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.     

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.     

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.     

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.     

A pharmacological approach to cellular mechanisms of PGI2-induced gastric cytoprotection on ethanol-induced gastric mucosal damage in rats

The aims of this study were as follows: 1. to analyse the effects of drugs with different subcellular mechanisms on the PGI2-induced gastric cytoprotection in a non acid dependent (ethanol-induced) gastric ulcer model; 2. to identify the affinity and intrinsic activity curves on the PGI2-induced gastric cytoprotection; 3. to evaluate the main cellular mechanisms of PGI2-induced gastric mucosal defence. The observations were carried out on both sexes of CFY-strain rats, weighing 180 to 210 g. The gastric mucosal damage was produced by intragastric administration of 96% ethanol. The animals were killed at 1 hr after administration of ethanol, and the number and severity of gastric mucosal lesions (ulcers) was noted. Atropine, actinomycin D, cimetidine, mannomustine, dinitrophenol, epinephrine, pentagastrin, histamine, ouabain, tetracycline were given intraperitoneally (in different doses) at 30 min before administration of ethanol. The effects of these drugs were tested on the PGI2-induced (5 micrograms/kg was given intragastrically) gastric cytoprotection. It has been found that: 1. atropine, actinomycin D, cimetidine, epinephrine, ouabain, tetracycline and mannomustine inhibited the PGI2-induced gastric cytoprotection; 2. histamine, pentagastrin and 2,4-dinitrophenol enhanced the PGI2-induced gastric cytoprotection; 3. the molar concentrations of these drugs modifying the PGI2-induced gastric cytoprotection differed significantly. It has been concluded that: 1. the drugs stimulating or inhibiting the cell functions are capable to modify the extent of PGI2-induced gastric cytoprotection; 2. different subcellular mechanisms (oxidative phosphorylation, increased synthesis of proteins, ribonucleic and deoxyribonucleic acids, modifications of membrane-bound ATP-dependent energy systems) are involved in the development of PGI2-induced gastric cytoprotection.     

The interrelationships between the development of ethanol-, HCl, NaOH and NaCl-induced gastric mucosal damage and the gastric mucosal superoxide dismutase activity in the rats

Gastric mucosal damage was produced by intragastric administration of 96% ethanol, 0.6 M HCl, 0.2 M NaOH or 25% NaCl. The animals were killed 1 hr later, when the number and severity of gastric lesions (ulcers) was recorded. At the time of the sacrifice of the animals gastric mucosal superoxide dismutase (SOD) activity was measured. It was found that (1) the gastric mucosal damage could be induced by the administration of any of the necrotizing agents in all animals, (2) superoxide dismutase (SOD) activity increased significantly in the damaged gastric mucosa following 96% ethanol, while its activity decreased significantly during the development of gastric mucosal damage produced by the intragastric administration of 0.6 M HCl, 0.2 M NaOH or 25% NaCl. It has been concluded that: (1) the enzyme systems necessary to generate the superoxide free radical anions can be stimulated by ethanol, and they can be inhibited by the application of 0.6 M HCl, 0.2 M NaOH and 25% NaCl: (2) the observed stimulation or inhibition of the enzyme systems to generate the superoxide free radical anions may be of pathological significance in the development of gastric mucosal damage produced by the intragastric administration of 96% ethanol, 0.6 M HCl, 0.2 M. NaOH or 25% NaCl.     

Comparison of gastric and intestinal antisecretory and protective effects of prostacyclin and its stable thia-imino-analogue (Hoe 892) in conscious rats

The effects of prostacyclin (PGI2) and its stable thia-thimo-analogue (Hoe 892) on gastric and intestinal secretions and gastric mucosal lesions have been determined in conscious rats. Both PGI2 and Hoe 892 given subcutaneously (s.c.) reduced dose-dependent gastric acid secretion, the ID50 (dose producing 50% inhibition) being about 48.6 and 11.8 micrograms/kg, respectively. In contrast, intragastric (i.g.) PGI2 and Hoe 892 did not cause any change in gastric acid secretion at doses ranging from 1 to 100 micrograms/kg. Both PGI2 and Hoe 892 reduced significantly intestinal fluid secretion (antienteropooling activity). PGI2 and Hoe 892 given i.g. or s.c. reduced dose-dependent gastric ulcer formation induced by acidified aspirin (ASA), Hoe 892 being somewhat less potent than PGI2. Both PGI2 and Hoe 892 were equally effective against gastric mucosal necrosis induced by absolute ethanol and this effect was observed both after i.g. and s.c. administration of these agents. We conclude that stable thia-imino-PGI2 analogue, Hoe 892, has similar gastric and intestinal antisecretory and protective activity as PGI2 and may be useful in the prevention of gastric damage by various noxious agents.     

Evidence for the existence of gastric cytoprotective effect of atropine and cimetidine in humans

The effects of cimetidine (12.5 mg i.m.) and atropine (0.125 mg i.m.) were studied on the basal (BAO) and pentagastrin (6 micrograms X kg-1 s.c.)-stimulated (MAO) gastric acid secretion; the gastric mucosal microbleeding provoked by one-day treatment with indomethacin (4 X 25 mg orally) in patients with chronic disorders of the joints. The extent of the gastric microbleeding was measured by spectrophotometric determination of haemoglobin in gastric lavage fluid. The aims of this study were to determine the doses of cimetidine and atropine in humans without any significant inhibitory effects either on the basal or on the maximal gastric acid output to evaluate the cytoprotective action of these doses of cimetidine and atropine on the indomethacin-induced gastric microbleeding in the man. It was found that cimetidine (12.5 mg i.m.) and atropine (0.125 mg i.m.) did not cause any significant inhibition either of the BAO or of the MAO; indomethacin (4 X 25 mg orally) significantly increased gastric microbleeding in the patients; cimetidine and atropine, in the above doses, were able to prevent significantly indomethacin-induced gastric microbleeding in the patients. These results provide evidence for the existence of gastric cytoprotective effects of cimetidine and atropine in humans.     

The effect of gastric cytoprotective drugs (atropine, cimetidine, vitamin-A) on the indomethacin induced intestinal ulcers in rats

The effect of various gastric cytoprotective drugs was studied on the development of indomethacin induced intestinal ulcers. CFY strain rats weighing 200-250 g were used. Indomethacin in a single dose of 20 mg/kg was given intragastrically in 1.5 ml. The animals received atropine (0.025-0.2-1.0 mg/kg), cimetidine (2.5-10-50 mg/kg) or vitamin-A(0.1-1.0-10 mg/kg) intraperitoneally in a single dose 15 min before the administration of indomethacin. In another study the animals received the same doses of atropine twice a day for 3 days. The small intestine was examined for lesions consisting of: (a) palpable nodules on the mesenteric attachement: (b) ulcers in the jejunum and ileum: (c) adhesions as a consequence of ulcer perforation. Neither histamin H2 receptor antagonists, anticholinergics, nor vitamin-A affected the number and the severity of the indomethacin induced intestinal ulcers. These results suggest that, whereas atropine, cimetidine and vitamin-A have a cytoprotecting effect in the stomach, it appears that they have no role in intestinal cytoprotection.     

The indomethacin-induced gastric mucosal damage in rats. Effect of gastric acid,acid inhibition,capsaicin-type agents and prostacyclin

In pylorus-ligated rats subcutaneous (sc) pentagastrin (325.5 nmol/kg) or histamine (54.3 μmol/kg), but not the cholinergic linergic agent bethanechol (7.6 or 15.2 μmol/kg), increased gastric mucosal injury by sc indomethacin (55.8 μmol/kg). Intragastric (ig) administration of 0.15 or 0.3 N HCl greatly potentiated injury by sc indomethacin with widespread ulceration, intragastric bleeding and even perforation. The gastric mucosal damage produced by indomethacin plus 0.3 N HCl was reduced by ig capsaicin (3.1–25.1 μM), ig resiniferatoxin (0.38-6.1 μM), by sc atropine (0.15-1.2 μmol/kg) and to a lesser extent by ig prostacyclin (40–267 μM) or sc cimetidine (198.2 μmol/kg). The protective effect of capsaicin or resiniferatoxin was not prevented by atropine or cimetidine treatment. Capsaicin (6.5 mM) enhanced gastric injury by sc or ig indomethacin. Results indicate the importance of early vascular events in the pathogenesis of mucosal injury induced by indomethacin in the stomach and suggest a role for gastric acid in potentiation of such injury. Results further strengthen the idea of a protective role for capsaicin-sensitive sensory nerves in the stomach.     

Capsaicin-sensitive afferent sensory nerves in modulating gastric mucosal defense against noxious agents.

In the rat stomach, evidence has been provided that capsaicin-sensitive sensory nerves (CSSN) are involved in a local defense mechanism against gastric ulcer. In the present study capsaicin or resiniferatoxin (RTX), a more potent capsaicin analogue, was used to elucidate the role of these sensory nerves in gastric mucosal protection, mucosal permeability, gastric acid secretion and gastrointestinal blood flow in the rat. In the rat stomach and jejunum, intravenous RTX or topical capsaicin or RTX effected a pronounced and long-lasting enhancement of the microcirculation at these sites, measured by laser Doppler flowmetry technique. Introduction of capsaicin into the rat stomach in very low concentrations of ng-microg x mL(-1) range protected the gastric mucosa against damage produced by topical acidified aspirin, indomethacin, ethanol or 0.6 N HCl. Resiniferatoxin exhibited acute gastroprotective effect similar to that of capsaicin and exerted marked protective action on the exogenous HCl, or the secretagogue-induced enhancement of the indomethacin injury. The ulcer preventive effect of both agents was not prevented by atropine or cimetidine treatment. Capsaicin given into the stomach in higher desensitizing concentrations of 6.5 mM markedly enhanced the susceptibility of the gastric mucosa and invariably aggravated gastric mucosal damage evoked by later noxious challenge. Such high desensitizing concentrations of capsaicin, however, did not reduce the cytoprotective effect of prostacyclin (PGI2) or beta-carotene. Capsaicin or RTX had an additive protective effect to that of atropine or cimetidine. In rats pretreated with cysteamine to deplete tissue somatostatin, capsaicin protected against the indomethacin-induced mucosal injury. Gastric acid secretion of the pylorus-ligated rats was inhibited with capsaicin or RTX given in low non-desensitizing concentrations, with the inhibition being most marked in the first hour following pylorus-ligation. Low intragastric concentrations of RTX reduced gastric hydrogen ion back-diffusion evoked by topical acidified salicylates. It is concluded that the gastropotective effect of capsaicin-type agents involves primarily an enhancement of the microcirculation effected through local release of mediator peptides from the sensory nerve terminals. A reduction in gastric acidity may contribute to some degree in the gastric protective action of capsaicin-type agents. The vasodilator and gastroprotective effects of capsaicin-type agents do not depend on vagal efferents or sympathetic neurons, involve prostanoids, histaminergic or cholinergic pathways.     

Pathogenic importance of pepsin in ischemia/reperfusion-induced gastric injury

We investigated the role of pepsin in the development of ischemia/reperfusion (I/R)-induced gastric lesions in rats. Under urethane anesthesia, the pylorus was ligated, the celiac artery was clamped, and 1 ml of HCl (50-150 mM) was instilled in the stomach. Then, reperfusion was established 15 min later by removing the clamp, and 2 h later the stomach was assessed for gross mucosal damage. Pepstatin (a specific pepsin inhibitor) or pepsin was given i.g. after the pylorus was ligated while cimetidine, omeprazole, or atropine was given s.c. 30 min before the ligation. I/R produced hemorrhagic gastric injury, with a concomitant increase in the amount of pepsin secreted, and the degree of both these responses was dependent on the concentration of HCl. The formation of lesions by IR in the presence of 100 mM HCl was significantly prevented by atropine or bilateral vagotomy, but neither omeprazole nor cimetidine had any effect. Intragastric administration of pepstatin dose-dependently reduced the severity of the I/R-induced gastric lesions, the effect being significant even at 0.1 mg/kg, while that of pepsin markedly aggravated these lesions. The increased pepsin output during I/R was associated with luminal acid loss and significantly inhibited by bilateral vagotomy or pretreatment with atropine but not cimetidine or omeprazole, while pepstatin significantly inhibited the pepsin activity. In conclusion, we suggest that pepsin plays a pivotal role in the pathogenesis of I/R-induced gastric lesions, and pepsin secretion is increased during I/R, the process being associated with acid back-diffusion and mediated through a vagal-cholinergic pathway.     

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.     

The effect of etodolac on bile salt and histamine-mediated gastric mucosal injury in the rat

The effect of the selective cyclo-oxygenase-type-2 (COX-2) inhibitor etodolac on gastric mucosal integrity and gastric acid secretion was investigated in the rat. Etodolac was given in doses comparable with those being used in man for therapy of rheumatic conditions. The effect of etodolac was studied in the presence of a mild barrier breaker and in the presence of increased rates of endogenous acid secretion. In conscious pylorus-ligated rats, etodolac given intragastrically in 16 or 32 mg /kg for 3 h did not by itself give rise to visible gastric mucosal injury. Etodolac, however, exacerbated gastric mucosal injury evoked by intragastric application of acidified sodium taurocholate (5 mM in 150 mM HCl) in a dose-dependent manner. This effect of edotolac was independent of changes in gastric acid secretory responses. In rats whose gastric acid secretion was stimulated by intraperitoneal histamine (5 mg/kg), and etodolac (given i.g. in doses of 16 or 32 mg/kg) also increased gastric mucosal injury caused by histamine dose-dependently in the 3-h pylorus-ligated rats. Etodolac decreased gastric mucus in the saline- and in the sodium taurocholate-treated rats. In urethane-anaesthetized acute gastric fistula rats, intragastric etodolac (32 mg/kg) did not modify basal gastric acid secretion. Our data suggest that etodolac, a selective COX-2 inhibitor, impairs gastric mucosal resistance and can exacerbate gastric mucosal injury caused by other mucosal barrier breaking agents. Cyclooxygenase type-2 thus contributes to the gastric mucosal defences.     

Effect of intravenous cimetidine, ranitidine and pentagastrin and intragastric prostaglandin E1 treatments on gastric transmucosal potential difference in the rat.

Effects of intravenous cimetidine, ranitidine and intragastric prostaglandin E1 (alprostadil) treatments on the transmucosal potential difference (PD) of the stomach were compared. It was also investigated whether the above-mentioned drugs influenced the decrease of PD which followed both intragastric administration of 30% alcohol or Ca++ solution in 5 Mm final concentration and intravenous administration of pentagastrin. Both cimetidine and ranitidine treatments led to significant (p < 0.05) increase of PD, the effect of ranitidine was dose dependent. Prostaglandin E1 in a dose of 40 micrograms/kg led to significant decrease of PD (< 0.05). Both intragastric administration of prostaglandin E1 in a dose of 40 micrograms/kg and intravenous administration of ranitidine in a dose of 10 mg/kg significantly diminish the effect of Ca++ and alcohol to decrease PD. Neither prostaglandin E1, nor ranitidine pretreatment had any effect on the rapid and highly significant (p < 0.01) decrease of PD following i.v. pentagastrin administration. It is hypothesized that transmucosal PD of the stomach provides information not only on the actual condition of the mucosal barrier but on the electrophysiology of gastric secretion as well.     

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.     

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.     

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.     

Comparative study of the cytoprotective effects of anticholinergic agents on the gastric mucosal lesions produced by intragastric administration of 0.6 M HCl in rats

CFY strain rats (both sexes, 180-210 g) were fasted for 24 hr. Several anticholinergic agents atropine, oxyphencyclimine, propantheline, trantheline, hexocyclium) were administered (i.p.) in equimolar doses (28.78 nM X kg-1), and to compared to the cyto-protective effect of atropine sulfate (0.01 mg X kg-1). Their effects were studied in (1) one hour pylorus-ligated rats, being given when the surgical procedure had just finished: volume and acid output were measured; (2) the gastric mucosal lesions induced by 0.6 M HCl. Drugs were applied 30 min before the administration of HCl (1 ml, i.g.). Rats were killed 1 hr later and the number and severity of lesions were calculated. We found that (1) atropine, oxyphencyclimine, and propantheline did not significantly decrease acid secretion, while trantheline and hexocyclium inhibited acid output; (2) all drugs provided significant protection against the gastric damage induced by HCl; (3) no significant difference was found in the extent of protection produced by the different drugs in the HCl-model. We conclude that atropine, oxyphencyclimine, and propantheline are gastric cytoprotective agents.