaling mechanism in the activation of platelets. However, in host defense response involving neutrophils and platelets, platelets enhance ROS production by neutrophils and possibly their cytotoxic potential via the release of TXA2, which in turn in platelets is not affected by the extracellular release of free radicals.

Platelet-derived exosomes of septic individuals possess proapoptotic NAD(P)H oxidase activity: A novel vascular redox pathway.

OBJECTIVE: Vascular dysfunction in sepsis may involve apoptosis of vascular cells through redox signaling mechanisms, which are still poorly investigated. Platelets have been shown to produce reactive oxygen species and to release microparticles, related to thrombotic and inflammatory processes. The present study was undertaken to investigate whether, in severe sepsis, platelet-derived microparticles could produce reactive oxygen species through a phagocyte-type nicotinamide adenine dinucleotide phosphate (NADPH) oxidase and if such particles may induce vascular cell apoptosis through a reactive oxygen species-dependent mechanism. DESIGN: Experimental study. SETTING: Molecular and cell biology laboratories related to tertiary hospitals. SUBJECTS: Microparticles obtained from septic patients and from healthy individuals were investigated concerning their biochemical properties and their effects on vascular endothelial and smooth muscle cells in culture. INTERVENTIONS: Microparticle surface antigens were studied by flow cytometry and the presence of NADPH oxidase subunits by Western blot analysis. Microparticle reactive oxygen species generation was investigated through superoxide dismutase-inhibitable cytochrome c reduction and 5 microM lucigenin chemiluminescence. The effects of microparticles on vascular cell apoptosis rates were analyzed by immunofluorescence microscopy based on annexin V-fluorescein 5(6)-isothiocyanate assay. MEASUREMENTS AND MAIN RESULTS: Flow cytometry analysis of microparticles obtained from septic patients and healthy individuals showed a surface antigenic pattern similar to exosomes and strongly suggestive of platelet origin. Those microparticles also displayed the p22 and gp91 subunits of phagocyte-simile NADPH oxidase and exhibited intrinsic reactive oxygen species production. Incubation of endothelial and vascular smooth muscle cells with microparticles enhanced apoptosis rates. Reactive oxygen species generation and apoptosis-inducing activity were markedly greater with exosomes from septic individuals than with exosomes from healthy subjects. These effects were diminished by the addition of superoxide dismutase or the NADPH oxidase inhibitors diphenylene iodonium and phenilarsine oxide. CONCLUSIONS: Platelet-derived exosome NADPH oxidase activity seems to contribute to vascular cell apoptosis and may represent a new vascular redox-signaling pathway involved in the pathophysiology of sepsis.

Protective effect of ascorbic acid in experimental gastric cancer: reduction of oxidative stress.

AIM: Oxidative stress participates in the cell carcinogenesis by inducing DNA mutations. Our aim was to assess whether ascorbic acid, an antioxidant, could have a role in preventing ROS (Reactive Oxygen Species) generation in experimental gastric carcinoma in a rat model. METHODS: Experimental gastric cancer was induced in twelve Wistar male rats (weighting 250-350 g) by profound duodeno-gastric reflux throught split gastrojenunostomy. The rats were allocated to the following groups: Group I (n=6) was the control; Group II (n=6) which was mantained with daily intake of tape water with Vitamin C (30 mg/Kg). After 6 or 12 months, samples of gastric tumor or non tumor mucosa were taken from the anastomosis of both groups. Oxidative stress was measured by superoxide quantification through lucigenin-amplified chemiluminescence base and by staining with Nitrobluetetrazolium. The histopathologic confirmation of adenocarcinoma was made by eosin-hemathoxilin method. RESULTS: The intestinal type of gastric adenocarcinoma was microscopically identified in all animals of group I whereas only 3 rats of group II showed an adenocarcinoma without macroscopic evidence of them. The cancers were located in the anastomosis in all cases. Basal luminescence from tumor gastric tissue generated 38.4+/-6.8 count per minute/mg/X10(6) (mean+/-SD) and 14.9+/-4.0 count per minute/mg/X10(6), respectively, in group I and II animals (P<0.05). The Nitrobluetetrazolium method showed intense staining in tumor tissues but not in non neoplasic mucosa. CONCLUSION: Experimental gastric tumors seem to produce more reactive oxygen species than non neoplasic gastric tissue. The reduction of oxidative stress and gastric tumor incidence in rats were induced by the intake of ascorbic acid. Therefore, it may have a role in the prevention of gastric carcinoma.

Complicaçöes clínicas e hemaológicas da greve de fome / Clinical and hemaologic complicaions of hunger strike

Antecedenes e objeivos - O jejum prolongado em pacienes näo obesos é uma situaçäo potencialmene crítica porém, há muitos anos, näo se documenta seu curso clínico em grandes grupos. Em uma casuística de oito pacientes que recusaram alimentaçäo por 43 dias, as desordens clínicas e hematológicas foram analisadas retrospectivamente. Métodos - As contagens hematológicas documentadas incluíram hemoglobina, leucócitos, linfócitos, eosinófilos e plaquetas. As complicaçöes foram classificadas como gastrointestinais, infecciosas, orodentais e miscelânea. Queixas pré-existentes ou recidivantes foram desconsideradas, computando-se apenas aberraçöes hematológicas e clínicas recém diagnosticadas. Resultados - O total de anormalidades por pacientes foi de 7,5 mais ou menos 1,8 (4-10), conforme enumerado. Hematológicas: Hb menor que 12 g/100 ml 8/8 (100 porcento), leucócitos menor que 4000/mm3 7/8 (87,5 porcento), linfócitos menor que 1000/mm3 7/8(87,5 porcento), plaquetas menor que 150.000/mm3 6/8 (75 porcento). Gastrointestinais: náuseas e vômitos 8/8 (100 porcento), diarréia 4/8 (50 porcento), dor abdominal 1/8 (12,5 porcento), gastrite hemorrágica 1/8 (12,5 porcento). Infecciosas: vias aéreas 1/8 (12,5 porcento), herpes simples 2/8 (25 porcento), herpes zoster 1/8 (12,5 porcento); Orodentais: gengivites hemorrágicas 6/8 (75 porcento), periodontite 2/8 (25 porcento); Miscelânea: brabdicardia e síncope 3/8 (37,5 porcento), erupçäo cutânea 2/8 (25 porcento), reduçäo da acuidade visual 1/8 (12,5 porcento). Conclusöes - 1) A depressäo hematológica afetou as principais linhagens celulares na maioria dos pacientes; 2)A labilidade cardiovascular foi responsável por episódios de brandicardia e hipotensäo; 3) As queixas gastrointestinais foram as mais freqüentes e em um caso (gastrite hemorrágica) atingiram moderada gravidade; 4) A ocorrência de problemas virais foi sugestiva de resposta imonológica diminuída; 5) A maioria das complicaçöes foi progressiva e foi diagnosticada ou se agravou na fase tardia do jejum.(au)

Overestimation of NADH-driven vascular oxidase activity due to lucigenin artifacts.

Several limitations have recently been described for lucigenin, a probe frequently used to assess the activity of vascular NAD(P)H oxidase, a major superoxide source. The preferential reducing substrate of such oxidase remains unclear. We assessed whether lucigenin artifacts could affect detection of NAD(P)H oxidase activity. Initial chemiluminescence assays were performed with vascular rings or homogenates at 5, 50, or 250 microM concentrations. Results showed preferential signals with NADPH (vs. NADH) with 5 and 50 microM lucigenin, which were blocked by diphenylene iodonium (DPI), superoxide dismutase (SOD), or its cell-permeable mimetic MnTBAP. With 250 microM lucigenin, the relative signal with NADH became larger than with NADPH, and was poorly inhibited by all three antagonists above. All SOD/DPI-resistant signals were effectively blocked by the electron acceptor nitrobluetetrazolium. Spin trapping with DMPO showed an approximate doubling of DMPO-OH radical adduct signal upon addition of 5 microM lucigenin to homogenates incubated with either NADPH or NADH. With 50 or 250 microM lucigenin, much larger increases were observed with NADH, as opposed to NADPH. Furthermore, oxygen consumption measurements showed analogous results. In summary, our data suggest that: (i) Lucigenin redox-cycling is detectable in vascular tissue even at 5 microM concentrations, while at 250 microM redox-cycling becomes predominant and is markedly increased when NADH is the assayed substrate; and (ii) With 250 microM lucigenin, preferentially with NADH, signals are further overestimated by direct, oxidase-dependent, superoxide-independent two-electron transfer. Therefore, previous reports of preferential NADH affinity of the vascular oxidase may have been due to these artifacts.