Histamine-mediated hyposmotic stimulation of gastric acid secretion

Gastric glands incubated in hyposmotic medium (200 mOsm) accumulated aminopyrine, a measure of acid secretion, to the same extent as that of paired glands in isomotic medium containing histamine (10(-4) M). These maximal responses to hyposmolality and histamine were not additive. The hyposmotic response peaked earlier than the histamine response. Hyposmotic stimulation was nearly abolished by preincubation of the glands with metiamide and cimetidine, H-2 histamine antagonists. In the presence of histaminase, no hyposmotic stimulation occurred. The response to forskolin, a stimulant of adenylate cyclase, was equivalent in hyposmotic and isosmotic media. These results indicate that hyposmolality releases histamine from a paracrine cell in the gastric gland and that histamine binds to H-2 receptors on the parietal cell to initiate a cyclic AMP-mediated stimulation of acid secretion.     

Multiple effects of phorbol ester on secretory activity in rabbit gastric glands and parietal cells

Acid secretory activity and respiration in rabbit gastric glands are stimulated by cAMP-dependent and -independent agonists. Potentiation between agonists suggests interaction of the activation pathways. Regulation of secretory response by protein kinase C was investigated with 12-0-tetradecanoyl phorbol-13-acetate (TPA). TPA elevated basal respiration, pepsin release, and acid secretion but inhibited histamine and carbachol stimulation of acid secretion by gastric glands, as measured by [dimethylamino-14C]aminopyrine accumulation. The inhibition of histamine response was specific for protein kinase C activators, occurred after a 20-min lag, and was not reversed by removal of TPA after 3 min of preincubation. TPA pretreatment inhibited acid secretory responses to cholera toxin and forskolin but enhanced the response to cAMP analogues. Cholera toxin and pertussis toxin simulated ADP-ribosylation of 45 and 41 kDa proteins, respectively, in parietal cell membranes. Therefore, both stimulatory (Gs) and inhibitory (Gi) GTP binding proteins of adenylyl cyclase appear to be present in parietal cells. Pretreatment with pertussis toxin attenuated PGE2 but not TPA inhibition of histamine stimulation of aminopyrine accumulation. Thus, the inhibitory effect of TPA does not appear to be associated with an action on Gi. The results with histamine and carbachol suggest that protein kinase C may regulate both cAMP-dependent and -independent stimulation of parietal cell acid secretion.     

ATP dependence of H+ secretion

Cells in isolated rabbit gastric gland were made permeable to ATP by high voltage discharge across a gland suspension. In both normal (5.4 mM K+) and high K+ (108 mM) medium, this electrical shock resulted in a marked reduction in the ability of the parietal cell to produce and accumulate acid. Acid production was monitored both microscopically by acridine orange accumulation in the secretory canaliculus and by accumulation of the weak base [14C]aminopyrine. In 108 mM K+ solutions but not in 5.4 mM K+ solutions 5, mM ATP was able to restore the accumulation of these probes to control (unshocked) levels. When shocked glands had been previously stimulated by secretagogues, the aminopyrine accumulation ratio was only partly restored by ATP. Inhibition of mitochondrial respiration by cyanide, azide, or Amytal abolished acid secretion; the subsequent addition of ATP to shocked glands increased the aminopyrine accumulation ratio to 47 and resulted in an acridine orange fluorescence indistinguishable from that of histamine-stimulated, unshocked glands. We conclude that ATP can act as a substrate for H+ secretion in the parietal cell, and that perhaps no additional energy source is necessary.     

TRPV4在渗透压对大鼠心肌收缩性影响中的作用

本文旨在探讨低渗和高渗内环境对心肌收缩性的影响及机制.取Sprague-Dawley(SD)大鼠左心室乳头状肌,在电刺激引起兴奋的条件下,分别记录在低渗、等渗和高渗灌流液中肌条的收缩力;同样条件下观察在低渗、等渗和高渗灌流液中加入渗透压敏感蛋白瞬时感受器电位离子通道家族香草素受体亚家族IV型(transient receptor potential vanilloid 4,TRPV4)的拮抗剂和激动剂后肌条收缩力的变化.结果显示:(1)与等渗(310 mOsm/L)时心肌收缩力相比,渗透压为290、270和230 mOsm/L时心肌收缩力分别增加11.5%、21.5%、25.O%(P<0.05);渗透压为350、370、390 mOsm/L时心肌收缩力分别降低16.0%、23.7%、55.2%(P<0.05).(2)在低渗液(270 mOsm/L)中加入TRPV4拮抗剂钌红(ruthenium red,RR),低渗对心肌收缩力的增强作用被抑制36%(P<0.01);在高渗液(390 mOsm/L)中加入RR,高渗对心肌收缩力的抑制作用增加56.1%(P<0.01).(3)在等渗液中(310 mOsm/L)加入TRPV4激动剂4-α-佛波醇-12,13-二癸酸(4-α-phorbol-12,13-didecanoate,4 α-PDD),心肌收缩力没有改变;在高渗液中(390 mOsm/L)加入4α-PDD,高渗对心肌收缩力的抑制作用增加27.1%(P<0.01).以上结果提示,TRPV4参与渗透压引起的心肌收缩力变化.     

Morphometric analysis of parietal cell membrane transformations in isolated gastric glands

Summary Changes in parietal cell membranous structures that accompany the onset of acid secretion were studied with electron microscopy using isolated gastric glands from rabbit. A stereological analysis was performed to quantitate the morphological changes occurring within 5 min following histamine stimulation. These changes were compared to the changes resulting from osmotic expansion of parietal cell components following addition of 1mm aminopyrine (AP) to glands incubated in medium containing 108mm K⁺ (high-K⁺). Morphometric analyses, together with measurements of glandular water content, indicated that parietal cells swell in high-K⁺ medium. Addition of 1mm AP to glands incubated in high-K⁺ medium resulted in massive distention of the secretory canaliculus but no difference was observed in the amount of tubulovesicular membrane or the relative size of these cytoplasmic structures. In the histamine-treated glands the parietal cells displayed a rapid loss of tubulovesicular membrane and a reciprocal increase in canalicular membrane. These morphological changes were complete long before a maximum level of acid formation was achieved. Taken together, these results indicate that; (i) the morphological change accompanying stimulation does not require acid formationper se; (ii) the site of acid secretion is the intracellular canaliculus and not the tubulovesicles; (iii) there is no preexisting actual or potential continuity between the tubulovesicular space and the canalicular space; and (iv) the AP-induced expansion of the canaliculus in high-K⁺ medium, while yielding some valuable information, is not an appropriate model for studying the normal stimulus-induced morphological transition, despite a superficial similarity of appearance.     

Effects of cholecystokinin on acid formation in glands and cells isolated from rabbit and rat gastric mucosa

Isolated gastric glands and isolated cells prepared from rabbit and rat were studied to analyse the influence of cholecystokinin octapeptide (CCK 8) on histamine stimulated parietal cell acid formation as assessed by [14C]aminopyrine sequestered in acid tissue compartments. In rabbit gastric glands, CCK 8 evoked 32+/-6% (P<0. 01) inhibition of histamine stimulated acid formation, whereas in glands prepared from rat no inhibition was recorded. Instead, CCK 8 seemed to induce a variable increase of the histamine stimulation in rat gastric glands as the aminopyrine accumulation was increased by 110+/-46% (P<0.1). Further studies on cell preparations derived from rabbit gastric mucosa revealed dual properties of CCK 8, eliciting either inhibition or stimulation of the parietal cell depending on the presence of endocrine cells. The results show that paracrine communication may be effective in glandular preparations, but seems to vary depending on species.     

A proposed mechanism for the potentiation of cAMP-mediated acid secretion by carbachol

Acid secretion in isolated rabbit gastric glands was monitored by the accumulation of [(14)C]aminopyrine. Stimulation of the glands with carbachol synergistically augmented the response to dibutyryl cAMP. The augmentation persisted even after carbachol was washed out and was resistant to chelated extracellular Ca(2+) and to inhibitors of either protein kinase C or calmodulin kinase II. Cytochalasin D at 10 microM preferentially blocked the secretory effect of carbachol and its synergism with cAMP, whereas it had no effect on histamine- or cAMP-stimulated acid secretion within 15 min. Cytochalasin D inhibited the carbachol-stimulated intracellular Ca(2+) concentration ([Ca(2+)](i)) increase due to release from the Ca(2+) store. Treatment of the glands with cytochalasin D redistributed type 3 inositol 1,4,5-trisphosphate receptor (the major subtype in the parietal cell) from the fraction containing membranes of large size to the microsomal fraction, suggesting a dissociation of the store from the plasma membrane. These findings suggest that intracellular Ca(2+) release by cholinergic stimulation is critical for determining synergism with cAMP in parietal cell activation and that functional coupling between the Ca(2+) store and the receptor is maintained by actin microfilaments.     

Effects of common inhibitors of gastric acid secretion on secretagogue-induced respiration and aminopyrine accumulation in isolated gastric glands.

1. The effects of three inhibitors of gastric acid secretion, atropine, burimamide and thiocyanate, have been studied in isolated glands from the rabbit gastric mucosa. The glands were either resting or stimulated by carbachol, histamine or dibutyryl cyclic AMP. The effects were determined from changes in oxygen consumption and accumulation of the weak base aminopyrine. The latter gives an indirect measurement of the acid production in the glands. 2. Atropine (10 (-6) M) almost totally inhibited the transient response induced by carbachol (10 (-4) M) in both measured parameters. The histamine-induced increase in respiration was inhibited when the atropine concentration was raised to 10 (-4) M. To a lesser extent also, histamine-induced aminopyrine accumulation was reduced. The dibutyryl cyclic AMP stimulated oxygen consumption was not affected by atropine. 3. Burimamide competitively inhibited the histamine responses but was without effect on those of carbachol and dibutyryl cyclic AMP. 4. Thiocyanate (10 (-2) M) inhibited the increase in oxygen consumption induced by all three secretagogues but not down the prestimulatory level, in spite of total abolishment of the aminopyrine accumulation. 5. In unstimulated glands, burimamide (10 (-3) M) or atropine (10 (-4) M) did not alter the normal aminopyrine ratio (aminopyrine in intraglandular water/ aminopyrine in extraglandular water) of approximately 50. This may indicate the existence of preformed acid in resting parietal cells. Thiocyanate, on the other hand, lowered the aminopyrine ratio in unstimulated glands from 46 to 2. Possible mechanisms for the thiocyanate effect are discussed in terms of an inability to separate acid and base in the secreting membrane.     

Contribution of organic and inorganic osmolytes to volume regulation in rat brain cells in culture

In this work we examined the time course and the amount released, by hyposmolarity, for the most abundant free amino acids (FAA) in rat brain cortex astrocytes and neurons in culture. The aim was to evaluate their contribution to the process of cell volume regulation. Taurine, glutamate, andd-aspartate in the two types of cells, -alanine in astrocytes and GABA in neurons were promptly released by hyposmolarity, reaching a maximum within 1–2 min. after an osmolarity change. A substantial amount of the intracellular pool of these amino acids was mobilized in response to hyposmolarity. The amount released in media with osmolarity reduced from 300 mOsm to 150 mOsm or 210 mOsm, represented 50%–65% and 13%–31%, respectively, of the total amino acid content in cells. In both astrocytes and neurons, the efflux of glutamine and alanine was higher under isosmotic conditions and increased only marginally during hyposmotic conditions.⁸⁶Rb⁺, used as tracer for K⁺, was released from astrocytes, 30% and 11%, respectively, in hyposmotic media of 150 mOsm or 210 mOsm but was not transported in neurons. From these results it was calculated that FAA contribute 54% and inorganic ions 46% to the process of volume regulation in astrocytes exposed to a 150 mOsm hyposmotic medium. This contribution was 55% for FAA and 45% for K⁺ and Cl^– in cells exposed to 210 mOsm hyposmotic solutions. These results indicate that the contribution of FAA to the process of cell volume regulation is higher in astrocytes than in other cell types including renal and blood cells.Special issue dedicated to Dr. Claude Baxter.     

Metabolism and gastric acid secretion. Substrate-dependency of aminopyrine accumulation in isolated rat parietal cells.

The substrate-dependency of gastric acid secretion was investigated in isolated rat parietal cells by using the accumulation of the weak base aminopyrine as an index of acid secretion. Exogenous substrates enhanced accumulation of aminopyrine in rat parietal cells stimulated by secretagogues, and this effect was probably directly related to the provision of energy for acid secretion. At physiological concentrations, certain of the substrates (glucose, oleate, lactate, D-3-hydroxybutyrate, L-isoleucine, L-valine and acetoacetate) could support acid secretion, with glucose being the most effective. L-Leucine and acetate were only effective stimulators of parietal-cell aminopyrine accumulation at high concentrations (5mM). L-Glutamine was unable to stimulate aminopyrine accumulation even at high concentrations, and glutaminase activity in parietal cells was estimated to be low by comparison with small-intestinal epithelial cells. Variation in the concentrations of D-3-hydroxybutyrate and L-isoleucine, but not of glucose, within the physiological range affected their ability to support aminopyrine accumulation. The presence of 5 mM-L-isoleucine, 5 mM-lactate and combinations of certain substrates at physiological concentrations produced aminopyrine accumulation in stimulated parietal cells that was greater than that obtained in cells incubated with 5 mM-glucose alone. In conclusion, fulfillment of the metabolic requirements of the acid-secreting parietal cell under physiological circumstances requires a combination of substrates, and integration of the results with previous data [Anderson & Hanson (1983) Biochem. J. 210, 451-455; 212, 875-879] suggests that after overnight starvation in vivo metabolism of glucose, D-3-hydroxybutyrate and L-isoleucine may be of particular importance.     

Influence of Medium Concentration on Prolactin and Growth Hormone Cells During Short-Term Incubation of Pituitary Glands from Tilapia mossambica

Pituitaries removed from Tilapia mossambica adapted either to sea water or fresh water were incubated for 3 or 6 hours in isosmotic or hyposmotic medium. Activation of prolactin cells from pituitaries incubated in hyposmotic medium was indicated by frequent exocytosis and by proliferation of cellular organelles. These pituitaries also showed a reduction in prolactin content and an increase in the amount of bioassayable prolactin in the medium. Incorporation of tritiated leucine into prolactin was least in prolactin cells from seawater Tilapia incubated in isosmotic medium and greatest in those of freshwater Tilapia incubated in hyposmotic medium. These observations indicate that in Tilapia, both synthesis and secretion of prolactin may be stimulated directly by dilution of the medium bathing the pituitary. On the other hand, there were no ultrastructural changes in the presumptive growth hormone cells incubated for 3 or 6 hours in the hyposmotic medium. Hence, these cells do not appear to play a major osmoregulatory role.     

Calcium involvement in the muscarinic response of the gastric parietal cell

The influence of extracellular Ca2+ on the mediation of carbachol stimulation in isolated rabbit gastric parietal cells was studied. Removing Ca2+ from extracellular medium caused a 42% decrease of the aminopyrine accumulation due to carbachol with the same EC50 value (approximately 5 microM). A short time depletion in extracellular calcium suppressed the carbachol-dependent Ca2+ influx without affecting Ca2+ release from internal stores (fura-2 measurements). Similarly, the production of inositol phosphates under cholinergic stimulation was reduced by 29%. A rapid increase in Ins(1,4,5)P3 was obtained 5 s after carbachol stimulation, and this increase was not changed in Ca2(+)-depleted medium. In contrast, a 20 min incubation with carbachol caused a 50% reduction in both basal and carbachol-stimulated inositol phosphate accumulations. In conclusion, phospholipase C activation, intracellular Ca2+ release and aminopyrine accumulation were sequentially observed following carbachol stimulation of the isolated gastric parietal cell and extracellular calcium contributed to sustain this acid secretory response.     

Muscarinic stimulation of inositol phosphate accumulation and acid secretion in gastric fundic mucosal cells

The muscarinic agonist, carbachol (CCh), was shown to stimulate the production of inositol phosphates (IP) in isolated cells from rabbit fundic mucosa. This stimulatory effect was time- and dose-dependent: EC50 values for IP1, IP2 and IP3 accumulation were not statistically different. The mean value was 30 +/- 8 microM (n = 6). The corresponding maximal stimulation (% of basal value) observed after 20 min incubation in the presence of 100 microM CCh was 160 +/- 15%. CCh-induced IP accumulation was abolished by atropine (Ki = 0.32 +/- 0.18 nM (n = 3)). The CCh concentrations leading to half-maximal inhibition of N-[3H]methylscopolamine binding and half-maximal IP accumulation were similar. The half-maximal value for CCh-induced aminopyrine accumulation was 8-times lower. These results indicate that IP3-mediated mobilization of intracellular Ca2+ might be involved in CCh-induced acid secretion by parietal cells.     

Nitric oxide inhibits gastric acid secretion by increasing intraparietal cell levels of cGMP in isolated human gastric glands

We have previously identified cells containing the enzyme nitric oxide (NO) synthase (NOS) in the human gastric mucosa. Moreover, we have demonstrated that endogenous and exogenous NO has been shown to decrease histamine-stimulated acid secretion in isolated human gastric glands. The present investigation aimed to further determine whether this action of NO was mediated by the activation of guanylyl cyclase (GC) and subsequent production of cGMP. Isolated gastric glands were obtained after enzymatic digestion of biopsies taken from the oxyntic mucosa of healthy volunteers. Acid secretion was assessed by measuring [(14)C]aminopyrine accumulation, and the concentration of cGMP was determined by radioimmunoassay. In addition, immunohistochemistry was used to examine the localization of cGMP in mucosal preparations after stimulation with the NO donor S-nitroso-N-acetylpenicillamine (SNAP). SNAP (0.1 mM) was shown to decrease acid secretion stimulated by histamine (50 microM); this effect was accompanied by an increase in cGMP production, which was histologically localized to parietal cells. The membrane-permeable cGMP analog dibuturyl-cGMP (db-cGMP; 0.1-1 mM) dose dependently inhibited acid secretion. Additionally, the effect of SNAP was prevented by preincubating the glands with the GC inhibitor 4H-8-bromo-1,2,4-oxadiazolo[3,4-d]benz[b][1,4]oxazin-1-one (10 microM). We therefore suggest that NO in the human gastric mucosa is of physiological importance in regulating acid secretion. Furthermore, the results show that NO-induced inhibition of gastric acid secretion is a cGMP-dependent mechanism in the parietal cell involving the activation of GC.     

A micromethod for the assay of cellular secretory physiology: application to rabbit parietal cells

A micromethod for investigating secretory physiology in isolated cells was evaluated. The method utilized a specially designed polycarbonate incubation chamber to provide constant oxygenation to cells incubating in a 96-well microtiter plate. Cells were rapidly separated from media by vacuum filtration. Isolated parietal cells were utilized to demonstrate the versatility of the method for assay of intracellular accumulation of [14C]-aminopyrine, secretion of intrinsic factor into the medium, and assay of intracellular cAMP. Histamine stimulated the uptake of [14C]aminopyrine and intrinsic factor secretion in a sustained and linear fashion. At the end of the 2-h period uptake of aminopyrine and secretion of intrinsic factor were increased 17- and 5-fold, respectively. This response to histamine was accompanied by a rapid and sustained 3-fold rise in intracellular cyclic AMP. In contrast, carbamylcholine caused a transient increase in [14C]aminopyrine accumulation and intrinsic factor secretion which was most pronounced during the first 10 min and had almost ceased by 30 min. Carbamylcholine had no effect on intracellular cAMP levels. This new method, which can handle 400 replicates using parietal cells from the fundic mucosa of a single rabbit, is suitable for studying the time course of intracellular events which accompany general secretory processes.     

Porcine ileal polypeptide causes an increase in cytoplasmic Ca2+ in both parietal and chief cells resulting in acid and pepsinogen secretion

Porcine ileal polypeptide, an enterooxyntin isolated from distal small intestinal mucosal epithelium, has been observed to stimulate gastric acid secretion in vivo as well as in vitro (Wider, M.D. et al. (1984) Endocrinology 115, 1484-1491, Wider M.D. et al. (1986) Endocrinology 118, 1546-1550). We report here that porcine ileal polypeptide stimulates both acid (aminopyrine accumulation) and pepsinogen secretion in isolated, enriched populations of guinea pig parietal and chief cells in a dose-dependent manner. Further, 10(-9) M porcine ileal polypeptide caused an increase in cytoplasmic Ca2+ concentration in both parietal and chief cells similar in magnitude to that observed with gastrin-17 (10(-8) M) (as measured by both fura-2 and aequorin) and cholecystokinin octapeptide (CCK-OP) (10(-8) M), respectively. Porcine ileal polypeptide has been observed to cause no stimulation of cAMP production in gastric glands from guinea pigs (Gespach, C., personal communication) nor is there any effect of medium Ca2+ depletion on acid production observed with guinea pig gastric mucosal sections. It is concluded that porcine ileal polypeptide, at concentrations similar to circulating levels observed in plasma of normal pigs (5 x 10(-9) M), acts directly on the parietal and chief cells to cause the mobilization of intracellular Ca2+ from the stores resulting in acid and pepsinogen secretion. These experiments demonstrate that this peptide is a potent enterooxyntin and chief cell secretagogue which acts via the same signal transduction mechanisms as gastrin and cholecystokinin.     

Epidermal growth factor (EGF) inhibits both intrinsic factor secretion and acid secretion in histamine-stimulated isolated gastric glands

Epidermal growth factor (EGF) is a polypeptide present in mammalian salivary glands which has been shown to have mitogenic and gastric acid inhibitory properties in vivo. The mechanisms of action of EGF at the level of the parietal cell are not clear. In the present study, we have examined the effects of EGF on both acid and macromolecular (intrinsic factor, IF) secretion stimulated by the cyclic AMP-mediated agonist histamine using the rabbit isolated gastric gland model. Acid secretion was assessed by the accumulation of [14C]aminopyrine (AP) in glands and IF in the supernatants by the binding of [57Co]cyanocobalamin. Histamine (10(-6) to 5 x 10(-5) M) resulted in a 4-6 fold increase in [14C]AP and IF (P less than 0.05). EGF alone (10(-8) M, 10(-7) M) had no significant effect on basal [14C]AP accumulation or IF secretion (P less than 0.05). EGF (10(-7) M) significantly inhibited the histamine dose-response curve for [14C]AP and IF, but a relatively greater inhibition was observed at higher histamine concentration. These data demonstrate that EGF inhibits both acid and IF secretion in vitro at concentrations consistent with those observed in vivo. The observations further support the hypothesis that EGF may play a role in the regulation of parietal cell secretion.     

Targeted disruption of the Lasp-1 gene is linked to increases in histamine-stimulated gastric HCl secretion

Lasp-1 (LIM and SH3 domain protein 1) is a multidomain actin-binding protein that is differentially expressed within epithelial tissues and brain. In the gastric mucosa, Lasp-1 is highly expressed in the HCl-secreting parietal cell, where it is prominently localized within the F-actin-rich subcellular regions. Histamine-induced elevation of parietal cell [cAMP]i increases Lasp-1 phosphorylation, which is correlated with activation of HCl secretion. To determine whether Lasp-1 is involved in the regulation of HCl secretion in vivo, we generated a murine model with a targeted disruption of the Lasp-1 gene. Lasp-1-null mice had slightly lower body weights but developed normally and had no overt phenotypic abnormalities. Basal HCl secretion was unaffected by loss of Lasp-1, but histamine stimulation induced a more robust acid secretory response in Lasp-1-null mice compared with wild-type littermates. A similar effect of histamine was observed in isolated gastric glands on the basis of measurements of accumulation of the weak base [14C]aminopyrine. In addition, inhibition of the acid secretory response to histamine by H2 receptor blockade with ranitidine proceeded more slowly in glands from Lasp-1-null mice. These findings support the conclusion that Lasp-1 is involved in the regulation of parietal HCl secretion. We speculate that cAMP-dependent phosphorylation of Lasp-1 alters interactions with F-actin and/or endocytic proteins that interact with Lasp-1, thereby regulating the trafficking/activation of the H+, K+-ATPase (proton pump).     

Evidence that proglumide and benzotript antagonize secretagogue stimulation of isolated gastric parietal cells

Proglumide has been shown to be an in vivo inhibitor of secretagogue-stimulated gastric acid secretion. In the present study, we have examined the ability of proglumide and benzotript, a new tryptophan derivative, to inhibit acid output from isolated gastric fundic parietal cells from rabbit. As measured with the [14C]aminopyrine (AP) accumulation method as an index of acid secretion, the two drugs inhibited basal AP with IC-50 values of 1 X 10(-2) M for proglumide and 1 X 10(-3) M for benzotript. In the case of secretagogue stimulation (1) benzotript slightly affected histamine-induced AP (15% inhibition at 5 X 10(-3) M), proglumide did not; (2) both proglumide and benzotript inhibited in a non-competitive manner acetylcholine-induced AP; (3) these isolated cells were sensitive to gastrin and the dose-response curve for the stimulant was biphasic (maximum for 1 X 10(-9) M), suggesting a desensitization mechanism. Proglumide and benzotript competitively inhibited both [125I]gastrin binding to its receptor sites and gastrin-induced AP, suggesting they are members of a class of gastrin-receptor antagonists. But, this suggestion cannot exclude other post-receptorial mechanisms involved in the acid output from parietal cells.     

Ion transport in a human lens epithelial cell line exposed to hyposmotic and apoptotic stress

Membrane transport changes in human lens epithelial (HLE‐B3) cells under hyposmotic and apoptotic stress were compared. Cell potassium content, K_i, uptake of the K congener rubidium, Rb_i, and water content were measured after hyposmotic stress induced by hypotonicity, and apoptotic stress by the protein‐kinase inhibitor staurosporine (STP). Cell water increased in hyposmotic (150 mOsm) as compared to isosmotic (300 mOsm) balanced salt solution (BSS) by >2‐fold at 5 min and decreased within 15 min to baseline values accompanied by a 40% K_i loss commensurate with cell swelling and subsequent cell shrinkage likely due to regulatory volume decrease (RVD). Loss of K_i, and accompanying water, and Rb_i uptake in hyposmotic BSS were prevented by clotrimazole (CTZ) suggesting water shifts associated with K and Rb flux via intermediate conductance K (IK) channels, also detected at the mRNA and protein level. In contrast, 2 h after 2 µM STP exposure, the cells lost ～40% water and ～60% K_i, respectively, consistent with apoptotic volume decrease (AVD). Indeed, water and K_i loss was at least fivefold greater after hyposmotic than after apoptotic stress. High extracellular K and 2 mM 4‐aminopyridine (4‐AP) but not CTZ significantly reduced apoptosis. Annexin labeling phosphatidylserine (PS) at 15 min suggested loss of lipid asymmetry. Quantitative PCR revealed significant IK channel expression during prolonged hyposmotic stress. Results suggest in HLE‐B3 cells, IK channels likely partook in and were down regulated after RVD, whereas pro‐apoptotic STP‐activation of 4‐AP‐sensitive voltage‐gated K channels preceded or accompanied PS externalization before subsequent apoptosis. J. Cell. Physiol. 223: 110–122, 2010. © 2009 Wiley‐Liss, Inc.