NO and MDA levels are elevated in psoriasis patients, which may indicate that oxidative stress plays an important role in the aetiopathogenesis of psoriasis.
OBJECTIVE To investigate the effect of selective nuclear factor κ‐B (NFκ‐B) inhibitors, pyrolidium dithiocarbamate (PD) and sulfasalazine (SZ) on renal tubular necrosis and inducible nitric oxide synthase (iNOS) and NFκ‐B expression induced by gentamicin in rats. MATERIALS AND METHODS In all, 48 adult male Sprague‐Dawley rats were divided into six equal groups; group 1, control; group 2, injected with gentamicin for 10 days (100 mg/kg/day, intraperitoneal, i.p.); group 3, injected with gentamicin plus PD (100 mg/kg/day, i.p.); group 4, injected with gentamicin plus SZ (75 mg/kg/day, i.p.); group 5, injected with gentamicin plus distilled water (vehicle for PD); and group 6, injected with gentamicin plus ammonium hydroxide (75 mg/day, 1 m, vehicle for SZ) for 10 days. At 24 h after the last injection, rats were killed and the renal cortex separated from the medulla. A small sample was fixed in formaldehyde solution for histological and immunohistochemical examination. Blood samples were also taken to assess the serum levels of urea, creatinine, Na+, K+ and γ‐glutamyl transpeptidase (GT). Crude extracts of the cortex were used to determine reduced glutathione (GSH‐Px), NO and malondialdehyde (MDA). Immunohistochemically, iNOS and the active subunit of NFκB, P65, were evaluated using mouse monoclonal antibodies. RESULTS On haematoxylin and eosin staining, compared with the controls rats, gentamicin caused widespread tubular necrosis (grade 3 and 4) but in group 3 and 4 there was a marked reduction in the extent of tubular damage. Immunohistochemically there was more marked staining for iNOS and P65 expression in rats given gentamicin than in the control and group 3 and 4 (P < 0.001). In groups 3 and 4 iNOS and P65 expression were significantly less than in rats given only gentamicin. There was no significant difference in serum levels of Na+, K+, blood urea nitrogen and creatinine. Compared with control rats, gentamicin caused hyperproteinuria, a marked increase in levels of serum γ‐GT, MDA and NO, and a decrease in GSH‐Px (P < 0.001). CONCLUSION These results indicate that gentamicin induces iNOS expression through activation of NFκ‐B (P65). It is possible to prevent gentamicin‐induced nephrotoxicity using selective NFκ‐B inhibitors.
Objective: Cisplatin (DDP, cis-diamminedichloroplatinium II) is one of the most potent chemotherapeutic antitumor drugs, but is able to generate reactive oxygen species (ROS) and it also inhibits the activity of antioxidant enzymes in renal tissue. In the present study, we investigated the preventive effect of 100, 200 and 400 mg/kg b.w. doses of vitamin E (VE), and 25, 50, and 100 mg/kg b.w. doses of vitamin A (VA) combination on malondialdehyde (MDA), nitric oxide (NO), and glutathione (GSH) levels and superoxide dismutase (SOD) activity in cisplatin-induced toxicity in rat kidneys. Our literature survey indicated a lack of any experimental study showing the beneficial effect of VA on cisplatin-induced MDA, NO, GSH and SOD changes. For this reason, we hoped that this study would provide a unique contribution in that respect. Materials and Methods: 59 Wistar rats (11 to replace prematurely lost animals) were used. 48 evaluable rats were divided into 8 groups (n = 6 in each group): control group, DDP alone (5 mg/kg b.w.) group, 3 VE combination treatment groups of VE100+DDP, VE200+DDP, and VE400+DDP, and 3 VA combination treatment groups of VA25+DDP, VA50+DDP, and VA100+DDP. Kidney MDA, GSH, NO levels and SOD activities were determined for the assessment of oxidant-antioxidant balance. Results: While in the DDP group the tissue levels of MDA and NO were found to be significantly higher than in the control group, GSH levels and SOD activities were significantly lower. MDA and NO levels were found to be significantly lower and GSH levels and SOD activities significantly higher in the VE200+DDP and VE400+ DDP groups when compared with the DDP alone group. MDA and NO levels were found to be significantly lower in the VA50+DDP and VA100+DDP groups when compared with the DDP alone group. However, identical comparisons with the DDP alone group showed significantly higher GSH levels and SOD activities in the VA25+DDP, VA50+DDP, and VA100+DDP groups. Among the VE100+ DDP, VE200+DDP, and VE400+DDP groups, and VA25+ DDP, VA50+DDP, and VA100+DDP groups, MDA and NO levels decreased and GSH levels and SOD activities increased steadily and significantly as the doses of VE and VA increased. Conclusion: These vitamins would be effective in protecting against cisplatin-induced tissue damage in rat kidneys. It is possible that the toxic effect of cisplatin is somehow minimized by a compensatory mechanism involving VE and VA via induction of antioxidant enzyme activities following intraperitoneal injection of DDP.
Partial hepatectomy resulted in oxidative disturbances in intestinal wall, which in turn gave rise to BT. Parenteral NAC protects the intestinal wall from oxidative injury and attenuates BT.
The aim of the present study was to determine the relevance of serum nitric oxide levels and the efficacy of selective serotonin reuptake inhibitors (SSRI) treatment on premature ejaculation. Sixty married men (aged 20-50) with lifelong premature ejaculation and forty healthy men (aged 24-48) as control group were included in this study. The patients were evaluated by intravaginal ejaculation latency time (IELT) for premature ejaculation (PE). IELT<1 min is accepted PE. Patients with diabetes mellitus, chronic disorders or erectile dysfunction and heavy smokers were excluded. All patients were evaluated with history, physical examination, International Index of Erectile Dysfunction-5 (IIEF-5) score and IELT by stopwatch method. Nitric oxide levels were measured by Griess reaction, and all samples were frozen at -80 °C. Patients were randomly categorised 4 group to receive fluoxetine 20 mg day(-1) (Group 1), paroxetine 20 mg day(-1) (Group 2), sertraline 50 mg day(-1) (Group 3) and healthy control (Group 4) for 4 weeks. Baseline and post-treatment findings were compared between the four groups. At the end of 4 weeks, in fluoxetine, paroxetine, sertraline groups mean IELT values showed a statistically significant improvement from the baseline values (P < 0.001, P < 0.001, P = 0.03; respectively). Baseline and 1st month follow-up mean IIEF scores were 24.5 and 23.05, 24.70 and 23.60 (P < 0.05) in group 1 and group 3 respectively; also 23.09 and 23.32 (P > 0.05) in group 2. Baseline serum NO levels were 31.8, 30.44, 30.8 and 42.84 in fluoxetine, paroxetine, sertraline and healthy control groups respectively. NO levels were statistically lower in patients with PE. After treatment of fluoxetine, paroxetine and sertraline, NO levels were increased baseline (35.8, 36.4, 38.08) (P < 0.05). Our findings indicated that PE is associated with decreased serum NO levels. After the SSRI treatment increased, NO may retard ejaculation presumably by central peripheral mechanism. Further studies are needed to confirm this suggestion and the role of NO in pathophysiology and treatment for premature ejaculation.
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