The participation of nitric oxide in peritoneal exudate cell cytotoxicity of mice by Fusobacterium nucleatum

Previously we reported that mice infected recurrently with live Fusobacterium nucleatum(Fn) synthesize a significant amount of NO between 12 hr and 24 hr after Fn injection. Fn is a gram-negative rod periodontal pathogen. NO could not be induced by heat-killed Fn or in untreated mice. This NO, derived from the iNOS after infection of live Fn, was not involved in the Fn reduction because Fn clearance occurs within 6 hr. We investigated in this study whether this NO was involved in cytotoxicity in peritoneal exudate cells (PEC) in vivo. The mice were divided into two groups: those treated with live Fn (immune) and those left untreated (normal). PEC number, NO production, detection of apoptosis or death cells, and lactate dehydrogenase (LDH) release activity after injection of live Fn were compared in these groups. In the immune group, the increase of the total cell numbers caused by an increase in neutrophils, a significant NO production only after injection of live Fn at 24 hr and identification of iNOS positive macrophages were confirmed. The apoptotic rate was very low and did not increase at 24 hr in vivo. Therefore, apoptosis was seldom relevant to the NO. In the immune group, LDH activity was remarkable high at 24 hr, and dead cells and macrophages phagocytizing cell fragments increased at the same time. Pretreatment of L NMMA, an inhibitor of iNOS, suppressed LDH activity and cell death. Therefore, the NO derived from the iNOS is involved in the cytotoxicity. These results suggest that NO may contribute to the inflammatory response during Fn infection in periodontitis.     

Nitric oxide production and iNOS mRNA expression in mice induced by repeated stimulation with live Fusobacterium nucleatum

There have been few studies on the detection of direct nitric oxide (NO) production and interferon-gamma (IFN-gamma) in vivo without using animal cell culture. We questioned whether NO and IFN-gamma could be produced at the site of infection. The peritoneal cavity of mice was used as the local infection model. NO and IFN-gamma in abdominal washings from these mice were measured directly at various times after injection of Fusobacterium nucleatum, a gram-negative rod periodontal pathogen. The mice were divided into three groups: those treated with live bacteria (LB), those treated with heat-killed bacteria (HKB) and those untreated: normal (N). These mice were compared on the basis of cell filtration, NO and IFN-gamma production by injection of live bacteria (LFn) or heat-killed bacteria (HKFn). In the LB group, the total cell number increased corresponding to an increase in neutrophils after injection of both LFn and HKFn. A low level of NO was constantly produced in abdominal washings, but a significant amount of NO was synthesized in the LB group only 12 hr to 24 hr after injection of LFn. At the same time iNOS enzyme activity and iNOS mRNA expression were detected. IFN-gamma, which may contribute to enhance NO production, was also secreted at a high level from peritoneal exudate cells (PEC) at 12 hr and 24 hr in the LB group by stimulation of LFn. At 12 hr and 24 hr, iNOS positive cells in the LB group by infection of LFn were identified and shown to contain mostly macrophages. These findings indicate that live bacteria play important roles in NO production by macrophages. It is suggested that NO may contribute to the inflammatory response during F. nucleatum infection in periodontitis.     

Nitric oxide, superoxide, and hydrogen peroxide production in brain mitochondria after haloperidol treatment.

Inhibition of mitochondrial respiration and free radical induction have been suggested to be involved in haloperidol neurotoxicity. In this study, mice were injected i.p. with haloperidol, according to two different treatments: (a) a single injection (1 mg/kg), sacrificed 1 h after the injection (single-dose model); and (b) two injections (1 mg/kg each), sacrificed 24 h after the first dose (double-dose model). Determinations of oxygen consumption and hydrogen peroxide (H2O2) production rate were carried out in isolated brain mitochondria. Nitric oxide (NO) and superoxide (O2-) production rates were measured in submitochondrial particles (SMP). Single-dose haloperidol treatment produced a 33% inhibition in malate-glutamate-dependent respiration, while no significant changes were found after double-dose treatment. NO production was inhibited by 39 and 54% in SMP from haloperidol-treated mice (single- and double-dose treatments, respectively) (control value: 1.6 +/- 0.2 nmol/min mg protein). NO steady-state concentration was estimated at about 16.5 nM and was decreased by 40% by haloperidol treatment. Increases of 105 and 54% were found in succinate-supported O2- and H2O2 production rates, respectively, after haloperidol single-dose treatment. Haloperidol treatment generated a 248% increase in SMP O2- production rate when measured in the presence of NADH plus rotenone. Our results suggest that haloperidol neurotoxicity would be mediated by a decreased mitochondrial NO production, a decreased intramitochondrial NO steady-state concentration, and by an inhibition of mitochondrial electron transfer with enhancement of O2- and H2O2 production. This inhibition does not seem to be caused by increased NO or ONOO- formation.     

Salmonella. typhi OMPs induced immunomodulation in peritoneal macrophages

The immunomodulatory properties of outer membrane proteins (OMPs) from S. typhi Ty2 were studied in mouse model at 72 hr and 20 days post-infection. Inspite of reduction in the number of macrophages and their protein content observed in the immunized group vis-à-vis infected group, OMPs activated macrophages showed significant upregulation of NO. At 20 days post infection, the level remained almost the same suggesting the prolonged cytotoxic and cytostatic activity due to the long lasting effects of OMPs activated macrophages. Higher activity of SOD in these aged cells pointed out towards the protective efficacy of OMPs to keep the macrophages themselves away from the noxious effects of O2-. Lower level of acid phosphatase in the macrophages from immunized mice group indicated the involvement of oxygen dependent rather than oxygen independent killing process. The enhanced uptake of organisms and their killing could be related to the production of oxygen and nitrogen radicals in the OMPs immunized group.     

Effect of in vivo administration of different adjuvants on the in vitro candidacidal activity of mouse peritoneal cells

The candidacidal activity (CA) of peritoneal cells (PC) in vitro was used as a measure of nonspecific microbicidal activity of phagocytes after intraperitoneal injection of mice with different adjuvants. Dilutions of PC were incubated with constant numbers of C. parapsilosis in a 96-well culture plate. The PC number causing 50% reduction of yeast colonies formed after 48 hr at 37 degrees C was called 1 CA50 unit. CA was expressed in CA50 units per 10(6) PC. Optimal reduction of the number of viable candida cells in vitro was established within 1.5 hr while 50% reduction was reached after 0.5 hr. In this test CA was, within limits, independent of the number of viable candida cells added per well (22 to 152 yeast cells), of the concentration of fetal calf serum (1-20%) and of the presence of heat-labile serum components. The CA of PC of individual mice was measured 6, 24, and 96 hr after injection of an adjuvant. In most instances optimal CA was observed 6 hr after administration of adjuvant and varied from 3.7 (methylamine) to 50 (Corynebacterium parvum strain 4982) units. With respect to the titer and duration of CA, the adjuvants were arranged in the following order of increasing efficacy: methylamine, heparin, polyol L 121, suramin, dextran sulfate, polyol L 101, dimethyldioctadecylammonium bromide, Liquoid, heat-killed Listeria monocytogenes, formalin-killed C. parvum strain 10387, and strain 4982. The CA induced by the latter strain persisted at least till 96 hr after injection. The induction of CA was accompanied by recruitment of polymorphonuclear cells. The contribution of distinct phagocytic effector cells to CA and the correlation between modulation of the specific and nonspecific immunity are discussed.     

Protection against gram-negative bacteremia in neutropenic mice with recombinant granulocyte-macrophage colony-stimulating factor

Granulocyte-macrophage colony-stimulating factor (GM-CSF) stimulates production of neutrophils in bone marrow and may decrease the incidence of infection during neutropenia. We evaluated the protective role of recombinant GM-CSF against Pseudomonas aeruginosa challenge in neutropenic mice. CD-1 mice treated with cyclophosphamide on days 1 and 2 of the experiment were given GM-CSF (1, 2, or 4 micrograms/day) starting at day 4 of the experiment according to the following protocol: 1) 1 microgram of GM-CSF 2 hr and 24 hr after challenge; 2) 1 microgram 24 hr before challenge, 2 hr and 24 hr after challenge; 3) 2 micrograms injected 24 hr before and 2 hr after challenge; 4) 2 micrograms given 24 hr before and 2 micrograms given 2 hr and 24 hr after challenge; 5) 4 micrograms administered 2 hr and 24 hr after challenge; and 6) saline and bovine albumin controls. The number of blood neutrophils by days 4 and 5 was similar for GM-CSF-treated and untreated animals. Survival was significantly greater in animals given 2 micrograms of GM-CSF at 24 hr before and at 2 hr and 24 hr after challenge with Pseudomonas. Neutrophils and splenic macrophages obtained from GM-CSF-treated mice (2 micrograms/animal) produced significantly greater amounts of O2- (204 +/- 36 nmoles/10(5) cells) than controls (21 +/- 10 nmoles/10(5) cells). Additionally, neutrophils and macrophages from GM-CSF-treated mice killed significantly more bacteria (P. aeruginosa) in vitro and had a greater number of C3b and Fc receptors (78 +/- 12% and 89 +/- 8%) than did cells obtained from control animals.(ABSTRACT TRUNCATED AT 250 WORDS)     

Differences in initial rate of intracellular killing of Salmonella typhimurium by granulocytes of Salmonella-susceptible C57BL/10 mice and Salmonella-resistant CBA mice

The contribution of granulocytes to differences in the innate susceptibility of mouse strains to infection by Salmonella typhimurium was assessed on the basis of the size and composition of the inflammatory exudate after i.p. injection of bacteria and the intracellular killing of the bacteria by exudate peritoneal cells and blood granulocytes of resistant CBA and susceptible C57BL/10 mice. The increase in the numbers of both peritoneal granulocytes and macrophages 24 hr after i.p. injection of various numbers of live S. typhimurium was two to four times higher in C57BL/10 mice (p less than 0.05) than in CBA mice. However, despite the larger number of phagocytes in the inflammatory exudate, the numbers of viable S. typhimurium in the peritoneal cavity 24 hr after injection was higher (p less than 0.01) in C57BL/10 mice than in CBA mice. Because the proportion of noningested bacteria was similar in the two mouse strains (less than 30%), these findings indicate a difference in the rate of intracellular killing of the bacteria by exudate peritoneal cells (greater than 75% granulocytes) of the two mouse strains. Subsequent determination of the initial rate of intracellular killing (Kk) of S. typhimurium revealed that after phagocytosis of the bacteria in vivo, exudate peritoneal granulocytes (harvested 24 hr after i.p. injection of 10(3) live S. typhimurium) of CBA mice killed S. typhimurium twice as efficiently (Kk = 0.014 min-1; p less than 0.01) as exudate granulocytes of C57BL/10 mice (Kk = 0.008 min-1) did. Similarly, the initial rate of intracellular killing of the ingested S. typhimurium by blood granulocytes of CBA mice (Kk = 0.017 min-1) was two times higher (p less than 0.01) than that of C57BL/10 mice (Kk = 0.007 min-1). These findings may be specific for S. typhimurium, because L. monocytogenes were killed with equal efficiency by exudate granulocytes and blood granulocytes of these mouse strains (p greater than 0.20). The results of the present study are relevant with respect to the innate resistance of mice to S. typhimurium, particularly during the initial phase of infection when the inflammatory exudate contains predominantly granulocytes.     

gp91phox-containing NAD(P)H oxidase mediates attenuation of nitric oxide-dependent control of myocardial oxygen consumption by ANG II

We have previously reported that ANG II stimulation increased superoxide anion (O2-) through the activation of NAD(P)H oxidase and inhibited nitric oxide (NO)-dependent control of myocardial oxygen consumption (MVo2) by scavenging NO. Our objective was to investigate the role of NAD(P)H oxidase, especially the gp91phox subunit, in the NO-dependent control of MVo2. MVo2 in mice with defects in the expression of gp91phox [gp91(phox)(-/-)] was measured with a Clark-type oxygen electrode. Baseline MVo2 was not significantly different between wild-type (WT) and gp91(phox)(-/-) mice. Stimulation of NO production by bradykinin (BK) induced significant decreases in MVo2 in WT mice. BK-induced reduction in MVo2 was enhanced in gp91(phox)(-/-) mice. BK-induced reduction in MVo2 in WT mice was attenuated by 10(-8) mol/l ANG II, which was restored by coincubation with Tiron or apocynin. In contrast to WT mice, BK-induced reduction in MVo2 in gp91(phox)(-/-) mice was not altered by ANG II. There was a decrease in lucigenin (5 x 10(-6) mol/l)-detectable O2- in gp91(phox)(-/-) mice compared with WT mice. ANG II resulted in significant increases in O2- production in WT mice, which was inhibited by coincubation with Tiron or apocynin. However, ANG II had no effect on O2- production in gp91(phox)(-/-) mice. Histological examination showed that the development of abscesses and/or the invasion of inflammatory cells occurred in lungs and livers but not in hearts and kidneys from gp91(phox)(-/-) mice. These results indicate that the gp91(phox) subunit of NAD(P)H oxidase mediates O2- production through the activation of NAD(P)H oxidase and attenuation of NO-dependent control of MVo2 by ANG II.     

Changes in the activities of enzymes, especially lactate dehydrogenase, in endotoxin-poisoned mice.

Carbohydrate metabolic disorders were investigated by means of enzyme activities in mice (ddYS) injected intraperitoneally with endotoxin from Salmonella typhimurium. The mice exhibited hyperglycemia 2 hr after administration of endotoxin and hypoglycemia at 18 hr. Activity of hepatic phosphorylase in the endotoxin-poisoned mice at 2 hr was slightly higher than that in the control mice, whereas the level of this activity was not significantly different from that in the controls after 18 hr. Glucose-6-phosphatase activity in the poisoned mice increased by 2 hr after injection, but decreased by 18 hr. The blood lactate level in the poisoned mice transiently decreased until 3 hr after injection, but the mice exhibited a marked lactacidemia by 8–24 hr. The time course of lactate dehydrogenase (LDH) activity in various tissues was examined in mice injected with endotoxin. The activity of hepatic LDH declined to about two-thirds of that of the control mice after 16 hr, and was restored to the normal level by 48 hr. LDH in the cardiac muscle was markedly activated (by about 37%) in the early period (3–6 hr) after administration of endotoxin, and this activity gradually declined. However, the activity of LDH in the skeletal muscle showed a tendency similar to the rise and fall of the levels of blood lactate, and was restored to the normal value at 72 hr after injection. On the other hand, the serum LDH activity in the poisoned mice increased about 1.75-fold by 16 hr after injection. Mice injected with endotoxin exhibited a leakage of the isozymes LDH 3 and 5, but the origin of the leakage is uncertain. Similar elevation in the activities of transaminases (GPT and GOT) and malate dehydrogenase was found in the mouse serum at 16 hr after injection of endotoxin.     

Superoxide and hydrogen peroxide production by macrophages of New Zealand black mice

Resident peritoneal macrophages from New Zealand Black (NZB) mice release O2- and H2O2 after adherence to a plastic surface without any chemical or particulate stimulant. This phenomenon is age dependent and more pronounced in animals with sever autoimmune disease. Significant differences were observed between the high and low breakage NZB sublines (HB and LB), which were previously developed by selective matings on the basis of chromosome breakage rates. The LB subline differs significantly from the HB subline with respect to autoimmune hemolytic anemia and tumor incidence. When the macrophages were stimulated with the tumor promoter TPA, the number of "responders" was higher in the HB than in the LB subline and correlated with the degree of splenomegaly, that is, with the severity of the disease. A negative response to agonist stimulation and very low spontaneous production of active oxygen species was observed in NZW and Swiss mice, which is the normal finding for resident macrophages according to data from the literature. The increased superoxide and hydrogen peroxide production by macrophages of NZB mice is discussed with respect to autoimmune disease and cancer.     

Megakaryocytopoiesis in the mouse: Response to varying platelet demand

The response of murine megakaryocytopoiesis was studied under conditions of varying platelet demand. Twenty-four hours after mice were given a single injection of rabbit anti-platelet serum, megakaryocyte number and volume were increased, becoming maximal at 65 and 40 hr, respectively. Total body megakaryocytic colony-forming unit (CFU-M) numbers did not change until 90 hr, when a 35% increase in the experimental group was noted. The percentage of CFU-M in DNA synthesis in the experimental group was 38 ± 2% at 24 hr, 49 ± 1% at 40 hr, and returned to normal (11 ± 3%) at 90 hr. When mice were made thrombocytotic by platelet transfusions, both megakaryocyte number and volume were decreased compared to controls, while no difference was noted in the number and percentage of CFU-M in DNA synthesis. Finally, experiments were performed to examine the effect of platelet transfusions on regenerating marrow. Experimental mice were given platelet transfusions while control animals received platelet buffer solution. At sacrifice the number and volume of megakaryocytes in the experimental group (platelet count 2.568 × 10⁶/μl) were less than controls (platelet count 0.363 × 10⁶/μl), while the number and percentage of CFU-M in DNA synthesis were similar in both groups. These results demonstrate that CFU-M are not immediately responsive to acute changes in platelet demand. The data suggest that megakaryo-cytopoiesis is structured on at least two levels which are independently regulated.     

Chromium-induced excretion of urinary lipid metabolites,DNA damage,nitric oxide production,and generation of reactive oxygen species in Sprague-Dawley rats

Chromium and its salts induce cytotoxicity and mutagenesis, and vitamin E has been reported to attenuate chromate-induced cytotoxicity. These observations suggest that chromium produces reactive oxygen species which may mediate many of the untoward effects of chromium. We have therefore examined and compared the effects of Cr(III) (chromium chloride hexahydrate) and Cr(VI) (sodium dichromate) following single oral doses (0.50 ld₅₀) on the production of reactive oxygen species by peritoneal macrophages, and hepatic mitochondria and microsomes in rats. The effects of Cr(III) and Cr(VI) on hepatic mitochondrial and microsomal lipid peroxidation and enhanced excretion of urinary lipid metabolites as well as the incidence of hepatic nuclear DNA damage and nitric oxide (NO) production were also examined. Increases in lipid peroxidation of 1.8- and 2.2-fold occurred in hepatic mitochondria and microsomes, respectively, 48 hr after the oral administration of 25 mg Cr(VI)/kg, while increases of 1.2- and 1.4-fold, respectively, were observed after 895 mg Cr(III)/kg. The urinary excretion of malondialdehyde (MDA), formaldehyde (FA), acetaldehyde (ACT) and acetone (ACON) were determined at 0–96 hr after Cr administration. Between 48 and 72 hr post-treatment, maximal excretion of the four urinary lipid metabolites was observed with increases of 1.5- to 5.4-fold in Cr(VI) treated rats. Peritoneal macrophages from Cr(VI) treated animals 48 hr after treatment resulted in 1.4- and 3.6-fold increases in chemiluminescence and iodonitrotetrazolium reduction, indicating enhanced production of Superoxide anion, while macrophages from Cr(III) treated animals showed negligible increases. Increases in DNA single strand breaks of 1.7-fold and 1.5-fold were observed following administration of Cr(VI) and Cr(III), respectively, at 48 hr post-treatment. Enhanced production of NO by peritoneal exudate cells (primarily macrophages) was monitored following Cr(VI) administration at both 24 and 48 hr post-treatment with enhanced production of NO being observed at both timepoints. The results indicate that both Cr(VI) and Cr(III) induce an oxidative stress at equitoxic doses, while Cr(VI) induces greater oxidative stress in rats as compared with Cr(III) treated animals.     

Commercial blast-freezing of third-stage Anisakis simplex larvae encapsulated in salmon and rockfish

Sixty-four fish were blast-frozen to -35 C for 15 hr to determine the effects of commercial blast-freezing on the viability of third-stage larvae of Anisakis simplex encapsulated in the muscle and viscera of sockeye salmon (Oncorhynchus nerka) and canary rockfish (Sebastes pinniger). Parallel tests were conducted on larval nematodes in 16 whole (round) salmon, 16 dressed salmon (heads and viscera removed), and 32 whole (round) rockfish. After blast-freezing, 4 in-the-round salmon, 4 dressed salmon, and 8 in-the-round rockfish were examined at 1, 24, 48, and 72 hr. A total of 3,539 dead and 6 live larvae were collected from the fish tissues after standard enzymatic digestion. Salmon were infected with 1,245 of these larvae, and rockfish with 2,300. The 6 live worms, 2 from salmon and 4 from rockfish rounds, were recovered from muscle 1 hr after freezing; they were slightly motile and showed severe internal damage. No viable worms were found at or after 24 hr. The commercial blast-freezing process effectively killed larval nematodes in whole or dressed fish. Market-ready samples of previously blast-frozen silver salmon (O. kisutch) and chum salmon (O. keta) fillets and chum salmon steaks yielded no live worms, thereby confirming the efficacy of this process.     

Protective effect of Ocimum sanctum L after high-dose 131iodine exposure in mice: an in vivo study

Radioprotective effect of aqueous extract of Ocimum sanctum (40 mg/kg body weight, for 15 days) in mice exposed to high-doses (3.7 MBq) of oral 131iodine was investigated by studying the organ weights, lipid peroxidation and antioxidant defense enzymes in various target organs like liver, kidneys, salivary glands and stomach at 24 hr after exposure in adult Swiss mice. The mean weight of the salivary glands showed significant increase after 131iodine administration. 131iodine exposure significantly increased lipid peroxidation in kidneys and salivary glands in comparison to control animals. Pretreatment with O. sanctum in radioiodine exposed group showed significant reduction in lipid peroxidation in both kidneys and salivary glands. In liver, reduced glutathione (GSH) levels showed significant reduction after radioiodine exposure while pretreatment with O. sanctum exhibited less depletion in GSH level even after 131iodine exposure. However, no such changes were observed in stomach. The results indicate the possibility of using aqueous extract of O. sanctum for ameliorating 131Iodine induced damage to the salivary glands.     

Spin trapping agent, phenyl N-tert-butylnitrone, reduces nitric oxide production in the rat brain during experimental meningitis

Phenyl N-tert-butylnitrone (PBN) is a spin trapping agent previously shown to exert a neuroprotective effect in infant rat brain during bacterial meningitis. In the present study, we investigated the effect of systemic PBN administration on nitric oxide (NO) production in a rat model of experimental meningitis induced by lipopolysaccharide (LPS). We assessed the NO concentration in rat brain tissues with an electron paramagnetic resonance (EPR) NO trapping technique. In this model, rats receiving intracisternal LPS administration showed symptoms of meningitis and cerebrospinal fluid (CSF) pleocytosis. The time course study indicated that the concentration of NO in the brain reached the maximum level 8.5h after injection of LPS, and returned to the control level 24 h after the injection. When various doses of PBN (125-400 mg/kg) were injected intraperitoneally 30 min prior to LPS, NO production in the brain was reduced with increasing PBN dose (250 mg/kg suppressed 80% at 8.5h after LPS injection), and white blood cells (WBC) in CSF were significantly decreased. We concluded that reduction of NO generation during bacterial meningitis contributes to the neuroprotective effect of PBN in addition to its possible direct scavenging of reactive oxygen intermediate (ROI).     

THE RELATIONSHIP BETWEEN SPLEEN COLONY PRODUCTION AND SPLEEN CELLULARITY

The fraction, f, of injected spleen colony-forming cells which can be recovered from the spleen of a radiated mouse has been determined at various times up to 24 hr following the initial cell injection. the cellularity of the spleen at the time of assay was also measured and compared with the calculated f number. the linear relationship between these two parameters indicated that over the period of 2-24 hr the number of CFU/10⁶ spleen cells was constant, both falling in a parallel fashion. A further experiment using non-irradiated W/W^v mice in which the spleen size did not change showed the same f number at the end of this period as at 2 hr. It is concluded that CFU are expelled from the spleen during its post-irradiation contraction thus leading to the apparent fall in f number. It is also concluded that a more realistic f number is obtained by assaying the splenic CFU content 24 hr after the primary cell transfer rather than 2 hr.     

Inhibitory mechanisms of highly purified vitamin B2 on the productions of proinflammatory cytokine and NO in endotoxin-induced shock in mice

Inhibitory effects of highly purified vitamin B2 (riboflavin-5'-sodium phosphate, >97%) on the interleukin (IL)-6, macrophage inflammatory protein (MIP)-2 and nitric oxide (NO) in LPS-induced shock mice were evaluated. Vitamin B2 at 20 mg/kg (protective effect on mice mortality induced by LPS), intravenously administered 6 h after LPS injection, significantly decreased the plasma elevated levels of IL-6 and MIP-2 at 9 and 12 h. In addition, vitamin B2 lowered the tissue concentration and the mRNA expression of IL-6 in lung and those of MIP-2 in liver at 9 h. Vitamin B2 also reduced concentration of MIP-2 concentration in lung, and inhibited mRNA expression in kidney, respectively. Vitamin B2 decreased the plasma elevated NO levels in accordance with a reduction in expression of inducible NO synthase (iNOS) both at 21 and 24 h. Accordingly, the reduction in elevated plasma cytokine levels and NO based on the inhibitory effect on local cytokine mRNA expression and iNOS would be responsible for the anti-septic effect of vitamin B2.     

A SERUM FACTOR INDUCING MONOCYTOSIS DURING AN ACUTE INFLAMMATORY REACTION CAUSED BY NEWBORN CALF SERUM

An intraperitoneal injection of newborn calf serum (NBCS) into CRF Swiss mice causes an inflammatory reaction characterized by an increase in the number of macrophages in the peritoneal cavity and a concomitant monocytosis. The serum of such mice contains a monocytosis-inducing factor, as demonstrated by the intravenous injection of serum collected 18 (CalS 18) and 24 hr (CalS24) after the intraperitoneal injection of NBCS. Serum from normal untreated mice, from mice given an intraperitoneal injection of sterile pyrogen-free saline, which does not cause an inflammatory reaction, or from mice 72 hr after an intraperitoneal injection of NBCS, when the inflammatory reaction has subsided, does not cause a monocytosis in test mice. Intravenous injection of CalS 18 causes not only a monocytosis but also an increase in the number of promonocytes and bone marrow monocytes, suggesting an increased production of monocytes. The effect of CalS 18, CalS24 and CalS 18 filtrate is specific for the mononuclear phagocytes, since only non-significant increases in the numbers of lymphocytes and granulocytes were observed. The active factor in CalS 18 was shown to be different from the monocytosis-inducing factor present in NBCS. The monocytosis-inducing factor in CalS 18 passes through an ultrafiltration membrane with an exclusion limit of 50,000 Daltons, so that the molecular weight must be below this value.     

A serum facted by newborn calf serum.

An intraperitoneal injection of newborn calf serum (NBCS) into CRF Swiss mice causes an inflammatory reaction characterized by an increase in the number of macrophages in the peritoneal cavity and a concomitant monocytosis. The serum of such mice contains a monocytosis-inducing factor, as demonstrated by the intravenous injection of serum collected 18 (CalS18) and 24 hr (CalS24) after the intraperitoneal injection of NBCS. Serum from normal untreated mice, from mice given an intraperitoneal injection of sterile pyrogen-free saline, which does not cause an inflammatory reaction, or from mice 72 hr after an intraperitoneal injection of NBCS, when the inflammatory reaction has subsided, does not cause a monocytosis in test mice. Intravenous injection of CalS18 causes not only a monocytosis but also an increase in the number of promonocytes and bone marrow monocytes, suggesting an increased in the number of promonocytes and bone marrow monocytes, suggesting an increased production of monocytes. The effect of CalS18, CalS24 and CalS18 filtrate is specific for the mononuclear phagocytes, since only non-significant increases in the numbers of lymphocytes and granulocytes were observed. The active factor in CalS18 was shown to be different from the monocytosis-inducing factor present in NBCS. The monocytosis-inducing factor in CalS18 passes through an ultrafiltration membrane with an exclusion limit of 50,000 Daltons, so that the molecular weight must be below this value.     

A technique to estimate the rate of whole body nitric oxide formation in conscious mice.

OBJECTIVE: We have established a technique to estimate the total rate of nitric oxide (NO) formation in mice, based on inhalation of a stable oxygen isotope (18O(2)). Changes of NO production with age were also studied. METHODS: The experiments were performed in eight-week- (n=6) and eight-month-old (n=6-7), respectively, female (C57/Bl6xCBAca) mice. Pairs of conscious mice were kept in an air-tight closed system allowing breathing of a mixture containing 18O(2). The 18O(2)-technique was validated by L-NAME (10mg/kg) and lipopolysaccharide (LPS, 8 mg/kg) administration. The concentrations of O(2) and CO(2) in the system were controlled and plasma nitrate analyzed by GC/MS technique. RESULTS: NO formation was similar in young and old mice (young=7.68+/-1.47 vs. old = 6.25+/-1.49 micromol/kg/h, n.s.). Total NO production was reduced after L-NAME treatment in young animals by 91% and in old animals by 71% (p<0.05 for both), whereas LPS administration increased NO production (114+/-17%, p<0.05).Conclusion. NO formation is unaltered with age in mice. The 18O(2)-technique is a valid and specific technique to estimate whole body NO production in conscious mice.