Is acute surgical vagotomy an aggressor to gastric mucosa in pylorus ligated rats with and without indomethacin treatment?

Previously it was proved that intact vagal nerve is basically necessary for the development of gastric cytoprotection. The aims of this study were to receive further data about the role of vagal nerve in the development of gastric mucosal damage. The observations were carried out on Sprague-Dawley rats. Acute bilateral surgical vagotomy was done with pylorus ligation and/or indomethacin (IND) treatment (20 mg/kg, sc.) at the time of operation. The animals were sacrificed 4 h after the operation. The number, the severity (semiquantitative method), the mean size and summed surface (computer assisted quantitative method) of gastric mucosal damage, the H+ output and the mucosal PGE2 level were determined. It has been found that 1) the ASV itself (without IND or pylorus ligation) provoked gastric mucosal damage, which was more severe than in the pylorus ligated animals at 4 h; 2) IND was able to reduce the summed surface of mucosal damage after ASV; 3) ASV aggravated the gastric mucosal damage in pylorus ligated animals in spite of the decreased H+ output; 4) the PGE2 level was lower in vagotomized and vagotomized+pylorus ligated animals then in the control group, and the IND did not cause further decrease in its level after ASV. It has been concluded that the balance between aggressive and defensive factors of gastric mucosa was shifted to the aggressive side in surgically vagotomized animals.     

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.     

Effect of acute surgical vagotomy on the mucosal content of 6-keto-PGF1 alpha, PGE2 and glutathione after intragastric 96% ethanol treatment in rats.

It has been observed earlier that gastric cytoprotection produced by PGI2, beta-carotene, small doses of atropine or cimetidine has failed in surgically vagotomized rats. This phenomenon may be in connection with endogenous prostaglandins (PGs) and glutathione (GSH) level of the gastric mucosa. The aims of the study were to evaluate the effect of vagus nerve on the gastric mucosal 6-keto-PGF1 alpha, PGE2 and glutathione after intragastric 96% ethanol (ETOH) treatment. The observations were carried out on CFY rats. The gastric mucosal damage was produced by intragastric administration of 1 ml 96% ETOH. Acute bilateral surgical vagotomy (ASV) was carried out 30 min prior to ETOH application. The animals were sacrificed 1, 5, 15 or 60 min after ETOH installation. The number and the severity of gastric mucosal lesions were noted and 6-keto-PGF1 alpha, PGE2 an GSH contents of gastric mucosa were measured. It has been found that: 1. the number and the severity of gastric mucosal lesions were increased after ASV compared to those with intact vagal nerve, 2. 96% ETOH treatment increased both the gastric mucosal PGs and GSH levels, 3. 6-keto-PGF1 alpha peaked at 5 min PGE2 and GSH peaked at 15 min after ETOH treatment, 4. ASV decreased the gastric mucosal PGs content and delayed the peaks of PGE2 and GSH. It has been concluded that the decreased content of PGs and the delayed GSH increase may play a pathological role in the failure of gastric cytoprotection of rats after ASV.     

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.     

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.     

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.     

The free radical mechanisms in beta-carotene induced gastric cytoprotection in HCl model

The aims of our experiments were to clear up the possible correlations between the free radical mechanisms and the gastric cytoprotection of beta-carotene on HCl-induced gastric mucosal lesions. The beta-carotene was intragastrically given in doses of 1 and 10 mg/kg and 30 min. later 1 ml 0.6 N HCl was given to provoke the mucosal damage. After 1, 5, 15, 30 and 60 min. the animals were sacrificed. The number and severity of gastric mucosal lesions were calculated. The superoxide dismutase (SOD), glutathion peroxidase (GPX), catalase (CAT) activity and the malondialdehyde (MDA) and reduced glutathion (GSH) contents were determined from the gastric mucosa of rats. It was found that 1. beta-carotene was able to reduce the number and severity of ulcers only after 30 min.; 2. the CAT activity was decreased at 60 min. by carotene; 3. the GPX activity became dissimilar in the different groups after 15 min; 4. the changes of GSH were found to be similar ones; 5. the SOD activity was lower during the cyto-protection; 6. the MDA level remained practically unchanged. It has been concluded that 1. the free radicals are the consequences of the development of gastric ulcer and cytoprotection; 2. the scavenger character of beta-carotene is involved in its cytoprotective effect.     

Vagal nerve and the gastric mucosal defense

An essential role for an intact vagal nerve has been proven in the development of gastric mucosal cyto- and general protection. On the other hand, chemically-induced (ethanol, HCl, indomethacin) gastric mucosal damage is enhanced after acute surgical vagotomy. The aims of this paper were to study the possible mechanisms of the vagal nerve in the development of gastric mucosal defense. The following questions were addressed: 1) effect of surgical vagotomy on the development of ethanol- (ETOH), HCl-, and indomethacin (IND)-induced gastric mucosal damage; 2) changes in the gastric mucosal defense by scavengers, prostacyclin and other compounds (small doses of atropine and cimetidine: 3) changes in the gastric mucosal vascular permeability due to chemicals; 4) effect of indomethacin in the ETOH and HCl models with and without surgical vagotomy; 5) changes in the gastric mucosal content of prostacyclin and PGE₂ in the ETOH and HCl models after surgical vagotomy; and 6) changes in the role of SH-groups in gastric mucosal defense after surgical vagotomy. It was found that: 1) the gastric mucosal damage produced by chemicals (ETOH, HCl, and indomethacin) was enhanced after surgical vagotomy; 2) the cyto- and general gastric protective effects of β-carotene, prostacyclin, and small doses of atropine and cimetidine disappeared after surgical vagotomy; 3) the vascular permeability due to chemicals (ETOH, HCl, indomethacin) significantly increased after surgical vagotomy in association with an increase in both number and severity of gastric mucosal lesions; 4) IND alone (in animals with an intact vagus) did not produce gastric mucosal lesions (in 1-h experiments), but it aggravated ETOH-induced gastric mucosal damage (both its number and severity); 5) the gastric mucosal levels of prostacyclin and PGE₂ decreased after surgical vagotomy; 6) IND application (after surgical vagotomy) decreased further the tissue levels of prostacyclin and PGE₂ in association with an increase of gastric mucosal damage; and 7) the gastric mucosal protective effects of SH-groups were abolished by surgical vagotomy.     

Changes of gastric mucosal biochemistry in ethanol-treated rats with and without acute surgical vagotomy

The biochemical background of ethanol-(ETOH) induced gastric mucosal damage was studied in rats with intact vagus and after acute surgical vagotomy. Observations were carried out on Sprague-Dawley (CFY) strain rats of both sexes. Gastric mucosal lesions were produced by intragastric administration of 1 ml 96% ethanol. Bilateral truncal surgical vagotomy was carried out 30 min before ETOH administration. The number and severity of gastric mucosal lesions was noted 1 h after ETOH administration. Biochemical measurements (gastric mucosal level of ATP, ADP, AMP, cAMP and lactate) were carried out from the total homogenized gastric mucosa. The adenylate pool (ATP + ADP + AMP), energy charge ((ATP + 0.5 ADP)/(ATP + ADP + AMP)) and ratio of ATP/ADP were calculated. It was found that: 1) ATP transformation into ADP increased, while ATP transformation in cAMP decreased in ethanol-treated animals with intact vagus nerve, while these transformations were quite the opposite in vagotomized animals; 2) no significant changes were found in the tissue level of lactate: and 3) the extent of biochemical changes was significantly less after surgical vagotomy. It is concluded that an intact vagus is basically necessary for the metabolic adaptation of gastric mucosa.     

Effect of atropine, PGF2 alpha and cimetidine on the beta-carotene induced cytoprotection in ethanol-treated rats

The aim of the study was to evaluate the influence of atropine, PGF2 alpha and cimetidine on the gastric cytoprotective effect of beta-carotene. Mucosal damage was produced by intragastric (i.g.) addition of 96% ethanol in CFY-strain rats of both sexes weighing 180-220 g. Gastric cytoprotection caused by i. g. pretreatment with 1.0 mg/kg beta-carotene 30 minutes before ethanol administration, was observed after 1 hour. Atropine (0.5 mg/kg), cimetidine (50 mg/kg) and PGF2 alpha (200 micrograms/kg) were given intraperitoneally (i.p.) 30 minutes before ethanol administration with and without beta-carotene and the changes in the number and severity of the gastric ulcers were detected. PGF2 alpha did not influence the gastric cytoprotective effect of beta-carotene meanwhile it was inhibited by atropine and markedly by cimetidine. Deleterious effect of cimetidine on the beta-carotene-induced cytoprotection may be explained perhaps by the adverse effect of the two compounds on ATP-cAMP transformation hereby counteracting one another, but more data are needed to the better understanding of drug interactions relating to mucosal cytoprotection.     

细胞更新对慢性饮酒大鼠胃黏膜适应性细胞保护的影响

目的: 以低浓度酒精作为弱刺激,通过慢性饮酒的大鼠动物模型,探讨慢性饮酒和大鼠胃粘膜适应性细胞保护作用之间的关系,以及胃粘膜细胞更新的作用.方法: 分别在饮酒不同时程的大鼠胃内灌注2 ml 100%酒精,分析胃粘膜的损伤情况.以流式细胞术、免疫组化和计算机图像处理技术观察大鼠胃粘膜的细胞增殖和凋亡,探讨胃粘膜的细胞更新情况.结果: ①纯酒精可使大鼠的胃体和胃窦出现溃疡和出血,饮用6%(v/v)酒精3～14 d的大鼠这种现象明显减轻,饮用6%(v/v)酒精1 d和28 d的大鼠则无改变.②饮用6%(v/v)酒精3～14 d的大鼠胃粘膜细胞更新加快,而饮酒28 d大鼠胃粘膜细胞凋亡增加,细胞增殖减少.结论: 细胞更新加快是适度低浓度酒精刺激引起的胃粘膜适应性细胞保护作用的重要原因,低浓度酒精刺激超过一定时限可引起胃粘膜萎缩性病变的趋势,使胃粘膜抵抗能力降低.     

Gastric anti-ulcerogenic drug effect. A possible mechanism of its molecular basis.

During experimental gastric ulceration in rats an elevation in the mucosal cAMP/cGMP ratio can be encountered. The cause of this significant elevation is mainly (but not entirely) the dramatic fall of the cGMP level. Similar observations were obtained with prostacyclin application (100 micrograms/kg, p.o.), too. This prostaglandin derivative is well known, among others, because of its pronounced anti-ulcerogenic (cytoprotective) effect, too. Other substances of different molecular structure and properties may also exert such effect. The exact mechanism of action of this above-mentioned cytoprotection is still not completely understood. H2-receptor blocker drug cimetidine, given in such small dose (5 mg/kg, p.o.) which does not interfere with gastric acid secretion, also exerts very significant cytoprotective effect in stress (restraint)- and drug (indomethacin)-induced gastric ulcer models. Under cimetidine effect--together with a noticeable endogenous prostacyclin mobilization--the gastric mucosal cAMP/cGMP ratio was also strongly elevated. We conclude that this elevation in the mucosal cAMP/cGMP ratio might be a possible molecular basis of the gastric cytoprotective (anti-ulcerogenic) drugs but it needs further investigations whether all substances exerting cytoprotective effect, e.g. atropine, somatostatin, sulfhydryl drugs, etc., have the same "shifting" property or not? Moreover the phenomenon of the so-called "adaptive cytoprotection" can not be ruled out completely either, therefore this problem needs attention, too.     

Interrelationships between the gastric cytoprotective effects of vitamin A and beta-carotene and the gastric mucosal superoxide dismutase activity in rats

Gastric mucosal damage was produced in rats by the intragastric administration of 96% ethanol or 0.6 M HCl, according to the method of Robert et al. Vitamin A or beta-carotene, in doses of 10 mg/kg, given intragastrically 30 min before the administration of the necrotizing agents. The animals were killed 1 hr after the administration of the necrotizing agents. The following experimental parameters were studied, without and with application of vitamin A and beta-carotene; number of gastric lesions (ulcers); severity of gastric mucosal lesions (ulcers); gastric mucosal superoxide dismutase (SOD) activity. It was found that; vitamin A and beta-carotene, in doses of 10 mg/kg, are able to prevent significantly both the number and severity of gastric mucosal lesions (ulcers) produced by the application of 96% ethanol or 0.6 M HCl; the significant increase of ethanol-induced gastric mucosal SOD activity can be inhibited by the application of vitamin A and beta-carotene; vitamin A and beta-carotene are capable of preventing the development of gastric mucosal lesions (ulcers) produced by the intragastric administration of 0.6 M HCl, while these agents fail to compensate for the HCl-induced decrease of gastric mucosal SOD activity. It has been suggested that; vitamin A and beta-carotene are gastric cytoprotective agents; the ulcer preventive effects of vitamin A and beta-carotene are partly dependent on their scavanger behaviour.     

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.     

Interrelationships between the membrane-bound ATP-dependent energy systems of the gastric mucosa and the gastric cytoprotective effect of beta-carotene on the development of gastric mucosal damage produced by 0.6 M HCl in rats

The effects of different doses (0.01-0.1-1.0-10.0/mg/kg-1) of beta-carotene were studied on gastric secretory responses of 4 hr pylorus-ligated rats: development of gastric mucosal damage (as assessed by number and severity of lesions) produced by intragastric administration of 0.6 M HCl; tissue level of adenosine triphosphate (ATP), adenosine diphosphate (ADP), adenosine monophosphate (AMP), adenylate pool (ATP + ADP + AMP), ratio of ATP X ADP-1, "energy charge" (ATP + 0.5 ADP X X (ATP + ADP + AMP)-1) (during the development of gastric mucosal damage by 0.6 M HCl and of gastric cytoprotection by beta-carotene. It was found that beta-carotene did not decrease the gastric secretory responses of 4 hr pylorus-ligated rats; The development of gastric mucosal damage could be decreased dose-dependently by the administration of beta-carotene; the ATP transformation could be decreased by beta-carotene; the tissue levels of cAMP and AMP could be increased significantly and dose-dependently by beta-carotene; the ratio of ATP X ADP-1 could be increased significantly and dose-dependently by beta-carotene; the values of adenylate pool and "energy charge" remained unchanged.(ABSTRACT TRUNCATED AT 250 WORDS)     

Evidence for the development of tolerance to PGF2 alpha on the ethanol-induced gastric mucosal damage

PGF2 alpha, 100 micrograms/kg intraperitoneally, applied 30 min before 1.0 ml intragastric ethanol (96%) exerts cytoprotective effect on the gastric mucosal membrane. After a week long pretreatment of the animals with 0.25; 0.5 and 1.0 mg/day PGF2 alpha resulted in a diminishing cytoprotective effect. The gastric tissue cAMP level raised simultaneously and after the PGF2 alpha pretreatment with the taming cytoprotection the cAMP level diminished parallel in a dose dependent manner. It is assumed that after PGF2 alpha pretreatment the density of the cellular PGF2 alpha receptors decreases, according to the observed phenomenon.     

Inhibition of stress-induced gastric mucosal injury by a long acting superoxide dismutase that circulates bound to albumin

To determine whether oxygen-derived free radicals play an important role in the pathogenesis of stress-induced tissue injury, the effect of a superoxide dismutase derivative, which binds to albumin and circulates with a half-life of 6 h in intact rats, on acute gastric mucosal lesion was observed in rats which were given water-immersion-restraint. This enzyme derivative also circulated bound to albumin with a half-life of 8 h in rats which were challenged with water-immersion-restraint. This treatment significantly perturbed systemic circulation of animals by decreasing the effective volume of circulating blood, increased vascular permeability of the gastric mucosa, and induced acute gastric mucosal lesion. Intravenous administration of this enzyme derivative normalized both systemic circulation and vascular permeability of the gastric mucosa and prevented the occurrence of stress-induced gastric injury. These findings suggest that the superoxide radical and/or its metabolite(s) plays an important role in the pathogenesis of stress-induced acute gastric mucosal lesion.     

Failure of prostacyclin, beta-carotene, atropine and cimetidine to produce gastric cyto- and general mucosal protection in surgically vagotomized rats

Different chemicals (such as ethanol, HCl, drugs) produce gastric mucosal injury. A special type of gastric mucosal defense, which differed from the inhibition of gastric acid secretion, was discovered in response to small doses of prostaglandins. This phenomenon was termed "gastric cytoprotection". Later, the existence of gastric cytoprotection was proved using different compounds, such as vitamin A and other carotenoids, prostacyclin, small doses of anticholinergic and H2-blocking agents. These compounds produce cyto-protection by different mechanisms. In this study we tested the role of vagus nerve on the development of these different types of gastric cytoprotection. These compounds prevent ethanol-induced gastric mucosal injury in rats with intact vagus nerve, but their cyto- and mucosal protective effects disappear in surgically vagotomized rats. These results indicate that the intact vagus nerve is basically necessary for the overproduction of HCl and pepsin secretion, and for the development of gastric cytoprotection, produced by different compounds (e.g. prostacyclin, beta-carotene, small doses of atropine and cimetidine) acting without the presence of inhibition of gastric acid secretion.     

Mechanisms of action of retinoids in gastrointestinal mucosal protection in animals, human healthy subjects and patients.

Retinoids prevent chemically induced gastric mucosal damage without inhibiting gastric acid secretion ("nutritional gastric cytoprotection"). The gastroprotective effects of retinoids do not depend on 1) vitamin A activity; 2) number of unsaturated double bonds; 3) the presence of a characteristic chemical structure of their terminal components; however, they depend on 1) intact vagal nerve and 2) adrenals in experimental animals. The gastric cytoprotective effect of retinoids produces a dose-dependent inhibition of ATP-transformation into ADP. It also increases the transformation of ATP into cAMP. Other features of these gastric cytoprotective effects of retinoids include: 1) The retinoid-induced gastric mucosal protection differs from that of PGs; 2) The cAMP is an intracellular signal in the development of gastric mucosal damage produced by chemicals (e.g., ethanol, HCl, indomethacin) and in the protection of gastric mucosa induced by retinoids (but not by PGs); 3) The gastric mucosal protection induced by retinoids and gastric mucosal permeability can be separated in time. The existence of gastric mucosal protection can be demonstrated in healthy persons (against indomethacin treatment), in patients with gastric ulcer (GU) and duodenal ulcer (DU) without any inhibition of gastric acid secretion. The serum levels of vitamin A and zeaxanthin were significantly decreased in patients with chronic gastrointestinal (GI) inflammatory diseases (e.g., terminal ileitis, ulcerative colitis), colorectal polyposis, and different (e.g., esophageal, gastric, pancreatic, hepatocellular and colorectal) malignant diseases. The serum levels of vitamin A provitamins were unchanged and their GI mucosal protective effects do not depend on vitamin A activity. Conclusions: 1) Abundant experimental and human observations clearly proved the defensive role of retinoids in the GI tract; 2) There is a correlation between the a) scavenger properties of retinoids vs. intact vagal nerve; b) scavenging properties vs. intact adrenals. 3) The GI mucosal protective effect of retinoids is correlated with biochemical changes in the GI mucosa.     

Is Mongolian gerbil really adequate host animal for study of Helicobacter pylori infection-induced gastritis and cancer?

BACKGROUND: Many researches have been published to understand the pathogenesis and mechanism of Helicobacter pylori (Hp)-associated diseases, including gastritis followed by gastric cancer, using Mongolian gerbil (MG) model because Hp could be hardly inoculated in other animal species. The aim of this study was to evaluate the induction ability of heat shock protein (HSP70) and protective ability in the gastric mucosa of MG comparing with those of Sprague-Dawley (SD) rats, since HSP70 is a key molecule known to be involved in important biological activities such as apoptosis, carcinogenesis, and cytoprotection from cytotoxic damage. MATERIALS AND METHODS: Basal expression level and induction ability of gastric mucosal HSP70 were evaluated by immunoblotting and densitometric analysis in MG and SD rats before and after HSP-induction by zinc l-carnosine, gastric HSP70 inducer, administration. Mucosal protective ability against water-immersion stress-induced mucosal lesion was also compared. RESULTS: Basal expression level of HSP70 was not significantly different between MG and SD rats. However, HSP70-induction by zinc derivatives was not observed in MG. Mucosal lesion induced by water-immersion stress was significantly severe in MG compared with SD rats. CONCLUSIONS: MG might be special (not ordinary) animal, in which HSP70-induction was absent and has extremely poor mucosal protective ability in view of HSP-dependent cytoprotection in the gastric mucosa. Our results may suggest that MG is not an adequate animal to evaluate the effect of Hp-infection-associated gastric inflammation followed by development of gastric cancer.