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Digitale Medien

Stimulation of gallbladder fluid and electrolyte absorption by butyrate (1981)

Petersen, Karl-Uwe ; Wood, John R. ; Schulze, Gerhard ; [weitere]

Springer

The journal of membrane biology 62 (1981), S. 183-193

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ISSN: 1432-1424

Schlagwort(e): gallbladder ; NaCl absorption ; HCO3 ; short-chain fatty acids ; Na/H-exchange ; HCO3/Cl-Exchange ; active transport

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie , Chemie und Pharmazie

Notizen: Summary Gallbladder fluid and electrolyte transport was investigatedin vitro. In guinea pig gallbladder, equimolar substitution of acetate, propionate, butyrate or valerate for HCO3 was increasingly effective in stimulating fluid absorption. The stimulatory potency of these compounds was a function of their chloroform water partition coefficients. The stimulatory effects of the isomers isobutyrate and isovalerate were less than predicted from their partition coefficients. Acidification of the gallbladder lumen, however, was strictly dependent on the partition coefficients for all of the above fatty acids. Unidirectional22Na fluxes were measured in rabbit and guinea pig gallbladders under short-circuit conditions. In the presence of butyrate stimulation of net Na flux was due entirely to an increase in the mucosal-to-serosal Na flux. Stimulation by butyrate was abolished by its omission from the mucosal bathing solution. The transepithelial electrical potential difference in both rabbit and guinea pig gallbladder became more lumen positive following mucosal but not serosal addition of butyrate. Net14C-butyrate fluxes were too small to account for stimulation of Na absorption in either species. Butyrate stimulation of Na absorption by guinea pig gallbladder was abolished by increasing the bathing pH from 7.4 to 8.1. Tris buffer (25mm) partially inhibited butyrate-dependent gallbladder fluid absorption by rabbit and guinea pig at pH 6.4 and 7.0, respectively, and completely at pH 8.4. These results reveal a marked similarity between butyrate and HCO3 stimulation of gallbladder NaCl and fluid absorption. The results are best explained by a double ion-exchange model, in which butyrate (HCO3) in the mucosal solution acts to maintain the intracellular supply of H+ and butyrate (HCO3) for countertransport of Na and Cl, respectively.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF01998164

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Digitale Medien

Effects of bicarbonate on fluid and electrolyte transport by guinea pig and rabbit gallbladder: Stimulation of absorption (1981)

Heintze, Konrad ; Petersen, Karl-Uwe ; Wood, John R.

Springer

The journal of membrane biology 62 (1981), S. 175-181

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ISSN: 1432-1424

Schlagwort(e): gallbladder ; NaCl absorption ; HCO3 ; Na/H-exchange ; active transport

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie , Chemie und Pharmazie

Notizen: Summary The effect of bicarbonate (HCO3) on fluid absorption by guinea pig gallbladder was investigatedin vitro. Stimulation of fluid absorption was concentration dependent resulting in a fourfold increase in transport over the range 1 to 50mm. Phosphate, Tris, glycodiazine and glutamine buffers failed to substitutte for HCO3 in stimulating absorption. Unidirectional22Na fluxes were measured across short-circuited sheets of guinea pig and rabbit gallbladders mounted in Ussing-type chambers. In both species the net Na flux was unaffected by serosal HCO3 alone but was stimulated by addition of HCO3 to the mucosal bathing solution. Transepithelial electrical potential difference in rabbit gallbladder was about 1.4 mV (lumen positive) when HCO3 was present in the mucosal or in both compartments. This fell to 0.2 mV under HCO3-free conditions or when HCO3 was present only in the serosal solution. The respective values for guinea pig gallbladder were −1.6 and −0.6 mV (lumen negative). HCO3 stimulation of Na absorption by guinea pig gallbladder was abolished by increasing the bathing pH from 7.4 to 7.8, an effect resulting mainly from a reduction inJ mis Na . Tris buffer (25mm) inhibited HCO3-dependent fluid absorption in this species completely at pH 8.5 and partially at 7.5. These results indicate that HCO3 stimulates gallbladder transport in both species by an action from the mucosal side. This effect cannot be attributed to simple buffering of H+ but may be explained by the participation of HCO3 in the maintenance of intracellular H+ for a Na/H-exchange.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF01998163

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Digitale Medien

Selective blockage of cell membrane K conductance by an antisecretory agent in guinea-pig gallbladder epithelium (1989)

Wehner, Frank ; Winterhager, Joachim M. ; Petersen, Karl-Uwe

Springer

Pflügers Archiv 414 (1989), S. 331-339

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ISSN: 1432-2013

Schlagwort(e): HCO3 secretion ; Membrane potentials ; Cell membrane ion permeabilities ; Ouabain ; Prostaglandin E1 ; Loperamide

Quelle: Springer Online Journal Archives 1860-2000

Thema: Medizin

Notizen: Abstract Loperamide inhibits PGE1-induced electrogenic HCO3 secretion in guinea-pig gallbladder. Underlying changes in epithelial cell membrane properties were investgated using intracellular microelectrode techniques in vitro. In the absence of PGE1, mucosal loperamide (10−4 mol/l) reversibly depolarized both cell membranes by ∼ 6 mV. The apparent ratio of membrane resistances (R a/R b) remained unchanged and so did voltage responses to luminal Cl removal and Na reduction. The depolarizing response to elevation of luminal K concentration from 5 to 76 mmol/l was decreased from 13 to 8 mV. In the presence of 1 PGE1, the apical membrane is mainly permeable to Cl and HCO3. Under these conditions, loperamide reduced membrane potentials by ∼ 10 mV,R a/R b remaining constant at ∼ 0.4. Effects on voltage responses to changes in luminal Na or K concentration were unchanged. Responses to luminal Cl removal (transient depolarization) were greatly enhanced (from 22 to 42 mV) as predictable from the fall in K permeability that hinders Cl efflux from cell into lumen. Less marked but significant effects were obtained with 10−5 mol/l (mucosal side) and serosal loperamide (10−4 mol/l). We suggest that loperamide inhibits electrogenic HCO3 secretion by reducing apical membrane K permeability. The resulting depolarization diminishes the driving force for conductive anion efflux from cell into lumen. This conclusion is supported by the ability of luminal K elevation to mimick loperamide inhibition of the secretory flux of HCO3 (pH-stat experiments).

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00584635

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