Increase in NO synthase activity might contribute to cytoprotection, and a decrease in activity might be a harmful factor for the gastric mucosa. Preservation of NO synthase activity by FK506 might be involved in FK506's protective effects on the gastric mucosa.
Background: Gastric mucosal microcirculation is an important factor in the protection of gastric mucosa, and nitric oxide (NO) plays a crucial role in the regulation of regional blood flow. This study was designed to evaluate the effect of cetraxate, an antiulcer drug, on water immersion stress-induced gastric lesions in relation to the changes in NO synthase activity. Methods: Gastric lesions were induced in rats by water immersion stress. The effects of cetraxate on NO synthase activity with or without stress was determined enzymatically. Changes in gastric mucosal prostaglandin (PG) contents with or without stress were also determined using high-performance liquid chromatography. Gastric mucosal blood flow was measured by hydrogen gas clearance technique. Results : Water immersion stress-induced gastric lesions. Cetraxate significantly mitigated the lesions but N"-monomethyl-L-arginine (L-NMMA), a specific inhibitor of NO synthase, exacerbated the lesions. The favourable effect of cetraxate was remarkably diminished by administration of L-NMMA. NO synthase activity decreased significantly by 6 h after stress. Cetraxate treatment increased NO synthase activity throughout the experiment in rats with or without stress treatment. Water immersion stress decreased all PGs detected, i.e. 6-keto-PGF1,, PGF,,, PGE, and PGD,. Cetraxate prevented stress-induced decreases in PG contents. L-NMMA showed no significant effect on PG contents. Cetraxate increased gastric mucosal blood flow significantly and L-NMMA cancelled out cetraxateinduced increase in blood flow. Conclusions : The pharmacological efficacy of anti-ulcer drugs such as cetraxate might be attributable to the enhancement of NO synthase activity resulting in an increase in gastric mucosal blood flow.Apart from the significant contribution of Helicobucter pylori, gastric acid secretion and cytoprotective factors play an important role in the genesis of gastric ulcers. The local release of vasodilator mediators in the gastric mucosal microcirculation are of paramount importance in the maintenance of mucosal integrity and defence. Prostaglandin (PG), particularly PGI, in humans, PGI, and PGD, in rats, are important vasodilator mediators and adverse effects on gastric mucosa caused by non-Corrrspondcncc to Dr H. Coto,
1. The present study was designed to investigate whether or not ageing affects the development of water immersion stress-induced gastric lesions in rats. Effects of cetraxate, an anti-ulcer drug, were also examined. 2. Gastric lesions were induced by 6 h water immersion stress in rats. Gastric mucosal blood flow was determined by the hydrogen gas clearance technique and nitric oxide synthase (NOS) activity was measured enzymatically. 3. Early development of gastric lesions was observed in aged rats and exacerbation of gastric lesions was also found. Lowering of gastric mucosal blood flow and reduced NOS activity were observed in aged rats. 4. Cetraxate mitigated the development of gastric lesions in young rats and also increased gastric mucosal blood flow and NOS activity. However, these favourable effects were diminished in aged rats. 5. Decreased NOS activity may be an important exacerbatory factor to the development of gastric lesions in aged rats. 6. Effects of cetraxate differed between young rats and aged rats. 7. These results may explain the refractoriness and drug resistance in gastric ulcers encountered by elderly individuals.
Background: The incidence of mixed hepatitis C virus (HCV) genotype infection is variable, and a few reports exist regarding the efficacy of direct-acting antivirals (DAA) therapy for mixed genotype. We aimed to investigate the prevalence of mixed genotype and its impact on the virologic response to DAA therapy. Methods: A total of 365 patients with chronic HCV infection who completed antiviral therapy were recruited. Nested polymerase chain reaction with universal and specific primers of genotypes 1b and 2 and direct sequencing were used for HCV genotyping. Results: Direct sequencing with universal primers defined genotypes 1b (n = 230), 2a (n = 95), and 2b (n = 40). Direct sequencing of genotype 2 was performed in patients with genotype 1b, and direct sequencing of genotype 1b in patients with genotype 2. Four patients with genotype 1b underwent amplification for genotype 2, and direct sequencing identified genotypes 1b (n = 1), 2a (n = 1), and 2b (n = 2). None with genotype 2 underwent amplification for genotype 1b. Three cases were confirmed to have mixed genotype. Conclusions: Mixed genotype was rare, and hence the impact of mixed genotype on treatment outcome with DAA therapy is expected to be minimal.
We evaluated changes in gastric and colonic mucosal prostanoid contents in rats treated with cisplatin. We also determined effects of gamma-glutamylcysteine ethyl ester (GCE), a pro-drug of glutathione, on cisplatin-induced changes in prostanoid concentrations. Rats were divided into three groups--the control: 0.5 ml of physiological saline was administered intraperitoneally (i.p.); the cisplatin group: 0.5 ml of cisplatin, 10 mg/kg, was administered i.p.; the GCE + cisplatin group: GCE, 30 min before cisplatin injection. In each group, rat gastric and colonic mucosa were isolated and their prostanoid concentrations were determined using high-performance liquid chromatography. 6-Keto-PGF1 alpha, PGF2 alpha, PGE2 were detected in gastric mucosa. In addition to these prostaglandins (PGs), thromboxane (TX) B2 was also detected in the colonic mucosa. In the cisplatin group, gastric mucosal 6-keto-PGF1 alpha concentration decreased significantly 24 h after administration, while PGE2 and PGD2 concentrations were increased significantly after 12 and 24 h, respectively. In colonic mucosa, cisplatin increased PGE2 and PGD2 concentrations, while it decreased TXB2 concentration. 6-Keto-PGF1 alpha concentration was not affected by cisplatin in colonic mucosa. GCE canceled out these changes in prostanoid concentrations in both gastric and colonic mucosa. Changes in prostanoid concentrations might be implicated in the adverse gastrointestinal effects of cisplatin, and clinical application of GCE could be expected.
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