Lack of gastric toxicity of nitric oxide-releasing aspirin, NCX-4016, in the stomach of diabetic rats

We compared the gastric toxic effect of aspirin (ASA) in both normal and diabetic rats, with that of NCX-4016, a derivative of ASA with nitric oxide (NO) releasing moiety. Animals were injected with streptozotocin and used after 5 weeks of diabetes with blood glucose levels of >350 mg/dl in the presence of omeprazole. Oral administration of ASA (with 150 mM HCl) did not produce damage at 30 mg/kg in the conscious rat but caused hemorrhagic gastric lesions in STZ-diabetic rats. By contrast, NCX-4016 even at 190 mg/kg (a dose equimolar to 100 mg/kg of ASA) did not cause damage in both normal and STZ-diabetic rat stomachs. Plasma salicylic acid levels were not different between normal and diabetic rats after administration of ASA or NCX-4016, though the latter gave significantly lower levels as compared to ASA. Intragastric application of ASA (80 mM in 50 mM HCl) for 30 min caused a reduction of transmucosal PD and increase of luminal H+ loss with a minimal effect on mucosal blood flow (GMBF) in both normal and diabetic rats, yet resulting in much severe damage in the stomach of the latter group. Mucosal application of NCX-4016, however, did not cause PD reduction and luminal H+ loss, but produced a marked hyperemia, resulting in no damage in the stomach of both normal and STZ-diabetic rats. The increased gastric toxicity of ASA in STZ-diabetic rats was significantly mitigated by co-application of a NO donor FK-409 together with ASA, with an increase of GMBF, despite similar degrees of PD reduction and luminal H+ loss being observed. We conclude that NCX-4016 does not have a toxic effect in either normal or diabetic rat stomachs, although the diabetic rat stomach is more vulnerable to ASA-induced damage. NCX-4016, though absorbed more slowly than ASA, counteracts the injurious effect of aspirin on the gastric mucosa, probably by increasing GMBF mediated by NO.     

Effect of ellagic acid on gastric damage induced in ischemic rat stomachs following ammonia or reperfusion

We examined the effect of ellagic acid (EA), one of the polyphenols that are abundantly contained in whisky as a nonalcoholic component, on gastric lesions induced by ammonia plus ischemia or ischemia/reperfusion in rats, in relation to the antioxidative system. Under urethane anesthesia, a rat stomach was mounted in an ex vivo chamber, and the following two experiments were performed; 1) a stomach was made ischemic (1.5 ml/100 g body weight) for 20 min, followed by reperfusion for 15 min in the presence of 100 mM HCl; 2) a stomach was made ischemic by bleeding from the carotid artery (1 ml/100 g body weight), followed by intragastric application of ammonia (NH4OH: 120 mM). EA (0.1-10 mg/ml) was applied in the chamber 30 min before the onset of ischemia. Gastric potential difference (PD) and mucosal blood flow (GMBF) were measured before, during and after 20 min of ischemia. Ischemia/reperfusion caused a profound drop in GMBF followed by a return, and resulted in hemorrhagic lesions in the stomach in the presence of 100 mM HCI. These lesions were dose-dependently prevented by EA with suppression of lipid peroxidation but no effect on GMBF, and the effect at 6 mg/ml was almost equivalent to that of superoxide dismutase (SOD: 15000 unit/kg/hr) infused i.v. during a test-period. On the other hand, application of NH4OH to the ischemic stomach produced a marked reduction in PD, resulting in severe hemorrhagic lesions. These changes were prevented with both EA and SOD. In addition, EA had a potent scavenging action against monochloramine in vitro. These results suggest that EA exhibits gastric protective action against gastric lesions induced by NH4OH or reperfusion in the ischemic stomach, probably due to its anti-oxidative activity. This property of EA partly explains the less damaging effect of whisky in the stomach and may be useful as the prophylactic for Helicobacter pylori-associated gastritis.     

Ulcerogenic and healing impairing actions of monochloramine in rat stomachs: effects of zinc L-carnosine, polaprezinc.

Effects of a novel zinc compound (polaprezinc), N-(3-aminopropionyl)-L-histidinato zinc, on the mucosal ulcerogenic and healing impairing responses induced by monochloramine (NH2Cl) were examined in rat stomach. Oral administration of NH2Cl (> 60 mM) produced severe hemorrhagic lesions in unanesthetized rat stomachs with a marked increase of thiobarbituric acid reactants (TBAR). Pretreatment of the animals with polaprezinc (3 approximately 30 mg/kg, p.o.) showed a dose-dependent inhibition against gastric ulcerogenic and TBAR responses induced by NH2Cl (120 mM). Likewise, mucosal exposure to NH4OH (60 mM) in urethane anesthetized stomachs made ischemic by bleeding from the carotid artery (1 ml per 100 g body w.t.) resulted in severe gastric lesions. This ulcerogenic response caused NH4OH plus ischemia was also attenuated by prior application of polaprezinc as well as taurine (25 mg/ml, 1 ml). On the other hand, the healing of gastric mucosal lesions induced by NH2Cl occurred more slowly than of ethanol-induced lesions, and the latter was significantly delayed by the repeated administration of NH2Cl. Polaprezinc (> 10 mg/kg, p.o.) given twice daily for 7 days not only accelerated the healing of NH2Cl-induced gastric lesions but also antagonized the delayed healing of ethanol-induced lesions in the presence of NH2Cl as well. Polaprezinc showed a scavenging action against NH2Cl in vitro. These results suggest that NH2Cl caused deleterious action on the healing of pre-existing acute lesions as well as irritating action to the mucosa in the rat stomach. Polaprezinc not only protects the stomach against injury caused by NH2Cl but also promotes healing of NH2Cl-induced gastric lesions as well as the delayed healing of ethanol-induced lesions caused by NH2Cl. Although the detailed mechanisms underlying these actions of polaprezinc remain unknown, they may be partly attributable to a scavenging action of this agent against NH2Cl.     

胃粘膜血流量对大鼠胃粘膜适应性细胞保护作用的影响

采用氢气清除法测定胃粘膜血流量,观察大鼠胃内灌洗低浓度盐酸酒精后灌注高浓度盐酸酒精（０．６ｍｏｌ／ＬＨＣｌ＋１５％ＥｔＯＨ）对ＧＭＢＦ和胃粘膜损害的影响。以及ＧＭＢＦ在适应性细胞保护中的作用。结果如下：（１）先用低浓度盐酸酒精作为弱刺激灌注随之以高浓度盐酸酒精作为强刺激灌注,引起胃粘膜适应性保护现象,它表现为：大体操作和损伤深度分别比单独泊组减少４７．０９％和４４．５７％应性现象,它表现为：大体损     

Aggravation of ischemia/reperfusion-induced gastric lesions in streptozotocin-diabetic rats

We examined the influence of diabetes on ischemia/reperfusion-induced gastric damage in rats, in relation to the antioxidative system. Animals were injected with streptozotocin (STZ: 70 mg/kg, i.p.) and used after 5 weeks of diabetes with blood glucose levels of >350 mg/dl. Gastric mucosal blood flow (GMBF) was measured before, during and after 20 min of ischemia (1.5 ml bleeding per 100 g body weight from the carotid artery) followed by a 15-min reperfusion in the presence of acid (100 mM HCI). At the end of each experiment, gastric damage was observed macroscopically. GMBF was reduced by ischemia in all groups of rats, followed by a gradual return after reperfusion. Ischemia/reperfusion produced hemorrhagic lesions in normal rat stomachs in the presence of 100 mM HCl. These lesions were significantly aggravated when the animals were pretreated with diethyldithiocarbamate, an inhibitor of superoxide dismutase (SOD). Ischemia/reperfusion-induced damage was also markedly exacerbated in STZ-diabetic rats, but this aggravation was significantly suppressed by pretreatment with exogenous SOD or glutathione (GSH). Diabetic rat stomachs showed significantly less SOD activity as well as GSH content than normal rat stomachs. In addition, the deleterious influence of diabetes on the gastric ulcerogenic response to ischemia/reperfusion was significantly mitigated by decreasing the blood glucose levels by daily insulin treatment. These results suggest that the gastric mucosa of diabetic rats is more vulnerable to ischemia/reperfusion-induced injury, and the mechanism may be partly accounted for by impairment of the antioxidative system associated with a reduced SOD activity and GSH content.     

Mast cells are involved in the gastric hyperemic response to acid back diffusion via release of histamine

Acid back diffusion into the rat stomach mucosa leads to gastric vasodilation. We hypothesized that histamine, if released from the rat mucosa under such conditions, is mast cell derived and involved in the vasodilator response. Gastric blood flow (GBF) and luminal histamine were measured in an ex vivo chamber. Venous histamine was measured from totally isolated stomachs. Mucosal mast cells (MMC), submucosal connective tissue mast cells (CTMC), and chromogranin A-immunoreactive cells (CgA IR) were assessed morphometrically. After mucosal exposure to 1.5 M NaCl, the mucosa was subjected to saline at pH 5.5 (control) or pH 1.0 (H(+) back diffusion) for 60 min. H(+) back diffusion evoked a marked gastric hyperemia, increase of luminal and venous histamine, and decreased numbers of MMC and CTMC. CgA IR cells were not influenced. Depletion of mast cells with dexamethasone abolished (and stabilization of mast cells with ketotifen attenuated) both hyperemia and histamine release in response to H(+) back diffusion. GBF responses to H(+) back diffusion were attenuated by H(1) and abolished by H(3) but not H(2) receptor blockers. Our data conform to the idea that mast cells are involved in the gastric hyperemic response to acid back diffusion via release of histamine.     

Involvement of prostaglandin E receptor EP3 subtype and prostacyclin IP receptor in decreased acid response in damaged stomach.

We investigated the roles of cyclooxygenase (COX) isozymes and prostaglandin E (PGE) receptor EP1 and EP3 subtypes or prostacyclin IP receptors in the decrease in acid secretion in the damaged mouse stomach. Male C57/BL6 mice, both wild type and animals lacking EP1, EP3, or IP receptors, were used after 18 h of fasting. Under urethane anesthesia, the stomach was mounted on an ex-vivo chamber and perfused with saline, and acid secretion as well as transmucosal potential difference (PD) was measured before and after exposure to 20 mM taurocholate Na (TC) for 20 min. Indomethacin, SC-560 or rofecoxib was given i.d. 30 min before TC. Mucosal exposure to TC in wild-type mice caused a reduction in PD, followed by decrease in acid secretion. Indomethacin attenuated the decrease in acid secretion after exposure to TC in wild-type mice, an effect mimicked by SC-560 but not rofecoxib, yet none of these drugs affected the decrease in PD. An altered acid response after exposure to TC was similarly observed in EP1 (-/-) mice but mitigated in mice lacking either EP3 or IP receptors, although a decrease in PD was observed in all groups. Furthermore, the decreased acid response was also attenuated by prior administration of the EP3- but not EP1- antagonist. Mucosal levels of PGE(2) and 6-keto PGF(1a) increased after exposure to TC in all groups of mice. In conclusion, the decrease in acid secretion in the damaged stomach is mediated by endogenous PGs derived from COX-1, through PGE(2)/EP3 receptors and prostacyclin/IP receptors.     

失血性休克大鼠模型的改进及胃黏膜血流量的测定

目的探讨失血性休克大鼠模型的建立及胃黏膜血流量的测定。方法16只健康雄性SD大鼠随机分为两组：对照组（n=8）、失血性休克组（n=8）。失血性休克组使用颈动脉失血-颈静脉失血回输的方式制备失血性休克大鼠模型。维持平均动脉压40mmHg 1h后复苏,复苏后2h动物模型制作成功。使用激光多普勒血流仪测定大鼠胃黏膜血流量;采用光镜及透射电镜观察胃黏膜损伤情况。结果失血性休克组胃黏膜血流量较对照组明显降低,差异非常显著（P〈0．01）,胃黏膜细胞坏死、脱落、溶解,局部溃疡形成。结论失血性休克大鼠胃黏膜血流量明显降低,存在广泛的胃黏膜损伤。     

NH(4)Cl inhibition of acid secretion: possible involvement of an apical K(+) channel in bullfrog oxyntic cells

This study was undertaken to determine the mechanism by which ammonium chloride (NH(4)Cl) inhibits stimulated acid secretion in the bullfrog gastric mucosa. To this end, four possible pathways of inhibition were studied: 1) blockade of basolateral K(+) channel, 2) blockade of ion transport activity, 3) neutralization of secreted H(+) in the luminal solution, or 4) ATP depletion. Addition of nutrient 10 mM NH(4)Cl (calculated NH(3) concentration = 92.5 microM and NH(4)(+) concentration = 9.91 mM) inhibited acid secretion within 30 min. Inhibition of acid secretion did not occur by blockade of basolateral K(+) channel activity or ion transport activity or by neutralization of the luminal solution. Although ATP depletion occurred in the presence of NH(4)Cl, the magnitude of ATP depletion in 30 min was not sufficient to inhibit stimulated acid secretion. By comparing the effect of NH(4)Cl on the resistance of inhibited or stimulated tissues, we demonstrate that NH(4)Cl acts specifically on stimulated tissues. We propose that NH(4)Cl blocks activity of an apical K(+) channel present in stimulated oxyntic cells. Our data suggest that the activity of this channel is important for the regulation of acid secretion in bullfrog oxyntic cells.     

Current concepts in gastric microcirculatory pathophysiology.

When the barrier to acid back-diffusion is disrupted, there is a protective increase in gastric mucosal blood flow to help remove the back-diffusing acid. Only recently has the mechanism for calling forth this protective hyperemia been determined. The gastric mucosa and submucosa are innervated by many capsaicin-sensitive sensory nerve fibers containing vasodilator peptides. The gastric mucosal sensory neurons monitor for acid back-diffusion, and, when this process occurs, signal for a protective increase in blood flow via release of calcitonin gene-related peptide from the submucosal periarteriolar fibers. The endothelium-derived vasodilator, nitric oxide, plays an important role both in the maintenance of basal gastric mucosal blood flow and in the increase in blood flow that accompanies pentagastrin-stimulated gastric acid secretion. It also interacts with the capsaicin-sensitive sensory nerves in the modulation of the microcirculation to maintain mucosal integrity. Finally, it has been shown that neutrophils play an important role in various forms of mucosal injury. The leukocytes adhere to the vascular endothelium and contribute to injury by reducing blood flow via occlusion of microvessels, as well as by releasing mediators of tissue damage.     

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.     

Luminal ammonia retards restitution of guinea pig injured gastric mucosa in vitro

The present study was conducted to elucidate the mechanisms by which Helicobacter pylori (HP)-derived ammonia causes gastric mucosal injury. Intact sheets of guinea pig gastric fundic mucosae were incubated in Ussing chambers. Both the luminal and the serosal pH were kept at 7.4. Transmucosal potential difference (PD) and electrical resistance (R) were monitored as indices of mucosal integrity. Restitution was evaluated by recovery of PD, R, and transmucosal [(3)H]mannitol flux after Triton X-100-induced mucosal injury. The effects of luminal or serosal NH(4)Cl on function and morphology of uninjured or injured mucosae were examined. In uninjured mucosae, serosal NH(4)Cl induced more profound decreases in PD and R and more prominent vacuolation in gastric epithelial cells than did luminal NH(4)Cl. In contrast, luminal NH(4)Cl markedly inhibited restitution in injured mucosae and caused an extensive vacuolation in gastric epithelial cells, as did serosal NH(4)Cl. Transmucosal ammonia flux was greater in the injured than in the uninjured mucosae. These results suggest that 1) basolateral membrane of gastric epithelial cells is more permeable to ammonia than apical membrane and 2) luminal ammonia, at concentrations detected in HP-infected gastric lumen, retards restitution in injured mucosae.     

Body temperature dependency in baclofen-induced gastric acid secretion in rats relation to capsaicin-sensitive afferent neurons

Body temperature dependency in gastric functional responses to baclofen, a GABA(B) agonist, such as acid secretion, mucosal blood flow (GMBF) and motor activity, was examined in urethane-anesthetized rats under normal (37+/-1 degrees C) and hypothermic (31+/-1 degrees C) conditions. A rat stomach was mounted in an ex-vivo chamber, perfused with saline, and the acid secretion was measured using a pH-stat method, simultaneously with GMBF by a laser Doppler flowmeter. Gastric motility was measured using a miniature balloon as intraluminal pressure recordings. Intravenous administration of baclofen significantly increased acid secretion at the doses > 0.3 mg/kg under hypothermic conditions, yet it caused a significant stimulation only at doses > 10 mg/kg under normothermic conditions. The increases in gastric motility and GMBF were similarly induced by baclofen, irrespective of whether the animals were subjected to normothermic or hypothermic conditions. These functional responses to baclofen under hypothermic conditions were totally attenuated by either bilateral vagotomy or atropine (3 mg/kg, s.c.). Baclofen at a lower dose (1 mg/kg i.v.) significantly increased the acid secretion even under normothermic conditions when the animals were subjected to chemical deafferenation of capsaicin-sensitive neurons or pretreatment with intracisternal injection of CGRP8-37 (30 ng/rat). These results suggest that 1) gastric effects of baclofen are dependent on body temperature in stimulating acid secretion but not GMBF or motor activity, 2) the acid stimulatory action of baclofen is enhanced under hypothermic conditions, and 3) the suppression of baclofen-induced acid response under normothermic conditions may be related to capsaicin-sensitive afferent neuronal activity, probably mediated by central release     

Protective effects of several amino acid-nutrients on gastric hemorrhagic erosions in acid-irrigated stomachs of septic rats

Our previous report demonstrates that severe gastric mucosal damage is produced in lipopolysaccharide (LPS)-intoxicated rats. In the present study, we examined protective effects of several amino acids including taurine, phenylalanine and L-Arginine on gastric hemorrhagic erosions in acid-irrigated stomachs of LPS rats. The animals were deprived of food for 24 hr. Intravenous LPS (3 mg/kg) was challenged 12 hr after withdrawal of food. Gastric vagotomy was performed, followed by irrigation the stomachs for 3 hr with a physiological acid solution containing 100 mM HCl and 54 mM NaCl. The ulcerogenic parameters including increased gastric acid back-diffusion, mucosal histamine concentrations, lipid peroxide productions, luminal hemoglobin contents, stomach erosions and the lowered glutathione levels were markedly enhanced in LPS rat stomachs irrigated with acid solution. Both phenylalanine and taurine caused dose-dependent attenuations of these ulcerogenic parameters in LPS rats. L-arginine also was effective in inhibition. The inhibitory effect was restored by pretreatment of nitric oxide synthase inhibitors, such as N(G)-nitro-L-arginine-methyl ester or L-N(G)-(1-iminoethyl)-lysine. Furthermore, marked amelioration of hemorrhagic erosions in LPS rats was observed when a combination of these amino acid nutrients was used. The results provide evidence that these amino acid nutrients may ameliorate gastric hemorrhagic erosion via GSH synthesis stimulation, histamine cell membrane stabilization and antioxidant actions in LPS rat stomachs.     

Effects of acid on the basal lamina of the rat stomach and duodenum

Rapid restitution of the gastric and intestinal epithelium after acute injury involves emigration of cells from the gastric glands and basal half of the intestinal villi. An intact basal lamina is prerequisite to the restitution process. The present study was performed to determine the effects of acid on the rat gastric and duodenal basal lamina. The basal lamina was denuded in vitro by ultrasonic vibration. The tissue was then immersed in 0.2 M mannitol (control) or in HCl (5-50 mM) for 10 min. Samples of the tissues were examined by transmission and scanning electron microscopy. Some samples were stained with ruthenium red to demonstrate glycosaminoglycans. The lower concentrations of acid (5 and 10 mM) had little or no effect on the structure of the basal lamina. However, exposure to 20 and 50 mM HCl caused extensive damage to the basal lamina and exposed the underlying connective tissue matrix of the lamina propria. Ruthenium red staining demonstrated differences in size and location of glycosaminoglycans within the basal laminae of stomach and intestine. Exposure to acid at concentrations of 20 or 50 mM caused total loss of ruthenium red staining in both intestinal and gastric basal laminae. Exposure to 10 mM acid resulted in loss of the outermost (luminal) layer of anionic sites from the gastric basal lamina. These studies demonstrate that brief exposure to acid, in concentrations which are necessary for the formation of hemorrhagic erosions in the stomach, caused damage to the basal lamina. This damage may impair epithelial restitution and thus account, in part, for the role of acid in ulcerogenesis.     

Adrenomedullin promotes epithelial restitution of rat and human gastric mucosa in vitro

We have investigated the effect of adrenomedullin (AM) on restitution of mucosal integrity following damage in rat and human gastric mucosa, measuring the potential difference (PD) on a mucosal strip mounted on an Ussing chamber. Mucosal damage was induced by 0.5, 1.0, and 2.0 M NaCl solution, and it caused an immediate and significant decrease in PD. In the rat AM group, PD recovered significantly more than in control group at 120 min after exposure to 0.5 M (p < 0.01) and 1.0 M (p < 0.05) NaCl solution. In the human AM group, PD completely recovered at 120 min after exposure to 0.5 M (p < 0.05) NaCl solution. In rat mucosa damaged by 0.5 M NaCl solution, the effect was inhibited by human (h)-CGRP(8-37) and there was no significant difference between the h-CGRP(8-37) group and control group. On immunohistochemical examination of rat gastric mucosa, AM was detected within the chief cell. AM probably promotes epithelial restitution primarily through the CGRP receptor, but it does not ameliorate more severe damage of gastric mucosa in vitro.     

Effects of 16, 16-dimethyl prostaglandin E2 on bile-induced histamine release and permeability alterations in canine oxyntic mucosa.

Damage to the stomach results in excessive movement of hydrogen ion (H+) out of the lumen, and increased movement of sodium (Na+) and potassium (K+) into the lumen. Histamine liberation during damage probably adds to the destruction by increased capillary permeability and formation of edema. Previous reports have shown that the synthetic prostaglandin analogue 16,16-dimethyl prostaglandin E2 (Dm PGE2) protects dog gastric mucosa from aspirin- and ethanol-induced gastric mucosa damage. The effects of dm PGE2 on bile salt (sodium taurocholate) induced injury has not been investigated. Using the canine Heidenhain pouch, the present study examined the action of dm PGE2 on gastric mucosal damage induced by 5 mM sodium taurocholate in 100 mM HCl. Bile salt damaged the pouch mucosa as evidenced by an increased loss of H+, and increased net fluxes of both Na+ and K+. There was also an increase in the histamine content of the fluid irrigating the Heidenhain pouch. Intravenous injection of dm PGE2 in the doses 0.1 and 1.0 microgram/kg 1/2 h before administration of the sodium taurocholate in HCl significantly reduced the net loss of H+ and the gain of Na+, K+, and histamine. It is concluded the dm PGE2 effectively protects the canine gastric mucosa from the damaging effects of bile salt and that the mechanism of dm PGE2 protection of canine oxyntic mucosa may be mediated in part via inhibition of the gastric mucosal release of histamine.     

Role of intracellular pH in secretion from adrenal medulla chromaffin cells

The role of intracellular pH in stimulus-secretion coupling was investigated in cultured bovine adrenal medullary chromaffin cells. NH4Cl (1-25 mM) did not affect basal catecholamine or ATP release but markedly inhibited nicotine- or high K+-induced release by up to 60%. The inhibition had a rapid onset (less than 1 min) and was maximal at about 5 mM NH4Cl. The effect of NH4Cl was largely sustained over 20 min and was reversed upon NH4Cl removal. Sodium propionate did not affect secretion but partially reversed the inhibition by NH4Cl in a concentration-dependent manner. Methylamine (10 mM) produced a similar, but slower, inhibition than NH4Cl. Monensin (1-10 microM) inhibited catecholamine secretion by 30-60%, and its effect was reduced in the presence of NH4Cl. Using the fluorescent Ca2+ probe Fura-2, we found that the increase of [Ca2+]i following stimulation was not altered by concentrations of NH4Cl which inhibited secretion maximally. Measurement of cytosolic pH (pHi) with the fluorescent probe 2',7'-bis-carboxyethyl-5(6)-carboxyfluorescein (BCECF) revealed an alkalinization by NH4Cl (2.5-25 mM) of 0.1-0.23 pH units and acidification by sodium propionate (10-20 mM) of 0.2-0.25 pH units, with intermediate combined effects. Monensin (1 microM) caused a cytosolic acidification of 0.26 pH units. All pHi changes were partly recovered in 15 min. Fluorescence quenching measurements using the weakly basic fluorescent probe acridine orange indicated the accumulation of the probe into acidic compartments, presumably the chromaffin granules, which was strongly reduced by both NH4Cl and monensin. From these findings we conclude that the pH of the chromaffin granule modulates secretion by affecting some step in the secretory process unrelated to the rise in [Ca2+]i.     

Role of histamine in aggravation of gastric acid back-diffusion and vascular permeability in septic rats

The aim of the present study was to investigate the role of histamine in aggravation of gastric acid back-diffusion and vascular permeability in lipopolysaccharide (LPS)-induced septic rats. Male specific pyrogen-free Wistar rats were deprived food for 24 h before the experiment. Intravenous LPS (3 mg/kg dissolved in sterilized saline) was given to rats 12 h after food removal. Control rats received sterilized saline only. Under diethylether-anesthesia, the pylorus and esophageal sphincters of rats were ligated. Vagotomy also was performed. The stomachs were then irrigated for 3 h with physiological acid solutions containing 0-150 mM HCl plus adequate amount of NaCl. Increases in various ulcerogenic parameters, such as gastric acid back-diffusion, mucosal histamine concentration, luminal hemoglobin (Hb) content and stomach ulcer, were dependent on the concentration of acid solutions irrigated in stomachs of those LPS rats. Gastric vascular permeability also was increased in an acid concentration-related manner. In those LPS rats, high correlation was found between extents of acid back-diffusion and mucosal ulceration. Increased vascular permeability also closely related to the luminal Hb content. Moreover, these ulcerogenic parameters were dose-dependently ameliorated by intraperitoneal ketotifen and ranitidine. Diamine oxidase also was effective in inhibition, but exogenous histamine on the contrary, produced exacerbation of these ulcerogenic parameters. In conclusion, histamine plays a pivotal role in modulating gastric acid back-diffusion and vascular permeability that are greatly associated with hemorrhagic ulcer in septic rats.     

Intracellular alkalinization leads to Ca2+ mobilization from agonist-sensitive pools in bovine aortic endothelial cells

Receptor-stimulated phosphoinositide turnover leads to activation of Na+/H+ exchange and subsequent intracellular alkalinization. To probe the effect of increased intracellular pH (pHi) on Ca2+ homeostasis in cultured bovine aortic endothelial cells (BAEC), we studied the effect of weak bases, ammonium chloride (NH4Cl) and methylamine (agents which increase pHi by direct passive diffusion), on resting and ATP (purinergic receptor agonist)-induced Ca2+ fluxes. Changes in cytosolic free Ca2+ ([Ca2+]i) or pHi were monitored in BAEC monolayers using the fluorescent dyes, fura-2 or 2',7'-bis(carboxyethyl)-5(6)-carboxyfluorescein, respectively. NH4Cl-induced, dose-dependent (5-20 mM) increases in [Ca2+]i (maximum change = 195 +/- 26 nM) which were temporally similar to the NH4Cl-induced pHi increases. Methylamine (20 mM) induced a more sustained pHi increase and also stimulated a prolonged [Ca2+]i increase. When BAEC were bathed in HCO3- buffer, removal of extracellular CO2/bicarbonate caused pHi to increase and also induced [Ca2+]i to increase transiently. Extracellular Ca2+ removal did not abolish the rapid NH4Cl-induced rise in [Ca2+]i, although the response was blunted and more transient. NH4Cl addition to BAEC cultures resulted in an increase in 45Ca efflux and decrease in total cell 45Ca content. BAEC treatment with ATP (100 microM) to deplete inositol 1,4,5-trisphosphate (IP3)-sensitive Ca2+ pools completely blocked the NH4Cl (20 mM)-induced rise in [Ca2+]i. Likewise, prior NH4Cl addition partially inhibited ATP-induced increases in [Ca2+]i, as well as slowed the frequency of repetitive [Ca2+]i spikes in single endothelial cells due to agonist. NH4Cl augmented the rate of [Ca2+]i increase that occurs in response to the depletion of agonist-sensitive intracellular Ca2+ pools. However, the internal Ca2+ store remained depleted during the continued presence of NH4Cl, as indicated by a decreased [Ca2+]i response to ATP in Ca2(+)-free medium. Finally, NH4Cl exerted these actions without affecting basal or ATP-stimulated IP3 formation. These observations provide direct evidence that increased pHi leads to Ca2+ mobilization from an agonist-sensitive pool and impairs Ca2+ pool(s) refilling mechanisms without altering cellular IP3 levels.