The functional and physical relationship between the DRA bicarbonate transporter and carbonic anhydrase II

COOH-terminal cytoplasmic tails ofchloride/bicarbonate anion exchangers (AE) bind cytosolic carbonicanhydrase II (CAII) to form a bicarbonate transport metabolon, amembrane protein complex that accelerates transmembrane bicarbonateflux. To determine whether interaction with CAII affects thedownregulated in adenoma (DRA) chloride/bicarbonate exchanger, anionexchange activity of DRA-transfected HEK-293 cells was monitored byfollowing changes in intracellular pH associated with bicarbonatetransport. DRA-mediated bicarbonate transport activity of 18 ± 1 mM H⁺ equivalents/min was inhibited 53 ± 2% by 100 mM of the CAII inhibitor, acetazolamide, but was unaffected by themembrane-impermeant carbonic anhydrase inhibitor,1-[5-sulfamoyl-1,3,4-thiadiazol-2-yl-(aminosulfonyl-4-phenyl)]-2,6-dimethyl-4-phenyl-pyridinium perchlorate. Compared with AE1, the COOH-terminal tail of DRA interacted weakly with CAII. Overexpression of a functionally inactiveCAII mutant, V143Y, reduced AE1 transport activity by 61 ± 4%without effect on DRA transport activity (105 ± 7% transport activity relative to DRA alone). We conclude that cytosolic CAII isrequired for full DRA-mediated bicarbonate transport. However, DRAdiffers from other bicarbonate transport proteins because its transportactivity is not stimulated by direct interaction with CAII.

     

Short-term effects of carbon dioxide on carnation callus cell respiration

The addition of potassium bicarbonate to the electrode cuvette immediately stimulated the rate of dark O₂ uptake of photomixotrophic and heterotrophic carnation (Dianthus caryophyllus L.) callus, of Elodea canadensis (Michx) leaves, and of other plant tissues. This phenomenon occurred at pH values lower than 7.2 to 7.8, and the stimulation depended on the concentration of gaseous CO₂ in the solution. These stimulatory responses lasted several minutes and then decreased, but additional bicarbonate or gaseous CO₂ again stimulated respiration, suggesting a reversible effect. Carbonic anhydrase in the solution increased the stimulatory effect of potassium bicarbonate. The CO₂/bicarbonate dependent stimulation of respiration did not occur in animal tissues such as rat diaphragm and isolated hepatocytes, and was inhibited by salicylhydroxamic acid in carnation callus cells and E. canadensis leaves. This suggested that the alternative oxidase was engaged during the stimulation in plant tissues. The cytochrome pathway was severely inhibited by CO₂/bicarbonate either in the absence or in the presence of the uncoupler carbonylcyanide m-chlorophenyl hydrazone. The activity of cytochrome c oxidase of callus tissue homogenates was also inhibited by CO₂/bicarbonate. The results suggested that high carbon dioxide levels (mainly free CO₂) partially inhibited the cytochrome pathway (apparently at the oxidase level), and this block in electron transport elicited a large transient engagement of the alternative oxidase when present uninhibited.     

小麦幼苗磷利用率及相关基因的染色体定位

利用小麦'中国春-埃及红'代换系对调控不同水分和磷素胁迫处理下磷素利用效率及相关性状进行了染色体定位和遗传分析,为作物磷素高效利用的遗传改良研究奠定基础.结果表明,染色体7A和7D代换系在Hoagland营养液(WP)、10% PEG-6000 Hoagland营养液(-WP)、1/2P Hoagland营养液(W-P) 处理下,可能携带有对磷素利用有促进作用的基因.遗传分析表明,磷素利用率的遗传力、遗传进度、相对遗传进度都较高,说明该性状的变异由遗传作用引起的比重较大,环境因素对它的遗传影响不大,适合在遗传育种中进行早代选择.     

Voltage-gated potassium channel Kv1.3 regulates GLUT4 trafficking to the plasma membrane via a Ca2+-dependent mechanism

Kv1.3 is a voltage-gated K⁺ channel expressed in insulin-sensitive tissues. We previously showed that gene inactivation or pharmacological inhibition of Kv1.3 channel activity increased peripheral insulin sensitivity independently of body weight by augmenting the amount of GLUT4 at the plasma membrane. In the present study, we further examined the effect Kv1.3 on GLUT4 trafficking and tested whether it occurred via an insulin-dependent pathway. We found that Kv1.3 inhibition by margatoxin (MgTX) stimulated glucose uptake in adipose tissue and skeletal muscle and that the effect of MgTX on glucose transport was additive to that of insulin. Furthermore, whereas the increase in uptake was wortmannin insensitive, it was completely inhibited by dantrolene, a blocker of Ca²⁺ release from intracellular Ca²⁺ stores. In white adipocytes in primary culture, channel inhibition by Psora-4 increased GLUT4 translocation to the plasma membrane. In these cells, GLUT4 protein translocation was unaffected by the addition of wortmannin but was significantly inhibited by dantrolene. Channel inhibition depolarized the membrane voltage and led to sustained, dantrolene-sensitive oscillations in intracellular Ca²⁺ concentration. These results indicate that the apparent increase in insulin sensitivity observed in association with inhibition of Kv1.3 channel activity is mediated by an increase in GLUT4 protein at the plasma membrane, which occurs largely through a Ca²⁺-dependent process. insulin; glucose; diabetes; calcium     

The Effect of Selected Growth-Promoting and Growth-Inhibiting Substances on the Extension of Segments of Etiolated Tomato Seedling Hypocotyls

The effects of a number of growth-promoting and growth-inhibitingsubstances, including two fungal toxins, were studied on theextension of segments of etiolated tomato seedling hypocotyls.The bioassay was sensitive to small quantities of NaF, coumarinand ₂, ₄-DNP and inhibition was observed at all concentrations.₂, ₄-DNP or Iodoacetate stimulated growth at concentrationsbetween 1? 10^–4 and 5 ? 10^–6M. or 1 ? 10^–6and 1 ? 10^–7M. respectively. Inhibitor experiments inbuffered nutrient solution were approximately 10 per cent. moresensitive than those in deionized water. By means of paper partition chromatography small quantitiesof two fungal toxins, fusaric and alternaric acid were chromatographedand bioassayed. The effect of fussric acid (5, n-butyI picolinicacid) on hypocoty1 growth was detected at concentrations aslow as 1 ? 10^–5M. Experiments with recongnized growth-promoting substances showedthat Kinetin inhibited growth at concentrations up to 1 ?10^–8M.in both light and dark. IAA inhibited growth up to 1 ? 10^–6M.At 1 ? 10^–7 and 1 ? 10^–8 only small increases occurredwith IAA and the effect of light was negligible. Gibberellicacid (GA₂)stimulated growth at concentrations from 10^–3to 10^–7M. and significant increases up to 17 per cent.were recorded in the light. Since the light induced inhibitionwas only partly restored, the existence of some other naturallight sensitive growth substance is suggested. The value ofthe bioassay as a method for estimating natural growth-inhibitingand growth-promoting substances is discussed.     

百菌清对土壤氧化亚氮和二氧化碳排放的影响

在25 ℃、60%WHC（最大持水量）的好氧条件下进行14 d的培养试验,研究杀菌剂百菌清在添加水平为0 mg·kg^-1（CK）、5.5 mg·kg^-1（田间施用量,FR）及110 mg·kg^-1(20FR)和220 mg·kg^-1（40FR）时对酸性、中性和碱性土壤中N₂O和CO₂排放的影响.结果表明：百菌清对N₂O和CO₂排放的影响取决于土壤类型和施用浓度.与对照相比,百菌清在20FR和40FR时显著抑制了酸性土壤N₂O的产生与排放;3种施用量均显著促进了中性土壤N₂O的排放,其中FR水平的促进效果最显著;高浓度（20FR和40FR）的百菌清在培养初期抑制了碱性土壤N₂O的排放,而在培养后期显著促进了N₂O的排放.田间用量的百菌清对土壤CO₂排放量没有明显影响;高浓度（20FR和40FR）时显著促进了酸性土壤CO₂的排放,显著抑制了中性和碱性土壤CO₂的排放.     

Salt Tolerance in Suaeda maritima (L.) Dum: THE EFFECT OF SODIUM CHLORIDE ON GROWTH, RESPIRATION, AND SOLUBLE ENZYMES IN A COMPARATIVE STUDY WITH PISUM SATIVUM L

The effect of sodium, chloride on the growth of a halophyte,Suaeda maritima (L.) Dum., was compared with its effect on Pisumsativum L. cv. Alaska under controlled environmental conditions.The salt stimulated the growth of Suaeda maximally at concentrationsof 170 to 340 mM while the growth of Pisum was inhibited evenby 100 mM. Both species accumulated ions in the tops and themaximum concentrations of Na⁺ and Cl^– rose in Suaeda to860 mM (based on the water content) and 730 mM and in Pisumto 170 mM and 300 mM respectively. Respiration in both specieswas inhibited as the NaCl level in the culture solution wasraised. Four supernatant enzymes (malic dehydrogenase, glucose-6-phosphatedehydrogenase, peroxidase, and acid phosphatase) prepared fromPisum and from Suaeda (grown either in the absence of addedNaCl or in the presence of 340 mM NaCl) were assayed in variouslevels of sodium chloride. The dehydrogenases were markedlyinhibited by increasing salt concentrations while there wasa smaller effect on the peroxidase and acid phosphatase. Therewas no difference in the effect of salt on the enzymes preparedfrom the two species although one is halophilic and the otherhalophobic.     

Glucose activates H(+)-ATPase in kidney epithelial cells

The vacuolar H⁺-ATPase (V-ATPase) acidifies compartments of the vacuolar system of eukaryotic cells. In renal epithelial cells, it resides on the plasma membrane and is essential for bicarbonate transport and acid-base homeostasis. The factors that regulate the H⁺-ATPase remain largely unknown. The present study examines the effect of glucose on H⁺-ATPase activity in the pig kidney epithelial cell line LLC-PK₁. Cellular pH was measured by performing ratiometric fluorescence microscopy using the pH-sensitive indicator BCECF-AM. Intracellular acidification was induced with NH₃/NH₄⁺ prepulse, and rates of intracellular pH (pH_i) recovery (after in situ calibration) were determined by the slopes of linear regression lines during the first 3 min of recovery. The solutions contained 1 µM ethylisopropylamiloride and were K⁺ free to eliminate Na⁺/H⁺ exchange and H⁺-K⁺-ATPase activity. After NH₃/NH₄⁺-induced acidification, LLC-PK₁ cells had a significant pH_i recovery rate that was inhibited entirely by 100 nM of the V-ATPase inhibitor concanamycin A. Acute removal of glucose from medium markedly reduced V-ATPase-dependent pH_i recovery activity. Readdition of glucose induced concentration-dependent reactivation of V-ATPase pH_i recovery activity within 2 min. Glucose replacement produced no significant change in cell ATP or ADP content. H⁺-ATPase activity was completely inhibited by the glycolytic inhibitor 2-deoxy-D-glucose (20 mM) but only partially inhibited by the mitochondrial electron transport inhibitor antimycin A (20 µM). The phosphatidylinositol 3-kinase (PI3K) inhibitor wortmannin (500 nM) abolished glucose activation of V-ATPase, and activity was restored after wortmannin removal. Glucose activates V-ATPase activity in kidney epithelial cells through the glycolytic pathway by a signaling pathway that requires PI3K activity. These findings represent an entirely new physiological effect of glucose, linking it to cellular proton secretion and vacuolar acidification. proton secretion; glycolysis; intracellular pH; concanamycin A     

Extracellular ATP stimulates volume decrease in Necturus red blood cells

This study examined whether extracellular ATP stimulatesregulatory volume decrease (RVD) in Necturusmaculosus (mudpuppy) red blood cells (RBCs). Thehemolytic index (a measure of osmotic fragility) decreased withextracellular ATP (50 µM). In contrast, the ATP scavenger hexokinase(2.5 U/ml, 1 mM glucose) increased osmotic fragility. In addition, theATP-dependent K⁺ channelantagonist glibenclamide (100 µM) increased the hemolytic index, andthis inhibition was reversed with ATP (50 µM). We also measured cellvolume recovery in response to hypotonic shock electronically with aCoulter counter. Extracellular ATP (50 µM) enhanced cell volumedecrease in a hypotonic (0.5×) Ringer solution. In contrast, hexokinase (2.5 U/ml) and apyrase (an ATP diphosphohydrolase, 2.5 U/ml)inhibited cell volume recovery. The inhibitory effect of hexokinase wasreversed with the Ca²⁺ ionophoreA-23187 (1 µM); it also was reversed with the cationophore gramicidin(5 µM in a choline-Ringer solution), indicating that ATP was linkedto K⁺ efflux. In addition,glibenclamide (100 µM) and gadolinium (10 µM) inhibited cell volumedecrease, and the effect of these agents was reversed with ATP (50 µM) and A-23187 (1 µM). Using the whole cell patch-clamp technique,we found that ATP (50 µM) stimulated a whole cell current underisosmotic conditions. In addition, apyrase (2.5 U/ml), glibenclamide(100 µM), and gadolinium (10 µM) inhibited whole cell currents thatwere activated during hypotonic swelling. The inhibitory effect ofapyrase was reversed with the nonhydrolyzable analog adenosine5'-O-(3-thiotriphosphate) (50 µM), and the effect of glibenclamide or gadolinium was reversed withATP (50 µM). Finally, anionic whole cell currents were activated withhypotonic swelling when ATP was the only significant charge carrier,suggesting that increases in cell volume led to ATP efflux through aconductive pathway. Taken together, these results indicate thatextracellular ATP stimulated cell volume decrease via aCa²⁺-dependent step that led toK⁺ efflux.

     

NaCl对小麦根生长和无机离子分布的影响

培养在含NaCl营养液中的幼苗,根生长被抑制,线粒体超微结构受损伤。用扫描电镜、X-射线能谱仪和电感耦合等离子直读光谱（ICP）分析发现,培养在含NaCl营养液中的根,积累大量Na+和Cl-,而K+和Ca~（2+）的含量降低,无机离子总量和Na+/K+比值提高。     

Stimulation of ethylene or ethane production by malformin

Malformin stimulated ethylene production of Phaseolus vulgarisL. seedlings and explants. However, when malformin was vacuum-infiltratedinto apical bud sections, the production of ethylene was inhibited,ethane production was stimulated and the sections became softand pliable; in pure oxygen, ethylene production was- stimulatedand the sections remained firm. Prolonged stimulation of ethaneproduction by malformin-treated sections required oxygen. Indoleaceticacid (IAA) had no effect on the stimulation of ethane productionby malformin-infiltrated tissues; malformin and IAA stimulatedethylene production synergistically at the same time that malformininducedethane production had increased markedly. ¹This work was supported by grant GB-7158 from the NationalScience Foundation. ²Journal Paper No. 3560 of the Purdue Agricultural ExperimentStation. (Received July 23, 1969; )     

Iron Chlorosis in Grafted Sweet Orange (Citrus sinensis L.) Plants: Physiological and Biochemical Responses

Fe deficiency was imposed in Citrus sinensis L. cultivars Valencia and New Hall grafted on C. aurantium and Swingle citrumelo rootstocks by the absence of Fe (-Fe) or by the presence of bicarbonate in the Hoagland nutrient solution. In Fe-deprived leaves total and active Fe concentration, and peroxidase and catalase activities were decreased while the ratios carotenoids/chlorophylls, P/Fe, and K/Ca were increased. Fe(III) chelate reductase activity was induced in (-Fe)-treated roots whereas it was depressed in bicarbonate-treated roots.     

Effect of lanthanide chloride on photosynthesis and dry matter accumulation in tobacco seedlings

To investigate the physiological effects of rare earth ions, we have studied the effect of LaCl₃ on the photosynthetic light reactions in tobacco (Nicotiana tobacum). When treated with 5–20 mg/L LaCl₃ in Hoagland solution by water culture, the dry matter accumulation of different parts in tobacco, the content of chlorophyll increased gradually, but decreased when the concentration of LaCl₃ was ≥ 50 mg/L. The optimum concentration for growth appeared to be about 20 mg/L of LaCl₃ in nutrient solution. La³⁺ promoted the activities of the Hill reaction, Mg²⁺-ATPase, and stimulated the rate of photophosphorylation in chloroplast at low concentrations, but inhibited them at high concentrations. It is concluded that La³⁺ stimulated the growth of tobacco seedlings and accelerated the photosynthetic light reactions at suitable concentration in vivo.     

Differential uptake of orthophosphate and organic phosphorus substrates by bacteria and algae in Lake Kinneret

The availability of six organic phosphorus substrates (OPS)to serve as sources of this nutrient for natural populationsof phytoplanktonic algae and bacteria was tested by measuringthe degree to which the organic substrates decreased uptakeof [³²P]orthophosphate (³²Pⁱ). When added to samples of LakeKinneret water, six organo-phosphorus compounds usually loweredthe amount of ³²P_i] taken up by microplankton retained on 0.2-µfilters.In contrast, OPS addition generally stimulated ³²P_i uptake intothe mainly algal fraction (>3 µm), indicating thatthe bacteria were mostly responsible for utilising OPS. Thesparing effect of OPS addition on ³²P₁ uptake was very fast,suggestingthat the micro-organisms possessed constitutive or rapidly inducedenzyme systems to exploit the OPS.The results of this studyindicate that a significant flux of phosphorus may pass viaDOP into microbiota, especially bacteria, in some aquatic systems.     

Specificity and Reversibility of the Bicarbonate Effect on Hexose Uptake by Maize Root Tips

The inhibition of hexose uptake by bicarbonate ions was investigatedin detail in order to test the specificity and reversibilityof the effect and to compare it with those of other electrolytes.The degree of inhibition was similar at pH 7.0 and pH 8.0. AtpH 4.5 no influence of a high concentration of CO₂ on 3-O-methylglucoseuptake was found. Therefore, the inhibition of hexose uptakeby bicarbonate cannot be explained by consequences of CO₂ influx.The inhibition of sugar absorption by calcium and potassiumions was similar to that exerted by bicarbonate in so far asit was observed at higher pH only. The inhibition exerted bysodium salts of different monovalent weak acids was limitedto lower pH and needed some time to become established or reversed.The bicarbonate effect was independent of time and reversiblewithout a lag phase. Sodium salts of strong mineral monovalentacids did not differ significantly in their effect on sugaruptake. Bicarbonate inhibited phosphate uptake in a similarmanner to hexose uptake but strongly stimulated the absorptionof potassium. The bicarbonate effect is assumed to result froma change in the degree of coupling of secondary active transportto the proton pump. Key words: Inhibition, Transport coupling, pH, Proton pump     

Na+-dependent HCO3- uptake into the rat choroid plexus epithelium is partially DIDS sensitive

Several studies suggest the involvement of Na⁺ and HCO₃^– transport in the formation of cerebrospinal fluid. Two Na⁺-dependent HCO₃^– transporters were recently localized to the epithelial cells of the rat choroid plexus (NBCn1 and NCBE), and the mRNA for a third protein was also detected (NBCe2) (Praetorius J, Nejsum LN, and Nielsen S. Am J Physiol Cell Physiol 286: C601–C610, 2004). Our goal was to immunolocalize the NBCe2 to the choroid plexus by immunohistochemistry and immunogold electronmicroscopy and to functionally characterize the bicarbonate transport in the isolated rat choroid plexus by measurements of intracellular pH (pH_i) using a dual-excitation wavelength pH-sensitive dye (BCECF). Both antisera derived from COOH-terminal and NH₂-terminal NBCe2 peptides localized NBCe2 to the brush-border membrane domain of choroid plexus epithelial cells. Steady-state pH_i in choroidal cells increased from 7.03 ± 0.02 to 7.38 ± 0.02 (n = 41) after addition of CO₂/HCO₃^– into the bath solution. This increase was Na⁺ dependent and inhibited by the Cl^– and HCO₃^– transport inhibitor DIDS (200 µM). This suggests the presence of Na⁺-dependent, partially DIDS-sensitive HCO₃^– uptake. The pH_i recovery after acid loading revealed an initial Na⁺ and HCO₃^–-dependent net base flux of 0.828 ± 0.116 mM/s (n = 8). The initial flux in the presence of CO₂/HCO₃^– was unaffected by DIDS. Our data support the existence of both DIDS-sensitive and -insensitive Na⁺- and HCO₃^–-dependent base loader uptake into the rat choroid plexus epithelial cells. This is consistent with the localization of the three base transporters NBCn1, Na⁺-driven Cl^– bicarbonate exchanger, and NBCe2 in this tissue. bicarbonate metabolism; BCECF; cerebrospinal fluid; acid/base transport; ammonium prepulse     

Dinitrocresol, Cyanide, and the Pasteur Effect in Yeast

At pH 5·0 the respiration of yeast is stimulated by lowconcentrations of 3:5-dinitro-o-cresol, reaching a peak levelof 170 per cent, at 10⁵ M. Concentrations above this inhibitoxygen uptake and cause aerobic fermentation to appear, whichin turn reaches a peak value and is then inhibited. The rateof carbohydrate breakdown, or glycolysis, calculated from therates of respiration and aerobic fermentation, increases steadilyup to 3 x 10^–5 M., at which concentration it is 5 timesfaster than the control: higher concentrations depress the rateof glycolysis. The rate of fermentation under nitrogen is abouttwice that of respiration, and it is inhibited over the sameconcentration range as aerobic fermentation. It was found earlier that oxidative assimilation of glucoseby yeast is progressively inhibited by increasing concentrationsof dinitrocresol, and it is now shown that this parallels theincrease in the rate of aerobic glycolysis. It is argued thatdinitrocresol is here acting as an uncoupling agent and thatboth oxidative assimilation and the rate of glycolysis are controlledby the level of energy-rich phosphate. With cyanide there is no stimulation of oxygen uptake, aerobicfermentation only appears when respiration becomes inhibited,and after an initial slight decrease the rate of glycolysisrises to 575 per cent. of the control value at 5 x 10^–4M. It is suggested that the rate of glycolysis only increaseswhen respiration has been inhibited sufficiently to reduce therate of formation of energy-rich phosphate.     

Corticotropin-releasing factor inhibits gastric emptying in dogs: Studies on its mechanism of action

The effects of corticotropin-releasing factor (CRF) on gastric emptying of a saline solution was further investigated in six dogs prepared with gastric fistulas and chronic cerebroventricular guides and in four other dogs with chronic gastric fistulas and pancreatic (Herrera) cannulas. Intravenous infusion of CRF significantly inhibited gastric emptying whereas intracerebroventricular injection of CRF had no effect. Pharmacologic blockade of β-adrenergic system by propranolol did not modify intravenous CRF induced delay in gastric emptying. Intravenous CRF did not influence basal pancreatic secretion whereas secretin infused stimulated bicarbonate secretion. These results indicate that intravenous but not intracerebroventricular administration of CRF inhibited gastric emptying of a saline solution in dogs. The inhibitory effect of intravenous CRF on gastric emptying is not mediated by the β-adrenergic nervous system, and not secondary to the release of other peptides that affect both pancreatic secretion and gastric emptying such as cholecystokinin and peptide YY.     

海水胁迫对苦荬菜幼苗生长及生理特性的影响

抗盐耐海水植物的种植是有效利用和开发滩涂资源的措施之一。采用温室砂培方式, 研究了不同稀释配比的海水处理8天对苦荬菜(Lactuca indica)幼苗生物量、根冠比、叶绿素含量、离子含量、可溶性蛋白和可溶性糖含量的影响。结果表明: 苦荬菜幼苗地上部受海水胁迫较为显著, 而根在海水浓度小于30%时与对照相比没有显著差异; 根冠比随着海水浓度的增加而不断提高; 在10%和20%海水浓度处理下, 叶绿素含量与对照相比差异不显著, 但随着海水浓度的进一步增加,叶绿素含量显著下降; 在10%海水浓度处理下, 苦荬菜地上部分及根部的K⁺含量与对照相比差异不显著, 而海水浓度高于10%时, 随着海水浓度的增加地上部和根部的K⁺含量均逐渐降低; 海水处理下, 苦荬菜体内Na⁺和Cl^–含量逐渐增加; 地上部可溶性糖含量逐渐增加, 而可溶性蛋白含量先升后降。海水胁迫下, 苦荬菜幼苗维持一定的K⁺选择性吸收是其一定程度上盐适应的重要原因。同时, 积累的可溶性糖和可溶性蛋白是苦荬菜幼苗在盐胁迫下的重要渗透调节物质, 可作为其抗盐性的生理参数。     

Regulation of acid secretion and paracellular permeability by F-actin in the bullfrog, Rana catesbeiana

Many studies have implicated F-actin in the regulation of gastric acid secretion using cytochalasin D (CD) to disrupt apical actin filaments in oxyntic cells. However, it is known that CD also affects mucosal permeability by disrupting tight junction structure. Here we investigated the contribution of F-actin to mucosal permeability and acid secretion in the stomach using CD. Stomachs were mounted in Ussing chambers and acid secretion (stimulated or inhibited), transepithelial resistance (TER), mannitol flux, bicarbonate transport, and dual mannitol/sodium fluxes were determined with or without CD. H(+) back diffusion was predicted from its diffusion coefficient. Incubation with CD resulted in a significant reduction in stimulated acid secretion. TER was unchanged in stimulated tissues but significantly reduced in inhibited tissues. Mannitol flux, bicarbonate transport, and H(+)-back diffusion increased significantly with CD. However, the rates of bicarbonate and H(+) flux were not large enough to account for the inhibition of acid secretion. These findings demonstrate that actin filaments regulate paracellular permeability and play an essential role in the regulation of acid secretion in the stomach.