Your search keyword '"Rehm, W."' showing total 11 results

1. Potential difference responses to nutrient K+, Cl- and Na+ changes in secreting and resting states of frog stomach.

Author

Schwartz M, Carrasquer G, Rehm WS, and Dinno MA

Subjects

Animals, Cimetidine pharmacology, Electric Conductivity, Gastric Acid metabolism, Gastric Mucosa drug effects, Membrane Potentials drug effects, Omeprazole pharmacology, Rana pipiens, Thiocyanates pharmacology, Chlorides pharmacology, Gastric Mucosa metabolism, Potassium pharmacology, Sodium pharmacology

Abstract

The effects of changes in nutrient concentrations of K+, Cl- and Na+ on the transmucosal potential difference (PD) and the resistance were compared for secreting fundus and resting fundus of Rana pipiens. Increase of K+ from 4 to 40 mM, decrease of Cl- from 81 to 8.1 mM and decrease of Na+ from 102 to 10 mM gave, 10 min after the change in the secreting fundus, delta PD values of -28.2, -19.8 and -7.5 mV, respectively. In the resting fundus with SCN- inhibition, the same changes in nutrient ion concentration gave delta PD values of -20.1, -17.0 and -10.2 mV, respectively. Changes in Na+ concentration were considered in a set of experiments of high acid secreting stomachs (4 to 6 mu equiv. . h-1 . cm-2). Here, delta PD gave for 10-fold decreases in Na+ concentration in secreting fundus -4.8 mV and in resting fundus with SCN- inhibition -22.6 mV. Omeprazole inhibition gave results quite similar to those with SCN- inhibition. From these results in going from secretion to inhibition, it follows that the increment of K+ conductance if it increased was lower than the increase in NaCl symport conductance since the change in delta PD for K+ decreased and that for Na+ increased. Also HCO3- conductance increased with inhibition. After SCN- inhibition the transmucosal resistance initially increased and later decreased. The decrease can be accounted for by the increase in conductance of the NaCl symport pathway and of the HCO3- pathway.

Published

1988

2. Potential difference responses due to K+, Na+ and Cl- changes in bullfrog antrum with and without HCO3-.

Author

Schwartz M, Carrasquer G, and Rehm WS

Subjects

Animals, Bicarbonates physiology, Electric Conductivity, Membrane Potentials, Rana catesbeiana, Sodium-Potassium-Exchanging ATPase metabolism, Chlorides physiology, Potassium physiology, Pyloric Antrum physiology, Sodium physiology

Abstract

The effect of changing [K+], [Na+] and [Cl-] in nutrient solution was studied in bullfrog antrum with and without HCO3- in nutrient. In 25 mM HCO3- (95% O2/5% CO2) and in zero HCO3- (100% O2), nutrient pH was maintained at 7.3. Changing from 4 to 40 mM K+ or from 81 to 8.1 mM Cl- gave a decrease 10 min later in transmucosal PD (nutrient became more negative)--a normal response. These responses were less in zero than in 25 mM HCO3-. A decrease from 102 to 8 mM Na+ decreased PD (anomalous response of electrogenic NaCl symport). This effect was attenuated or eliminated in zero HCO3-. In contrast, change from 4 to 40 mM K+ gave initial anomalous PD response and change from 102 to 8 mM Na+, initial normal PD response with either zero or 25 mM HCO3-. Both responses were associated with (Na+ + K+)-ATPase pump and were greater in zero than in 25 mM HCO3-. Initial PD increases in zero HCO3- are explained as due to increase in the resistance of passive conductance and/or NaCl symport pathways. Thus, removal of HCO3- modifies conductance pathways of nutrient membrane.

Published

1984

3. Potential difference responses to secretory K+, Na+ and HCO3- changes in secreting and resting states of frog stomach in Cl(-)-free media.

Author

Schwartz M, Carrasquer G, Rehm WS, and Dinno MA

Subjects

Animals, Electric Conductivity, Gastric Fundus, Gastric Mucosa drug effects, Gastric Mucosa metabolism, Histamine pharmacology, Membrane Potentials drug effects, Rana pipiens, Bicarbonates pharmacology, Chlorides physiology, Gastric Mucosa physiology, Potassium pharmacology, Sodium pharmacology

Abstract

The effects of changes in secretory concentrations of K+, Na+ and HCO3- on transmucosal potential difference (PD) and resistance in Cl(-)-free (SO4(2-)) solutions were compared for secreting fundus and resting fundus of Rana pipiens. In the resting fundus experiments, histamine was not present in the nutrient solution and cimetidine was primarily used to obtain acid inhibition. Increase of K+ from 4 to 80 mM, decrease of Na+ from 156 to 15.6 mM and decrease of HCO3- from 25 to 5 mM gave, 10 min after the change, in the secreting fundus delta PD values of 39.7, -11.9 and 3.2 mV, respectively. In the resting fundus, 1.5 to 2 h after the addition of cimetidine, the same changes in secretory ion concentration gave delta PD values of 12.2, -5.6 and 1.5 mV, respectively. Replacement of cimetidine with SCN and without histamine yielded a delta PD somewhat lower than that in cimetidine, namely 9 mV for a K+ change from 4 to 80 mM. Subsequent addition of histamine with SCN present gave a delta PD of about 21 mV. The change in PD was attributed to histamine increasing the secretory membrane area, leading to an increase in K+ conductance. Another possibility is that histamine increases the K+ conductance per se.

Published

1987

4. Evidence for electrogenic Na-Cl symport in the in vitro frog stomach.

Author

Carrasquer G, Chu TC, Rehm WS, and Schwartz M

Subjects

Animals, Choline pharmacology, Electrophysiology, Evoked Potentials drug effects, Magnesium pharmacology, Mathematics, Membrane Potentials drug effects, Chlorides physiology, Sodium physiology, Stomach physiology

Abstract

The transmucosal potential difference (PD) response to step changes in Na+ (choline or Mg2+ for Na+) in the nutrient fluid was studied. Decreasing the Na+ concentration in the nutrient fluid decreased the positivity of the nutrient side, and increasing the Na+ concentration increased the positivity. This effect is anomalous because it is opposite to that of a simple Na+ conductive pathway but right for a choline or Mg2+ conductive pathway. The lack of linearity of delta PD versus the log of the choline concentration ruled out a choline conductive pathway. An approximate linear relation was obtained for Na+. The anomalous PD response for Na+ was reduced but not abolished in 1) K+-free bathing fluids and 2) 10(-3) M ouabain in nutrient fluid. Changing the Cl- concentration in nutrient fluid gave normal PD responses, which were reduced in the absence of Na+. These results are attributed to a passive electrogenic Na-Cl symport. Theoretical considerations, for p Na+ and q Cl- transported per cycle (with q greater than p), predict an anomalous delta PD for Na+ concentration changes and a normal delta PD for Cl- concentration changes.

Published

1982

5. Electrogenic Na-K antiport and electrogenic Na-C1 symport in basolateral membrane of frog stomach.

Author

Schwartz M, Carrasquer G, and Rehm WS

Subjects

Animals, Biological Transport, Active, Electric Conductivity, Membrane Potentials, Ranidae, Sodium-Potassium-Exchanging ATPase metabolism, Chlorides metabolism, Gastric Mucosa metabolism, Potassium metabolism, Sodium metabolism

Published

1981

6. Anomalous potential difference responses to changes in sodium concentration in the antrum of frog stomach.

Author

Carrasquer G, Kissel D, Rehm WS, and Schwartz M

Subjects

Animals, Chlorides pharmacology, Electric Conductivity, Furosemide pharmacology, Mathematics, Membrane Potentials drug effects, Models, Biological, Ouabain pharmacology, Pyloric Antrum drug effects, Rana catesbeiana, Sodium pharmacology, Sodium-Potassium-Exchanging ATPase metabolism, Pyloric Antrum physiology, Sodium metabolism

Abstract

Previously, an electrogenic Na-Cl symport was found in the fundus, and the question arises of whether there is one in the antrum, a tissue that does not secrete acid. In an in vitro preparation of the antrum of Rana catesbeiana, we found that when the [Na+] in nutrient solution was decreased (choline for Na+) the transmucosal potential difference (PD) decreased (the positivity of nutrient side decreased), and when the [Na+] was increased the PD increased. These PD changes were anomalous for Na+ but not for choline. A linear relationship for PD versus log [Na+] and not versus log [choline] excluded a choline conductive pathway. The anomalous PD response was decreased but not abolished by 10(-3) M ouabain. Normal PD responses resulted from [Na+] changes in Cl--free (SO2-4) solutions. PD responses to changes in nutrient [Cl-] were normal but decreased in the absence of Na+. Data are compatible with a passive electrogenic Na-Cl symport with more chloride than sodium ions transported per cycle, as in the fundus. Symport conductance-to-total Cl- conductance ratio is higher in antrum than in the fundus. Data from the luminal side were compatible with apical membrane conductances for Na+ and Cl-.

Published

1983

7. Potential difference responses to nutrient K+, Na+ and Cl- changes with varying nutrient HCO3- in resting frog stomach.

Author

Schwartz M, Wu J, Carrasquer G, and Rehm WS

Subjects

Animals, Barium pharmacology, Electric Conductivity, Membrane Potentials drug effects, Rana pipiens, Bicarbonates pharmacology, Chlorides pharmacology, Gastric Mucosa physiology, Potassium pharmacology, Sodium pharmacology

Abstract

The effects of changes in nutrient concentrations of K+, Na+ and Cl- on the transmucosal potential difference (PD) and resistance were compared for 25 and 5 mM nutrient HCO3- in resting fundus. With 25 mM HCO3-, increase of K+ from 4 to 40 mM, decrease of Na+ from 100 to 10 mM and decrease of Cl- from 81 to 8.1 mM gave, 10 min after the change, delta PD values of -23.2, -15.1 and -21.3 mV, respectively. With 5 mM HCO3-, the same changes in nutrient ion concentration gave delta PD values of -11.9, -9.4 and -10.0 mV, respectively. From these results, in going from 25 to 5 mM HCO3-, it follows that the resistances of the ionic pathways for K+, Na+ and Cl- increased. The anomalous PD response following the increase in nutrient K+ from 4 to 40 mM with 5 mM nutrient HCO3- gave further evidence that the resistance of the simple K+ conductance pathway increased prior to the increase to 40 mM K+. The fact that 2 mM Ba2+ in the 25 mM HCO3- nutrient gave a smaller increase in resistance, compared to the decrease in nutrient HCO3- from 25 to 5 mM, supported the inference that resistances of ion pathways other than that of the K+ pathway increased.

Published

1989

8. Microelectrode studies of amphotericin B on Na+ and K+ conductance in bullfrog cornea.

Author

Carrasquer G, Wu XY, Kissel D, Rehm WS, Schwartz M, and Dinno MA

Subjects

Animals, Cell Membrane Permeability drug effects, Electric Conductivity, In Vitro Techniques, Microelectrodes, Rana catesbeiana, Amphotericin B pharmacology, Cornea physiology, Potassium physiology, Potassium Channels drug effects, Sodium physiology, Sodium Channels drug effects

Abstract

Addition of 10(-5) M amphotericin B to the tear solution of an in vitro preparation of the frog cornea increased the transepithelial conductance, gt, and decreased the apical membrane fractional resistance, f(R0), in the presence or absence of tear Na+ and Cl-. In the presence of tear Na+ and Cl-, amphotericin B increased the short-circuit current, Isc, from 3.9 to 8.8 microA.cm-2 and changed the intracellular potential, V0, from -48.5 to -17.9 mV probably due to a higher increase in the Na+ than in the K+ conductance. In the absence of tear Na+ and Cl-, amphotericin B decreased Isc from 5.5 to about 0 microA.cm-2 due to K+ (and possibly Na+) flux from cell to tear and changed V0 from -35.4 to -63.6 mV due to the increase in conductance of both ions. Increase in the tear K+ from 4 to 79 mM (in exchange for choline), in the presence of amphotericin B and absence of tear Na+ and Cl-, decreased f(R0) from 0.09 to 0.06, increased gt from 0.23 to 0.31 mS, increased Isc from 0.63 to 7.3 microA.cm-2, and changed V0 from -65.5 to -17.3 mV due to the change in EK in the presence of a high conductance in the tear membrane. Similar effects were observed with an increase of tear Na+. Results support the concept that the Na+ conductance opened by amphotericin B in the apical membrane is greater than the K+ conductance. Previously observed transepithelial effects of the ionophore may be explained mostly on the basis of its effect on the apical membrane.

Published

1989

9. Effect of removal of external K+ on frog's stomach in Cl-minus-free solutions.

Author

Rehm WS, Sanders SS, Rutledge JR, Davis TL, Kurfees JF, Keesee DC, and Bajandas FJ

Subjects

Animals, Anura, Chlorides, Electrochemistry, Electrophysiology, In Vitro Techniques, Oxygen, Solutions, Sulfates, Biological Transport, Gastric Mucosa physiology, Hydrogen-Ion Concentration, Potassium, Sodium

Published

1966

10. Movement of water, sodium, chloride and hydrogen ions across the resting stomach.

Author

BORNSTEIN AM, DENNIS WH, and REHM WS

Subjects

Chlorides, Electrolytes metabolism, Gastric Mucosa metabolism, Ions, Protons, Sodium, Water

Published

1959

11. Electrolyte content of the corneal stroma of the bullfrog.

Author

Shanbour LL, Davis TL, and Rehm WS

Subjects

Animals, Anura, Aqueous Humor analysis, Chlorides analysis, Cornea, Potassium analysis, Sodium analysis

Published

1970