Gastric mucosal protection by sucralfate involves phosphoinositides participation

1. The mechanism of gastroprotective action of an antiulcer drug, sucralfate, was investigated. Studies in vivo were conducted with groups of rats with and without indomethacin pretreatment, and the animals received sucralfate followed by ethanol. In the in vitro system, gastric mucosa was cultured in the presence of sucralfate with and without indomethacin. 2. The in vivo experiments revealed that ethanol caused extensive gastric lesions which were significantly reduced following sucralfate pretreatment. Furthermore, sucralfate was also capable of preventing the detrimental effect of indomethacin on gastric mucus gel dimension and its mucin content. 3. The data with gastric mucosal culture showed that the sucralfate elicited increase in mucin was accompanied by the enhanced turnover of mucosal phosphoinositides. 4. Regardless of the inclusion of indomethacin, sucralfate evoked 23% reduction in phosphatidylinositol, 24% increase in inositol-1-phosphate and 3.4-fold increase in inositol-1,4,5-trisphosphate, thus indicating the activation of phosphoinositide-specific phospholipase C. 5. The results demonstrate that the gastric mucosal protective action of sucralfate is not mediated by endogenous prostaglandins, but appears to involve the metabolism of phosphoinositide-derived messenger molecules.     

Sucralfate protection of gastric mucosa against alcohol-induced injury: a phosphoinositide mediated process

The mechanism of protection by sucralfate against gastric mucosal injury induced by ethanol was investigated. The experiments in vivo were conducted with groups of rats with and without indomethacin pretreatment, and the animals received sucralfate followed by ethanol. In the in vitro experiments, gastric mucosa was cultured in the presence of sucralfate, ethanol, or both. The in vivo experiments revealed that ethanol caused extensive gastric hemorrhagic lesions which were significantly reduced following sucralfate pretreatment and that this effect of sucralfate was not prevented by indomethacin. The data with gastric mucosal culture demonstrated that ethanol caused a 24% decrease in mucin synthesis, while mucin synthesis in the presence of sucralfate increased by 32%. This increase was accompanied by the enhanced metabolism of mucosal phosphoinositides, as reflected by a 22% decrease in PI, 1,2-fold increase in IP1 and 3.4-fold increase in IP3. In contrast, ethanol, caused 1.5-fold increase in IP1 and PIP2, and 35% decrease in PIP, 47% decrease in IP2 and 38% decrease in IP3. However, when the mucosal culture was carried out in the presence of both sucralfate and ethanol, the detrimental changes evoked by ethanol in mucin synthesis were prevented. The results suggest that the mucosal protective action of sucralfate involves the metabolism of phosphoinositide-derived messenger molecules.     

Diosmin Protects against Ethanol-Induced Gastric Injury in Rats: Novel Anti-Ulcer Actions

Alcohol consumption has been commonly associated with gastric mucosal lesions including gastric ulcer. Diosmin (DIO) is a natural citrus flavone with remarkable antioxidant and anti-inflammatory features that underlay its protection against cardiac, hepatic and renal injuries. However, its impact on gastric ulcer has not yet been elucidated. Thus, the current study aimed to investigate the potential protective effects of DIO against ethanol-induced gastric injury in rats. Pretreatment with DIO (100 mg/kg p.o.) attenuated the severity of ethanol gastric mucosal damage as evidenced by lowering of ulcer index (UI) scores, area of gastric lesions, histopathologic aberrations and leukocyte invasion. These actions were analogous to those exerted by the reference antiulcer sucralfate. DIO suppressed gastric inflammation by curbing of myeloperoxidase (MPO) and tumor necrosis factor-α (TNF-α) levels along with nuclear factor kappa B (NF-κB) p65 expression. It also augmented the anti-inflammatory interleukin-10 (IL-10) levels. Meanwhile, DIO halted gastric oxidative stress via inhibition of lipid peroxides with concomitant enhancement of glutathione (GSH), glutathione peroxidase (GPx) and the total antioxidant capacity (TAC). With respect to gastric mucosal apoptosis, DIO suppressed caspase-3 activity and cytochrome C (Cyt C) with enhancement of the anti-apoptotic B cell lymphoma-2 (Bcl-2) in favor of cell survival. These favorable actions were associated with upregulation of the gastric cytoprotective prostaglandin E₂ (PGE₂) and nitric oxide (NO). Together, these findings accentuate the gastroprotective actions of DIO in ethanol gastric injury which were mediated via concerted multi-pronged actions, including suppression of gastric inflammation, oxidative stress and apoptosis besides boosting of the antioxidant and the cytoprotective defenses.     

Correlation between the cytoprotective effect of beta-carotene and its gastric mucosal level in indomethacin (IND) treated rats with or without acute surgical vagotomy.

As to earlier observations that beta-carotene prevents the development of gastric mucosal injury produced by different noxious agent, however, its cytoprotective effect can be abolished by acute surgical vagotomy. The aim of this study was to evaluate the possible correlation between the gastric mucosal cytoprotective effect of beta-carotene and its gastric mucosal level in rats treated with IND. The gastric mucosal damage was produced by the administration of IND (20 mg/kg s.c.). The instillation of beta-carotene and acute surgical vagotomy (ASV) or SHAM operation were carried out 30 min before IND treatment. The rats were sacrificed 4 h after IND application, and the number and severity of gastric mucosal erosions were noted. The blood rats was collected quantitatively, the liver and the gastric mucosa were removed, and the beta-carotene and vitamin A level of the gastric mucosa, serum and liver were measured with HPLC. It was found that: 1. Beta-carotene induced gastric cytoprotection in SHAM-operated rats treated with IND but its effect disappeared after ASV. 2. Although the beta-carotene level of the gastric mucosa increased its concentration was not elevated in the serum of intact and vagotomized animals either. 3. Vitamin A Formation was not detected in the liver of animals with or without ASV. It was concluded that the lack of intake of beta-carotene into the gastric mucosa can not play etiologic role in the failure of gastric cytoprotection of rats with acute bilateral surgical vagotomy.     

Difference between the effect of acute and chronic surgical vagotomy on the cytoprotective action of atropine against indomethacin-induced mucosal lesions on the gastrointestinal tract in rats

The cytoprotective effect of a small dose of atropine was proved against the indomethacin (IND)-caused gastrointestinal (GI) mucosal damage. This protective effect of atropine disappeared in the acute phase of surgical vagotomy (ASV) on the vagally-innervated parts of GI tract. The aims of our observations were: 1) to examine the effect of chronic surgical vagotomy (CSV) on the cytoprotective action of atropine in the GI tract; and 2) to compare the effects of ASV and CSV on the GI cytoprotection caused by atropine against IND-induced mucosal damage and vascular permeability in rats. The IND was given s.c. 24 h prior to the killing of the animals in a dose of 20 mg x kg(-1). Bilateral surgical vagotomy or sham operation were carried out 24 h (ASV) or 14 d (CSV) before IND-application. Atropine was given i.p. every 5 h after IND-treatment in a dose of 0.1 mg x kg(-1). The number of macroscopical mucosal ulcerations was noted and its severity was calculated by semiquantitative scale in the stomach, small intestine and three equal parts of colon. Vascular permeability was measured by Evans-blue leakage into the mucosal tissue. It has been found that: 1) Tte small dose of atropine significantly decreased the IND-induced mucosal damage and vascular permeability on the stomach, small intestine and the vascular permeability on the proximal colon; 2) the small dose of atropine did not cause any changes in the appearance of IND-induced mucosal lesions and in Evans blue concentration in the mucosa after ASV, but it significantly decreased the IND-caused mucosal damage and Evans blue concentration in the mucosa of stomach, small intestine and proximal colon after CSV; 3) the IND-induced mucosal damage and vascular permeability treated with atropine (given in cytoprotective dose) were significantly smaller after CSV than that after ASV on the stomach, small intestine and proximal colon. It has been concluded that the intact vagal nerve has an essential role in the appearance of cytoprotective mechanisms of atropine in GI tract.     

Effects of capsaicin on the development of gastric mucosal damage by different necrotizing agents and of gastric cytoprotection by PGI2 atropine and cimetidine on rats

Capsaicin desensitization was used as a tool to reveal the role of neurogenic inflammation in the gastric mucosal lesions induced by intragastric application of four different noxious chemical agents (96% ethanol, 0.6 M HCl, 0.2 M NaOH, 25% NaCl). In capsaicin desensitized rats the number of lesions did not differ from that of the controls one hour after the application. There was, however, a significant reduction in the severity of the mucosal damage. These findings provide the first evidence for the participation of neurogenic inflammation in the gastric mucosal damage induced by aggressive chemicals. Gastrocytoprotection induced by prostacyclin (PGI2, 5 micrograms/kg), atropine (25 micrograms/kg) or cimetidine (2.5 mg/kg) was not inhibited in capsaicin desensitized rats. The number of lesions was not altered, while the severity of damage was more effectively reduced in the desensitized group. These findings indicate that the cytoprotective effect of these drugs is not mediated through capsaicin-sensitive sensory-efferent local tissue reactions.     

Prevention by aluminium phosphate of gastric lesions induced by ethanol in the rat: role of endogenous prostaglandins and sulfhydryls

This study was designed to demonstrate the cytoprotective effect of an antacid containing aluminium phosphate (Phosphalugel) against ethanol-induced gastric injury in the rat and to determine whether this cytoprotective effect is mediated by endogenous prostaglandins and sulfhydryls. We have quantitatively evaluated gastric mucosal lesions using macroscopic and histological techniques one hour after ethanol administration. Two ml of aluminium phosphate given orally one hour before administration of 2 ml of 100% ethanol significantly (p less than 0.01) reduced the area of macroscopic lesions induced by ethanol (3.3 +/- 0.9%) when compared to distilled water (20 +/- 4.8%). The histological study showed that aluminium phosphate prevented deep tissue necrosis. However, it did not protect surface epithelial cells against ethanol injury. Pretreatment with indomethacin, 5 mg/kg sc one hour before aluminium phosphate, slightly but significantly (p less than 0.05) reduced the cytoprotective effect of aluminium phosphate. Macroscopic lesions occupied 4.3 +/- 0.94% and 1.88 +/- 0.41% of total mucosal area in indomethacin group and in vehicle group, respectively. On the other hand, the sulfhydryl blocker, N-ethyl-maleimide, 10 mg/kg sc, given one hour before aluminium phosphate, completely abolished the cytoprotective effect of aluminium phosphate (32.92 +/- 4.85% in N-ethyl-maleimide group versus 3.78 +/- 1.41% in vehicle group; p less than 0.01). These results show that aluminium phosphate has a cytoprotective effect against ethanol injury in the rat. This property appears to be mediated by both endogenous prostaglandins and sulfhydryls.     

Dose-dependent effects of linear and cyclic somatostatin on ethanol-induced gastric erosions: the role of mast cells and increased vascular permeability in the rat

Somatostatin prevents hemorrhagic gastric erosions produced by ethanol. In this paper we describe studies with linear (reduced) and cyclic (oxidized) synthetic somatostatin-14 in the rat model of ethanol-induced gastric mucosal injury. The linear form of somatostatin was more potent at concentrations of 10(-9) to 10(-8) mol per rat than the cyclic isomere. However, at a concentration of 10(-7) mol per rat i.p. injection of linear somatostatin significantly (P less than 0.01) enhanced gastric erosions caused by the alcohol. The area of hemorrhagic mucosal lesions correlated significantly (r = -0.846) with mast cell depletion in the gastric mucosa of the animals. Increased vascular permeability and mast cell degranulation were also observed after intradermal injection of linear or cyclic somatostatin. The 'cytoprotective' as well as the aggravating potency of linear somatostatin may be connected to gastric mucosal mast cell activity in the rat.     

Effects of sucralfate on gastric prostaglandin and leukotriene synthesis: relationship to protective actions

The mechanism of the protective actions of sucralfate against ethanol-induced gastric mucosal damage in the rat has been investigated. In particular, the role of prostaglandins as mediators of such protection was assessed. Oral administration of sucralfate at a dose causing a significant reduction of ethanol-induced gastric damage (500 mg/kg) did not significantly alter gastric 6-ketoprostaglandin F1 alpha synthesis. Pretreatment with indomethacin at a dose that inhibited gastric cyclooxygenase activity by an average of 88% did not affect the protective actions of sucralfate. To further investigate the mechanism of action of sucralfate, an ex vivo gastric chamber model was used in which sucralfate could be applied to only one side of the mucosa. Sucralfate did not affect gastric prostaglandin synthesis, but did cause a significant increase in leukotriene C4 synthesis, a fall in transmucosal potential difference, and a significant decrease in gastric myeloperoxidase activity on the side exposed to sucralfate. These observations suggest that sucralfate has an irritant action on the mucosa. The release of mediators in response to such irritation may play an important role in the protective action of sucralfate. The present study supports the hypothesis that prostaglandins do not mediate the protection afforded by exposure to sucralfate.     

Interleukin-1 is cytoprotective, antisecretory, stimulates PGE2 synthesis by the stomach, and retards gastric emptying

Human recombinant interleukin 1 beta (IL-1) administered intraperitoneally to rats produced the following gastric effects: 1. It was cytoprotective, preventing gastric mucosal necrosis produced by oral administration of one ml of absolute ethanol to fasted animals. The ED50 was 1200 units/kg (110 ng per animal). IL-1 was 125 times more potent than prostaglandin E2 (on a weight basis), and 6,000 times more potent (on a molar basis). 2. The cytoprotective effect of IL-1 was blocked by indomethacin (inhibitor of prostaglandin synthesis) and by IRAP (a specific interleukin-1 receptor antagonist protein). IRAP did not inhibit cytoprotection induced by PGE2. 3. IL-1 prevented the formation of gastric erosions induced by aspirin. 4. IL-1 inhibited gastric secretion (volume, acid concentration and output), in the pylorus-ligated rat, with an ED50 of 300 units/kg (3.2 ng per animal). 5. Indomethacin and IRAP blocked the antisecretory effect of IL-1. 6. IL-1 retarded gastric emptying, an effect blocked by IRAP, but not by indomethacin. 7. IL-1 increased synthesis of prostaglandin E2 by the gastric mucosa by 111%. IL-1 is the most potent of known agents that are gastric cytoprotective, antiulcer, antisecretory, and delay gastric emptying. It appears to act mostly by stimulating the synthesis of prostaglandins by the stomach. These studies suggest that the stomach possesses IL-1 receptors. These are probably located on parietal cells (that produce acid), on prostaglandin-producing cells, on smooth muscle cells (responsible for gastric emptying), and on as yet unidentified cells involved in gastric cytoprotection. Both IL-1 and IRAP, being natural substances, may play a physiological role in the maintenance of gastric mucosal integrity, and in the regulation of acid secretion and gastric motility.     

Acute and chronic surgical vagotomy (SV) and gastric mucosal vascular permeability in ethanol treated rats.

The role of vagus nerve was studied in the development of gastric mucosal damage induced by ethanol (ETOH). The investigations were carried out on Sprague-Dawley rats. The gastric mucosal damage was produced by i.g. administration of 1 ml 96% ETOH. Acute surgical vagotomy (ASV) was carried out 30 min, chronic surgical vagotomy (CSV) 14 days before the ETOH application. The animals were sacrificed at 0, 1, 5, 15, 60 min after ETOH. Evans blue (EB) (1 mg/100 g) was given i.v. 15 min before autopsy. The number and severity of lesions the EB accumulation of the gastric juice and gastric mucosa were noted. It was found, that: 1. The vascular permeability increased after ETOH treatment at an early state (within 1-5 min) in association to the macroscopic appearance of erosions. 2. The number and extension of lesions, the EB concentrations in gastric juice and gastric mucosa were significantly higher both after ASV and CSV. 3. Surgical vagotomy alone did not increase the vascular permeability. 4. No significant ulcer formation was observed in vagotomized rats without ETOH treatment. It was concluded, that 1. Both ASV and CSV enhanced the development of gastric mucosal injury induced by ethanol. 2. Neither acute nor chronic surgical vagotomy exerted an effect of the development of mucosal injury and vascular permeability without the application of the noxious agent. 3. The further increase of enhanced vascular permeability by vagotomy probably has an etiologic role in the aggravating effect of ASV and CSV on the development of chemical-induced lesions.     

Interrelationships between the development of the gastric cytoprotective effects of prostacyclin, atropine, cimetidine and the gastric mucosal superoxide dismutase activity in rats

Gastric mucosal damage was produced by the intragastric administration of 96% ethanol or 0.6 M HCl. The cytoprotective doses of prostacyclin (PGI2) (5 micrograms/kg), atropine (0.025 mg/kg) or cimetidine (2.5 mg/kg) were given intraperitoneally 30 min before the administration of the necrotizing agents. The animals were killed 1 hr later. The number and severity of gastric mucosal lesions (ulcer) were recorded. At the time of the sacrifice of the animals, superoxide dismutase (SOD) was prepared from the gastric fundic mucosa and its activity was measured. It was found that PGI2 (5 micrograms/kg), atropine (0.025 mg/kg) and cimetidine (2.5 mg/kg) significantly decreased the number and severity of gastric mucosal lesions (ulcers) produced by the intragastric administration of 96% ethanol a 0.6 M HCl, PGI2, atropine, cimetidine, given in cytoprotective doses, significantly mounted the ethanol-induced increase of gastric mucosal SOD activity; PGI2, atropine, cimetidine, given them in cytoprotective doses significantly shunted the HCl-induced decrease of gastric mucosal SOD activity. It has been concluded that; chemically different cytoprotective agents (PGI2, atropine, cimetidine) give rise to similar tendencies in the changes of gastric mucosal SOD activity; both the significant decrease (in the ethanol-model) and the significant increase (in the HCl-model) of this enzyme seem to be involved in the development of gastric mucosal protection by PGI2, atropine and cimetidine.     

The key-role of vagal nerve and adrenals in the cytoprotection and general gastric mucosal integrity.

BACKGROUND: Our laboratory group observed earlier that the gastric mucosal cytoprotective effect of prostacyclin (PGI(2)) disappeared after surgical vagotomy in rats. Similarly to this, the beta-carotene induced gastric cytoprotection disappeared in adrenalectomized rats too. AIMS: In these studies we aimed to investigate the possible role of vagal nerve and adrenals in the development of gastric mucosal lesions induced by exogenously administered chemicals (ethanol, HCl, NaOH, NaCl and indomethacin), and on the effects of cytoprotective and antisecretory drugs (atropine, cimetidine), and scavengers (vitamin A and beta-carotene). METHODS: The observations were carried out in fasted CFY strain rats. The gastric mucosal lesions were produced by intragastric (i.g.) administration of narcotising agents (96% ethanol; 0.6 M HCl; 0.2 M NaOH; 25% NaCl) or subcutaneously (s.c.) administered indomethacin (20 mg/kg) in intact, surgically bilaterally vagatomized, and adrenalectomized rats without or with glucocorticoid supplementation (Oradexon, 0.6 mg/kg given i.m. for 1 week). The gastric mucosal protective effect of antisecretory doses of atropine (0.1-0.5-1.0 mg/kg i.g.) and cimetidine (10-25-50 mg/kg i.g.), and vitamin A and beta-carotene (0.01-0.1-1.0-10 mg/kg i.g.) was studied. The number and severity of mucosal gastric lesions was numerically or semiquantitatively measured. In other series of observations the gastric acid secretion and mucosal damage were studied in 24 h pylorus-ligated rats without and with acute bilateral surgical vagotomy. RESULTS: It was found that: (1) the chemical-induced gastric mucosal damage was enhanced in vagotomized and adrenalectomized rats, meanwhile the endogenous secretion of gastric acid, and the development of mucosal damage can be prevented by surgical vagotomy; (2) the gastric cyto- and general protection produced by the drugs and scavengers disappeared in vagotomized and adrenalectomized rats; (3) the gastric mucosal protective effects of drugs and of scavengers returned after sufficient glucocorticoid supplementation of the rats. CONCLUSION: It has been concluded that the intact vagal nerve and adrenals have a key role in the gastric mucosal integrity, and in drugs- and scavengers-induced gastric cyto- and general mucosal protection.     

植物油对大鼠应激性胃粘膜损伤的保护作用

将大鼠捆缚后置于4℃冰箱3h,造成应激性胃粘膜损伤,损伤程度用损伤指数表示:(1)在应激前3h 用0.5、1.0、2.Oml 的花生油灌胃,使损伤指数从对照的18.8—22.6降为6.8—7.0,P<0.01,但当花生油用量降至0.25ml 时,其保护作用不明显;(2)在应激前0.5、1.5、2.5和3.5h用1.0ml 花生油灌胃,也均有保护作用,(3)菜籽油或油酸有类似花生油的抗胃粘膜损伤作用,而且油酸的作用比花生油更显著,但30%甘油却无效;(4)将1.0ml 花生油注入空肠,具有与灌胃相似的保护作用;(5)在大鼠应激前1.5h 肌注消炎痛(10mg/kg),并不能阻断花生油的保护作用。以上结果表明,花生油等植物油能够通过其脂肪酸成分作用于小肠而产生对抗应激性胃粘膜损伤的作用。这种保护作用的机理不明,但似与前列腺素无关。     

Up-regulation of endothelin-1 in gastric mucosal inflammatory responses to Helicobacter pylori Lipopolysaccharide: effect of omeprazole and sucralfate.

BACKGROUND: Helicobacter pylori is recognized as a primary etiologic factor in the development of gastric disease and the product of particular significance to the virulent action of the bacterium is its cell wall lipopolysaccharide. We applied the animal model of H. pylori lipopolysaccharide-induced acute gastritis to study the effect of antiulcer agents, omeprazole and sucralfate, on the course of mucosal inflammatory responses by analyzing the interplay between the extent of epithelial cell apoptosis and the mucosal expression of endothelin-1 (ET-1), tumor necrosis factor-alpha (TNF-alpha), and the activity of constitutive (cNOS) and inducible (NOS-2) nitric oxide synthase. METHODS: Rats pretreated twice daily for 3 consecutive days with omeprazole at 40 mg/kg, sucralfate at 100 mg/kg or the vehicle, were subjected to intragastric application of H. pylori lipopolysaccharide at 50 microg/animal, and after 2, 4, and 10 additional days on the antiulcer drug or vehicle regimen their mucosal tissue used for histologic and biochemical assessment. RESULTS: In the absence of antiulcer agents, H. pylori lipopolysaccharide elicited within 2 days a pattern of acute mucosal inflammatory responses accompanied by a massive epithelial cell apoptosis, a 2.9-fold increase in the mucosal expression of ET-1, an 11.7-fold enhancement in TNF-alpha, and a 9.3-fold increase in NOS-2, while cNOS activity showed a 5.5-fold decrease. The extent of mucosal inflammatory involvement reached a maximum by the 4th day and showed a decline by the 10th day. This was reflected in a marked reduction in epithelial cell apoptosis, decrease in the mucosal expression of ET-1, TNF-alpha and NOS-2, and the recovery in cNOS activity. Comparing to the vehicle controls, treatment with proton pump inhibitor, omeprazole, led at the end of a 10 day period to a 48.3% reduction in the extent of mucosal inflammatory involvement elicited by H. pylori lipopolysaccharide, while a 74.2% reduction in the mucosal inflammatory involvement was achieved with gastroprotective agent, sucralfate. Moreover, this advantage of sucralfate over omeprazole in countering the lipopolysaccharide-induced changes was reflected at the end of 10 day treatment period in a 20.4% greater decrease in apoptosis, a 47.5% greater reduction in TNF-alpha and a 50.7% greater reduction in ET-1. However, both agents exerted similar influence on the restoration of gastric mucosal cNOS activity and showed a comparable effect at the end of a 10 day treatment in countering the lipopolysaccharide-induced increase in the expression of NOS-2. CONCLUSIONS: The findings suggest that an increase in the mucosal ET-1 level elicited by H. pylori lipopolysaccharide, combined with a decline in cNOS may be responsible for the induction of TNF-alpha and triggering the inflammatory process. We also show that sucralfate exhibits greater efficacy than omeprazole in suppressing the H. pylori-induced mucosal inflammatory responses. This property of sucralfate may well be due to its ability to suppress the mucosal rise in ET-1.     

Atropine-induced gastrointestinal cytoprotection dependences to the intact of vagal nerve against indomethacin-induced gastrointestinal mucosal and microvascular damage in rats

The non-steroidal antiinflammatory drugs, such as an indomethacin (IND), cause mucosal ulceration and increase the mucosal vascular permeability in the gastrointestinal (GI) tract. Some exogenous agents, e.g. the atropine, can protect the GI mucosa against these ulcerogenic effects. The gastrointestinal functions and mucosal protection, however, are regulated by the vagal nerve. The aims of this study was to examine the dependence of atropine-induced GI cytoprotection to the vagal innervation against the development of IND-caused ulcers and microvascular damage in the mucosa of stomach and small intestine in rats. METHODS: the observations were carried out on CFY-strain rats. The mucosal damage was produced by subcutaneous administration of IND in a 20 mg/kg dose 24 h prior to the killing of animals at the same time as the start of atropine-application, which was given in a small dose (0.1 mg/kg) every 5 h. The subdiaphragmatic bilateral surgical vagotomy was done 24 h before the experiment. The vascular permeability, indicated by the microvascular endothel damage, was measured by the appearance and concentration of intravenously administered Evans blue into the GI mucosa. The number and severity of mucosal lesions and the Evans blue content of mucosa were determined in the stomach and small intestine. RESULTS: (1) The IND caused mucosal ulcers and Evans blue extravasation into the mucosa of the stomach and small intestine. (2) The IND-induced mucosal ulceration and vascular permeability significantly decreased after atropine-administration in the same parts of GI tract. (3) The extent of cytoprotective effect of atropine against the IND was decreased after bilateral surgical vagotomy. CONCLUSIONS: (1) The IND causes microvascular endothel damage in the stomach and small intestinal. (2) The atropine has a cytoprotective effect in the stomach and small intestine against the aggressive effects of IND without decrease of gastric acid secretion. (3) The intact vagal nerve is necessary to the function of cytoprotective mechanisms of atropine against the IND.     

Effects of methylphenidate and pentobarbital on the spontaneous activity levels of rats with selective hippocampal system damage

The effects of various types of experimentally-induced neural damage involving selective areas of the hippocampal system on spontaneous non-operant activity were studied in adult male rats using stabilimeter apparatus. A hierarchy of lesion-induced activity increases relative to sham-lesioned controls was revealed in which colchicine-induced dentate granule cell lesions produced the greatest increase in activity and kainic acid-induced pyramidal cell lesions produced the least. Methylphenidate (0.2, 0.4, 2.0, 4.0, 8.0 mg/kg) tended to increase this activity in a dose-dependent manner while pentobarbital (0.5, 1.0, 5.0, 10.0 mg/kg) tended to decrease it. These results indicate that such neural damage does not sufficiently alter the responsivity of rats to these drugs to produce a "paradoxical" effect although some lesion group differences in drug responsivity were seen. All this is discussed in light of the neuro-architecture of this system.     

Role of sulfhydryls and early vascular lesions in gastric mucosal injury

This paper reviews the recently discovered role of sulfhydryls and early vascular injury in the pathogenesis of acute gastric mucosal injury. In the rat ethanol caused a dose-dependent decrease in nonprotein sulfhydryl concentration in the gastric mucosa within 1-5 min following an intragastric dose. These biochemical changes were accompanied by increased vascular permeability in the glandular stomach as revealed by the measurement of extravasated Evans blue injected i.v. prior to the administration of ethanol. Morphologic evidence of vascular injury was provided by labelling of damaged blood vessels in the stomach following the i.v. administration of colloidal particles in the form of india ink or monastral blue. The functional and structural damage to capillaries and venules in the glandular stomach was also maximal within 1-6 min after 1 ml of 75 or 100% ethanol given orally. Pretreatment with sulfhydryl (SH) containing drugs (e.g., L-cysteine, N-acetyl-L-cysteine, cysteamine, dimercaprol) or prostaglandin (PG) F2 beta prevented the ethanol-induced increase in vascular permeability, the labelling of blood vessels with vascular tracers, and the subsequent haemorrhagic erosions. The desquamation of superficial epithelial cells, however, was not markedly modified by either SH or PG compounds. This organoprotective effect of SH and PG drugs was virtually counteracted in adrenalectomized rats that exhibited "vascular fragility". Glucocorticoid treatment restored the response of adrenalectomized animals. Thus, a SH- and glucocorticoid-sensitive early vascular injury seems to be of major significance in the pathogenesis of haemorrhagic gastric erosions and SH-containing compounds represent a new group of cytoprotective or organoprotective agents.     

Prevention by bombesin of cold-restraint stress induced hemorrhagic lesions in rats

Several neuropeptides, injected intraventricularly (ivt), were assessed for their effects on cold-restraint-induced hypothermia and hemorrhagic gastric lesions in 24 hr fasted rats. Bombesin (5-1 μg) further enhanced the drop in body temperature following stress and markedly prevented the gastric erosions in a dose-dependent fashion (5-0.1 μg). β-endorphin exerted a similar effect, but only at the 5 μg dose level. Other peptides (neurotensin, substance P, somatostatin and TRH: 5 μg) did not influence susceptibility to the gastric mucosal damage. Somatostatin and TRH reduced the hypothermic effect of stress. Bombesin is 250 times less potent when injected systemically than ivt and its actions are not reversed by nalaxone. The prevention of gastric erosions by bombesin could initially involve a central mechanism of action, independent of opiate receptors and possibly related to the sustained and marked hyperglycemia observed in bombesin treated rats exposed to stress.     

Effects of zinc-aspartate and zinc-glycinate in healthy rats and on reserpine-induced gastric lesions

Experimental studies performed on 227 rats showed that Zn-aspartate and Zn-glycinate administered ip lowered the incidence, number, and severity of the reserpine-induced gastric lesions ensuring significant protection indices. Histochemical methods revealed increased amount of mucosal glycoproteins. The activity of dehydrogenases involved in energy metabolism that modulates acid secretion in the parietal cells was depressed. RNA content in the chief cells as premises of pepsinogen synthesis, was decreased. ATPase reaction in the periglandular capillaries was uniform and stronger, showing an improvement of gastric mucosal microcirculation. Since these histochemical changes were also noted in healthy rats receiving Zn salts, it might be suggested that they are not the mere expression of an anti-ulcer protective effect of zinc, but rather reflect its mechanism of action, relating to the complex metabolic events induced by the trace element. Our results are in agreement with those previously reported concerning the noxious influence of Zn depletion, the accelerated healing of peptic ulcer patients after Zn treatment, and the protective effect of Zn against ulcerogenesis in several experimental models involving different pathomechanisms.