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Transport of inorganic and organic substances in the renal proximal tubule (1982)

Ullrich, K. J. ; Rumrich, G. ; Klöss, S.

Springer

Journal of molecular medicine 60 (1982), S. 1165-1172

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ISSN: 1432-1440

Keywords: Epithelial transport ; Kidney ; Lactate transport ; Electrolyte transport ; Epithelialer Transport ; Niere ; Laktattransport ; Elektrolyttransport

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung Resorption bzw. Sekretion im proximalen Nierentubulus läuft einmal passiv auf dem parazellulären Weg, d.i. zwischen den Zellen hindurch, ab, zum anderen aktiv, transzellulär, durch die Zellen hindurch. Der transzelluläre aktive Transport ist in der Regel sekundär aktiv. Er verläuft gekoppelt an den Fluß von Na+-Ionen, wobei ein transzellulärer Gradient von Na+-Ionen, der seinerseits durch die kontraluminal gelegene (Na+-K+)-ATPase geschaffen wird, die Triebkraft liefert. Einmal in der Zelle, verlassen die Substanzen die kontraluminale Zellseite vermittels Karrier, die Na+-unabhängig sind. Mit Hilfe von Mikroperfusions- und elektrophysiologischen Techniken sowie mit Hilfe von Bürstensaumvesikeln wurde der Na+-Kotransport von Aminosäuren, Phosphat, Sulfat, Thiosulfat, Gallensäuren, aliphatischen und aromatischen Monokarboxylsäuren (Laktat) sowie der von Dikarboxylsäuren untersucht. Besonderes Augenmerk wurde dem bidirektionalen Transport von Thiosulfat sowie der Spezifität des Mono- und Dikarboxylsäure-Transportsystems gewidmet.

Notes: Summary The transport through the epithelial cell layer of the renal proximal tubule proceeds in principle by passive paracellular and active transcellular transport. The active transcellular transport is mostly secondary active. This means it proceeds coupled with the flux of Na+ ions, where-by the transcellular gradient of sodium, created by the (Na++K+)-ATPase, located at the contraluminal cell side, provides the main driving force. Once in the cell the substances leave the other cell side by a Na+-independent, but carrier-mediated transport system. Using microperfusion and electrophysiological techniques as well as brush border membrane vesicle preparation the Na+-H+ countertransport and the Na+-cotransport of amino acids, phosphate, sulfate, thiosulfate, bile acids, aliphatic-aromatic monocarboxylic acids (lactate) and dicarboxylic acids was studied. Special emphasis will be given to the bidirectional transport of thiosulfate as well as to the specificity of the monocarboxylic acid and dicarboxylic acid transport system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01716718

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Prinzipien des epithelialen Transportes in Niere und Darm (1979)

Ullrich, K. J. ; Frömter, E. ; Murer, H.

Springer

Journal of molecular medicine 57 (1979), S. 977-991

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ISSN: 1432-1440

Keywords: Epithelial transport ; Kidney ; Small intestine ; Electrolyte ; Epithelialer Transport ; Niere-Darm-Elektrolyt ; Elektrochemisches Gradient

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung Das Epithel von Niere und Darm besteht aus einer einzigen Lage von Zellen, die an ihrer luminalen Seite durch Schlußleisten zusammengekittet sind. Der Stofftransport geht entweder transzellulär durch die Zellen hindurch und ist dann in der Regel aktiv, oder er geht parazellulär an den Zellen vorbei durch die Schlußleisten und interzellulären Spalten und ist dann passiv. Die Triebkraft für den aktiven Transport kommt entweder direkt aus dem Stoffwechsel und wirkt mittels ATPasen auf die zu transportierenden Stoffe. Wir haben dann einen primär aktiven Transport vor uns. Oder sie kommt aus Gradienten von Substanzen, in erster Linie Natriumionen, die ihrerseits primär aktiv transportiert wurden. Man spricht dann von sekundär aktivem Transport. Die Triebkräfte für den passiven Transport sind Konzentrations- bzw. elektrochemische Potentialdifferenzen sowie der durch Reibung bedingte Mitreißeffekt des resorbierten Wassers. Sowohl in Niere als auch im Darm haben die proximalen Abschnitte, wo eine große Flüssigkeitsmenge isoton resorbiert wird, undichte Schlußleisten, so daß eine beträchtliche Substanzmenge passiv resorbiert werden kann. In den distalen Abschnitten hingegen, wo der Transport geregelt wird, sind die Schlußleisten dicht, so daß entsprechende Konzentrationsunterschiede erzeugt und aufrecht erhalten werden können. Aktiver Transport durch die Epithelzellen hindurch ist indessen nur möglich, wenn der Stofftransport polar ist, d.h. an der luminalen Zellseite anders als an der kontraluminalen Zellseite. Durch elektrophysiologische Messungen an den einzelnen Zellseiten als auch durch Transportmessungen an geschlossenen Vesikeln, die von den beiden Zellseiten gewonnen wurden, konnten die treibenden Kräfte für die einzelnen Substanzen weitgehend festgelegt werden. An Schemata, in die die Transportmechanismen der einzelnen Zellseiten eingezeichnet sind, wird eine weitgehende Identität der Transportmechanismen im proximalen Tubulus und Dünndarm deutlich.

Notes: Summary Epithelia of kidney and small intestine consist of one layer of cells which, at their luminal edge, are linked together by terminal bars. Solute transport proceeds either across the cells, which is true of all active transports, or it proceeds paracellularly through the basolateral spaces and terminal bars and is then passive. The driving force for the active transport of a substance is derived either directly from metabolism (primary active transport), or from the gradient of another solute, usually Na+, which in turn is created by primary active transport. In the latter case the transport is referred to as secondary active. The driving forces of passive transport are the electrochemical gradient of the respective substance and solvent drag. The proximal parts of the kidney as well as of the intestine are leaky so that a considerable part of net reabsorption proceeds passively. Their distal parts, however, where the transport is regulated, are tight so that large concentration differences can be created and maintained. Transcellular active transport is only possible if the cells are polar, i.e., the transport characteristics of the luminal cell membrane differ from those of the contraluminal cell membrane. By measuring the cellular electrical potential difference or by measuring transport into isolated plasma membrane vesicles from either cell side the driving forces for the two transport steps, the luminal and contraluminal, have been elucidated. Schemes for the transport steps in the proximal tubule and in the small intestine are given. They show the principal similarity of the transport of many substances in both epithelia.

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URL: http://dx.doi.org/10.1007/BF01479983

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Contraluminal sulfate transport in the proximal tubule of the rat kidney (1985)

Ullrich, K. J. ; Rumrich, G. ; Klöss, S.

Springer

Pflügers Archiv 404 (1985), S. 293-299

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ISSN: 1432-2013

Keywords: Epithelial transport ; Contraluminal cell membrane

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In order to study the specificity for the contraluminal sulfate transport system the inhibitory potency of sulfate esters and sulfonate compounds on the35SO 4 2− influx from the interstitium into cortical tubular cells in situ has been determined. The following was found: 1. From 10 sulfate monoesters tested 9 inhibited contraluminal sulfate influx with an app.K i between 0.6 and 6 mmol/l; the two sulfate diesters tested, however, did not. 2. Out of 8 aliphatic sulfonate compounds only three, having a NH- or OH-group in a suitable position, exerted a moderate inhibition (app.K i ca. 2–6 mmol/l). 3. Amongst 14 benzene sulfonates tested only 2 compounds (5-nitrobenzene-sulfonate and 2-hydroxy-5-nitrobenzenesulfonate) inhibited with aK i〈5 mmol/l. 4. Out of 10 naphthalene sulfonates tested 8 inhibited with aK i〈5; the highest inhibition was seen with the NH-containing 8-anilinonaphthalene-1-sulfonate (ANS), but no inhibition with 2 compounds containing an amino group. 5. From the polycyclic sulfonates pyrene-3-sulfonate and anthracene-1-sulfonate inhibited with aK i of approximately 2 mmol/l, while no inhibition was seen with anthracene-2-sulfonate. 6. Out of 4 amino-sulfonates tested benzene-1-amino-sulfonate and a similar benzyl-analog inhibited with aK i of 1 mmol/l and smaller; cyclohexyl-1-amino-sulfonate (cyclamate), however, inhibited only slightly (app.K i of 6 mmol/l). The data indicate that sulfate monoesters are well accepted by the contraluminal sulfate transport system. The affinity of sulfonate compounds to this system depends on neighbouring OH-groups −NH-groups, meta-positioned electronegative groups or a hydrophobic moiety in an appropriate position.

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URL: http://dx.doi.org/10.1007/BF00585338

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Contraluminal sulfate transport in the proximal tubule of the rat kidney (1985)

Ullrich, K. J. ; Rumrich, G. ; Klöss, S.

Springer

Pflügers Archiv 404 (1985), S. 300-306

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ISSN: 1432-2013

Keywords: Epithelial transport ; Contraluminal cell membrane

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In order to study the specificity for the contraluminal sulfate transport system the inhibitory potency of disulfonates, di-, tricarboxylates and sulfocarboxylates on the35SO 4 2− influx from the interstitium into cortical tubular cells in situ has been determined. The following was found: 1) Methane- and ethane-disulfonate as well as benzene-1,3-disulfonate inhibit contraluminal35SO 4 2− influx (with an (app.K i of 〈6 mmol/l), while benzene-1,2- and 1,4-disulfonate do not. 2) The inhibitory potency of 1,3-benzene disulfonate is slightly augmented by an additional NH2 − or OH-group in position 4. However, OH-groups at position 4 and 5 or 4 and 6 abolish the inhibitory potency. 3) The naphthalene disulfonates tested inhibit only if they have an OH-group in ortho-position to one SO3H group. 4) The stilbene disulfonates H2DIDS and DNDS inhibit the contraluminal35SO 4 2− influx with high (app.K i≈0.8 mmol/l), DADS with lower potency (app.K i≈6 mmol/l). 5) Amongst the tested aliphatic di- and tricarboxylates inhibition was exerted by oxalate (app.K i 1.1 mmol/l) and maleate (app.K i 3.8 mmol/l), but not by malonate, hydroxymalonate and citrate. 6) Out of the tested benzenedicarboxylates only those inhibit which have the COO−-groups directly on the ring in 1,2 and 1,3 position (app.K i 4.0 and 2.7 mmol/l), but not in the 1,4 position. An additional OH-group in position 4 augments the inhibitory potency of 1,3 benzene-dicarboxylates (app.K i 0.8 mmol/l), while an OH group on position 5 abolishes it. 7) The benzene tricarboxylates (BTC) inhibit in the sequence 1,2,3-BTC〉1,3,5-BTC〉1,2,4-BTC (app.K i 0.9, 1.5 and 4.2 mmol/l, respectively). 8) The carboxy-benzene-sulfonates inhibit also in the 1,2 and 1,3 position only (app.K i 6.7 and 5 mmol/l), but not in the 1,4 position. Addition of an −OH-group to the 3-carboxy-1-benzene-sulfonate forming 4-hydroxy-3-carboxy-1-benzene-sulfate augments the inhibitory potency drastically (app.K i 0.32 mmol/l), while a NH2 substitution at the same position leaves it unchanged (app.K i 4.7 mmol/l). If, however, ethylamine instead of NH2 is used as substituent, the inhibitory potency is almost as high as of 4-hydroxy-3-carboxy-1-benzene-sulfonate (app.K i≈0.6 mmol/l). Amongst the dicarboxy-benzene-sulfonates, 3,4-carboxy-benzene-1-sulfonate inhibits (app.K i ca. 2 mmol/l), while 3,5-carboxy-benzene-1-sulfonate does not. The data indicate that a strong interaction of substrate with the sulfate transporter is given, when two charged groups (COO− and/or SO 3 − ) are present in a distance equivalent to the meta-position on the benzene ring and an additional hydrogen bond forming OH- or −NH-group. Hydrogen bond forming groups and charged groups in other positions usually abolish the inhibitory potency.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00585339

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Contraluminal transport of small aliphatic carboxylates in the proximal tubule of the rat kidney in situ (1986)

Ullrich, K. J. ; Papavassiliou, F.

Springer

Pflügers Archiv 407 (1986), S. 488-492

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ISSN: 1432-2013

Keywords: Lactate ; Pyruvate ; 3-hydroxybutyrate ; Acetoacetate ; Nonspecific anion channel

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In order to study the characteristic of contraluminal transport of hydrophylic small fatty acids the in situ stopped flow microperfusion technique [12] has been applied. By measuring with 4 s contact time the decrease in the contraluminal concentration of the respective radiolabelled substances the concentration dependence of the influx into the cortical cells was tested. The 4 s decrease in contraluminal concentration of chloroacetate,l-lactate,d-lactate, 3-hydroxybutyrate and acetoacetate was between 26% and 31%. For each substance the percent decrease was the same, no matter whether it was offered in a concentration of 0.1 or 10 mmol/l. Contraluminal disappearance of 0.1 mmol/ll-lactate was not influenced by 5 mmol/l H2DIDS, probenecid, phloretin, mersalyl or cyanocinnamate, but it was significantly (37%) inhibited by 5-nitro-2-(phenyl-propyl-amino) benzoate, a blocker of the nonspecific anion channel. The percent decrease in propionate uptake was somewhat larger — between 36% and 39% — but again not different at 0.01, 0.1, 1.0 and 10 mmol/l. With pyruvate the contraluminal decrease was 20% at 0.1 mmol/l and 31% at 10 mmol/l. The percent disappearance of the aromatic pyrazinoate was 38% and 34% at 0.1 and 10 mmol/l and for nicotinate 42% and 22%, respectively. The disappearance of nicotinate (0.1 mmol/l) was significantly inhibited by 10 mmol/l pyrazinoate and paraaminohippurate (PAH). The data are in agreement with the hypothesis that the hydrophilic small fatty acids traverse the contraluminal cell side by simple diffusion, possibly via the unspecific anion channel [14], pyruvate via the dicarboxylic acid pathway in a cooperative manner and pyrazinoate, as well as nicotinate, via the PAH pathway.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00657505

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Contraluminal sulfate transport in the proximal tubule of the rat kidney (1985)

Ullrich, K. J. ; Rumrich, G. ; Klöss, S.

Springer

Pflügers Archiv 404 (1985), S. 307-310

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ISSN: 1432-2013

Keywords: Epithelial transport ; Contraluminal cell membrane

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In order to study the specificity of the contraluminal sulfate transport system the inhibitory potency of salicylate analogs (5 mmol/l each) on the35SO 4 2− influx from the interstitium into cortical tubular cells in situ has been determined. The following was found: 2-hydroxybenzoate (salicylate), per se, did not inhibit contraluminal35SO 4 2− influx. The same holds when an additional NH2-group was introduced in position 4 or 5, or when an additional Cl-group was introduced in position 4. When an additional Cl- or NO2-group was introduced in position 5 a moderate inhibition was seen (app.K i≈4 mmol/l). However, introduction of 2 Cl- or 2 NO2-groups in position 3 and 5 creates compounds with strong inhibitory potency (app.K i≈0.5 mmol/l). 2-hydroxy-3,5-iodobenzoate inhibited too, but with a smaller inhibitory potency (app.K i≈2.3 mmol/l). 2-hydroxybenzoate analogs, which have a carboxy- or sulfo-group in position 5, exerted strong inhibition, those with a acetyl- or butyryl-group exerted moderate inhibition. 1-Naphthol-2-carboxylate did not inhibit, while 1-naphthol-4-sulfamoyl-2-carboxylate did. Amongst the dihydroxybenzoates, 2,3- and 2,5-dihydroxybenzoate did not inhibit contraluminal35SO 4 2− influx, while 2,4- and 2,6-dihydroxybenzoate did. The data indicate that a hydroxy-group in ortho-position and an electro-negative group in the meta-position to the carboxyl group and paraposition to the hydroxy-group are essential for interaction with the contraluminal sulfate transport system. The ability of 2,6-dihydroxybenzoate to inhibit might be explained by its ability to undergo mesomeric conformation.

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URL: http://dx.doi.org/10.1007/BF00585340

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Contraluminal sulfate transport in the proximal tubule of the rat kidney (1985)

Ullrich, K. J. ; Rumrich, G. ; Klöss, S. ; [et al.]

Springer

Pflügers Archiv 404 (1985), S. 311-318

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ISSN: 1432-2013

Keywords: Epithelial transport ; Contraluminal cell membrane

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In order to evaluate the specificity for the contraluminal sulfate transport system the inhibitory potency of phenol- and sulfonphthaleins, of sulfamoyl-compounds (diuretics) as well as diphenylamine-2-carboxylates (Cl− channel blockers) on the35SO 4 2− influx from the interstitium into cortical tubular cells in situ has been determined. The following was found: 1) Phenolsulfonphthalein (phenol-red) inhibited with an app.K i-value of 1.7 mmol/l, while analogs which had additional Br-atoms in position 3 and/or 5, i.e. bromphenol-blue, bromcresol-purple and bromcresol-green, inhibited with an apparentK i of 0.1 and 0.5 mmol/l respectively. 2) Phenolphthalein and tetrabromphenolphthalein did not inhibit, while the disulfonate dyes bromsulfalein, fuchsin acid and indigocarmine inhibited with aK i between ≈1 and 3 mmol/l. The highest inhibitory potency in this class of compounds was seen with orange G (app.K i 0.07 mmol/l). The monosulfonate dyes tested, fluoresceinsulfonate and orange I inhibited moderately with an app.K i of ≈5 mmol/l. 3) The 3-sulfamoyl compounds inhibited to a varying degree, when they had a neighbouring −NH-group (furylmethylamino-group), i.e. in position 6 to the COOH or SO3H-group, or when they had a phenoxy-group in position 4. 4) 4-sulfamoylbenzoate and the related compounds probenecid, acetazolamide and hydrochlorothiazide inhibited with an app.K i between 4 and 7 mmol/l. 5) All diphenylamine-2-carboxylate analogs inhibited with an app.K i between 3 and 5 mmol/l, even when the −NH-group was replaced by an =O-group or the benzene ring was replaced by a pyrimidine ring, but not when it was replaced by a thiophen ring. In contrast, 4-phenylaminepyridine-3-sulfonate was ineffective, while diphenylamine-2-amino sulfonate exerted the highest inhibition of this group with an app.K i of 1.4 mmol/l. When, however, the aminosulfonate group was replaced by a methylsulfonamide, the inhibitory potency disappeared. The data can be explained by inhibitory patterns found in previous papers for disulfonates [29], sulfonates with a hydrophobic moiety [28] or neighbouring OH-group [28, 29], carboxylates with a neighbouring −NH- or OH-group in position 2- and an electron-attracting group in position 5 [30].

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URL: http://dx.doi.org/10.1007/BF00585341

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Contraluminal para-aminohippurate (PAH) transport in the proximal tubule of the rat kidney (1987)

Ullrich, K. J. ; Rumrich, G. ; Fritzsch, G. ; [et al.]

Springer

Pflügers Archiv 409 (1987), S. 229-235

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ISSN: 1432-2013

Keywords: 2-Oxoglutarate ; Lactate ; Pyruvate ; Nitrate

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In order to study the characteristics of contraluminal para-aminohippurate transport into proximal tubular cells the stopped flow capillary perfusion method was applied. The disappearance of3H-paraaminohippurate from the capillary perfusate at different concentrations and contact times was measured and saturation type behaviour was found with aK m of 0.08±0.01 (SE) mmol/l,J max of 1.1±0.1 pmol·s−1·cm−1 andr, the final extracellular/intracellular distribution ratio of 0.93±0.03. Omission of Na+ from the capillary test perfusate caused a small reduction of contraluminal PAH uptake at small transport rates (0.1 mmol/l PAH in the test perfusate) but not at high transport rates (1.0 mmol/l PAH in the test perfusate). Change of K+ between 0 and 40 mmol/l and pH between 6.0 and 8.0 did not influence contraluminal PAH uptake. Isotonic replacement of chloride by gluconate, nitrate, sulfate, phosphate, methanesulfonate or increase in bicarbonate to 50 mmol/l did not influence PAH uptake at small transport rates. But isotonic sulfate and phosphate, as well as 50 mmol/l HCO 3 − and 25 mmol/l Hepes in isotonic solutions reduced PAH uptake at high transport rates. Addition of 5 mmol/l Ca2+, Mg2+, Mn2+, Ba2+, Cd2+ to isotonic Na+-gluconate solution did not influence PAH uptake except for Mg2+ and Mn2+ which inhibited uptake at small transport rates only. Preperfusion of the peritubular capillaries with rat serum, Na+ gluconate (Ca2+-+Mg2+-free), Na+ gluconate (Ca2+-+Mg2+-free) plus 10 mmol/l lactate or pyruvate or 0.1 mmol/l 2-oxoglutarate did not influence PAH uptake at small PAH transport rates, but inhibited at high transport rates. Preperfusion of the capillaries for 10 s with Na+-, Ca2+- and Mg2+-free solutions reduced PAH uptake in the presence of Na+ at both transport rates. A second 10 s preperfusion — after the first 10 s Na+-, Ca2+-, Mg2+-free preperfusion — with serum or solutions which contained Na+ and Ca2+ or Mg2+ restored the PAH fluxes to control values. The data are compatible with the hypothesis that contraluminal PAH uptake occurs by a saturable transport mechanism in exchange for other intracellular anions rather than in cotransport with Na+ ions. It was, however, not possible to identify the type of counteranions involved. The large effect of cation replacement on para-aminohippurate transport, which was reported in many previous studies with kidney slices, is not a direct effect on the para-aminohippurate transporter, but is rather caused indirectly via cell metabolism and/or changed ion gradients.

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URL: http://dx.doi.org/10.1007/BF00583470

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Reabsorption of monocarboxylic acids in the proximal tubule of the rat kidney (1982)

Ullrich, K. J. ; Rumrich, G. ; Klöss, S.

Springer

Pflügers Archiv 395 (1982), S. 212-219

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ISSN: 1432-2013

Keywords: SITS ; Probenecid ; Phloretin ; Acetazolamide ; Lactate ; Renal tubule

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The transport ofd-lactate across the epithelium of the late proximal convolution was investigated by two methods: 1. by measuring the zero net flux transtubular concentration difference (Δc tt,45s) and the permeability (P) ofd-lactate and calculating from both the transtubular active transport rate (J lac act ). 2. By measuring the 3.5 s efflux ofd-lactate from the tubular lumen, while blood was flowing through the capillaries. The 3.5 s efflux comprises two components, one going through the brush border (J lac bb ) and one going the paracellular pathway (J lac paracell =P lac·c lac lumen). Both,J lac act andJ lac bb ofd-lactate gave the sameK m 1.9 and 1.7 mmol/l and the same maximal transport rate 3.2 and 2.9 pmol cm−1 s−1. TheK i ofl-lactate tested againstJ lac act andJ lac bb ofd-lactate was also the same: 1.1 and 1.0 mmol/l. These data indicate that under our experimental conditions only the flux through the brush border seems to be rate limiting and thatd-lactate uses the same transport system asl-lactate. When Na+ was omitted from the perfusatesJ lac act disappeared completely, whileJ lac bb was reduced by 64%. These data reflect the Na+ dependence of thed-lactate transport through the brush border. Variation of intra-and extracellular pH by raisingpCO2, omitting HCO 3 − from the perfusates or adding acetazolamide had no effect on the transport ofd-lactate when α-ketoglutarate was used as fuel. However, when acetate was used as fuel, intracellular acidosis brought the reducedJ lac act back to the values obtained with α-ketoglutarate as fuel. It is suggested that this is an effect on a contraluminal transport step. Probenecid (5 mmol/l) and phloretin (0.25 mmol/l) inhibitedJ lac act significantly.J lac bb , however, was only inhibited by probenecid when acetate was used as fuel. These data indicate that both compounds act on thed-lactate exit at the contraluminal cell side, but that probenecid acts in addition at the luminal cell side. SITS (1 mmol/l) augmentedJ lac bb when acetate was used as fuel and is similar to the effect of lowering intracellular pH as described above. The SH reagents mersalyl (1.0 mmol/l) and maleolylglycine (1 mmol/l) did not influenceJ lac bb .

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URL: http://dx.doi.org/10.1007/BF00584812

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Contraluminal phosphate transport in the proximal tubule of the rat kidney (1985)

Ullrich, K. J. ; Papavassiliou, F. ; Rumrich, G. ; [et al.]

Springer

Pflügers Archiv 405 (1985), S. S106

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ISSN: 1432-2013

Keywords: Epithelial transport ; Contraluminal cell membrane ; Dietary adaptation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In order to study the characteristics of contraluminal phosphate transport the stopped flow microperfusion technique [13] has been applied. By measuring the time-dependent decrease of interstitial33Pi concentration at different starting concentrations a simple diffusion kinetics with a permeability coefficient of 7.5±1.0 · 10−8 cm2 s−1 was found. Such a kinetic was so far only observed with 2-deoxy-d-glucose. This substance, however, is transported in addition by facilitated diffusion as was seen by paraaminohippurate, methylsuccinate and sulfate. The contraluminal transport of phosphate was inhibited by H2-DIDS (5 mmol/l). It was, however, not influenced by omission of Na+ from the perfusates, by addition of sulfate (150 mmol/l), methylsuccinate (50 mmol/l), arsenate (50 mmol/l), the Hg-compound mersalyl (5 mmol/l), high and low phosphate diet and pH changes between 6.0 and 8.0. The data indicate that phosphate, which is reabsorbed from the lumen by a Na+-dependent transport system, leaves the cell by a rather unspecific contraluminal diffusion pathway.

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URL: http://dx.doi.org/10.1007/BF00581789

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