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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. 220-226

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ISSN: 1432-2013

Keywords: Na+-dependent transport ; d-Lactate transport ; Small fatty acids ; 3-Hydroxybutyrate ; Acetoacetate

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The 3.5 s efflux ofd-lactate (1 mmol/l) injected in the lumen of the late proximal convolution as well as the zero net flux transtubular concentration difference ofd-lactate, which is a measure of its active transtubular transport rate, were determined. The inhibitory potency of small fatty acids and their analogs added to the perfusate in a concentration of 10 mmol/l on both, the 3.5 s efflux and in most cases also the 45 s transtubular concentration difference ofd-lactate was measured. It was found that 1. small fatty acids from acetate to octanoate inhibit 3.5s efflux ofd-lactate, the largest inhibition being exerted by propionate and butyrate. With increasing chain length the inhibitory potency decreased and disappeared with decanoate. 2. Considering the acetate-, propionate- and butyrate analogs, introduction of an electron attracting group such as Cl, Br, I, CN, SH, N3 on C atom 2 increased the inhibitory potency, compared to the unsubstituted fatty acid. An OH on C2 increased or did not change the inhibition while an OH on C atom 3 reduced or blunted the inhibition. A keto-group, as it is present in glyoxylate prevented inhibition, but pyruvate inhibited to the same extent as lactate, and acetoacetate was even more inhibitory than 3-hydroxybutyrate. Cl substitution on C3 preserved the strong inhibitory potency, while 4-Cl butyrate, was only sparsely inhibitory. A NH 3 + group at any position precludes inhibition. 3. As seen with Cl or OH substituted propionate and butyrate the inhibitory potency increased with decreasingpK a of the compounds. 4. Increasing the chain length by a CH3 as from acetate to propionate, from glycolate to lactate and also from glyoxylate to pyruvate increased the inhibitory potency. 5. When tested against the 3.5 s efflux ofl-lactate, the same inhibitory pattern was seen as withd-lactate. 6. The transport of chloroacetate, glycolate and acetoacetate, which were available in a radio-labeled form of high specific activity, was measured directly in 3.5 s efflux studies. It was Na+-dependent and could be inhibited by 10 mmol/ll-lactate. Glyoxylate, on the other hand, which did not inhibitd-lactate transport, did also not show a Na+-dependent,l-lactate inhibitable efflux from the tubular lumen. The data indicate that a variety of short chain fatty acids and their analogs are transported by the same Na+-dependent transport system in the brush border which transportsl- andd-lactate. The specificity is determined by the molecule size, hydrophobicity of one part of the molecule, the electron attracting abilities of substitutes on C-atom 2 or 3 and the charge distribution on the molecule.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00584813

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Specificity and sodium dependence of the active sugar tansport in the proximal convolution of the rat kidney (1974)

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

Springer

Pflügers Archiv 351 (1974), S. 35-48

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ISSN: 1432-2013

Keywords: Hexose Transport ; Sodium Cotransport ; Kidney Tubules ; Sugar Specificity ; Kidney Micropuncture

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary With the technique of stop flow microperfusion with simultaneous capillary perfusion, the zero net flux transtubular concentration difference (Δc) of labelled sugars was measured. The following sequence of Δc values, which are a measure for the active transtubular transport rate, were evaluated:d-glucose ≅β methyl-d-glycoside 〉α-methyl-d-glycoside 〉d-galactose 〉3-O-methyl-glucose 〉d-allose. When 10−4 M phlorrhizin was given in the luminal perfusate the Δc's dropped to zero (±8%). Δc-values in the same range i.e. indicating no active transport, were found for:l-glucose,d-mannose, 2-deoxy-d-glucose,d-fructose,d-glucosamine, 6-deoxy-d-galactose (=d-fucose),d-ribose and the reference polyalcohold-mannitol. Inhibition of thed-galactose δc was achieved by 15 mmol/l of the following sugars: α-methyl-d-glycoside ≅d-glucose ≅ 6-deoxy-d-glucose 〉3-O-methyl-d-glucose an no significant inhibition byd-xylose andd-mannose. Against Δc of α-methyl-d-glucose the following inhibitory potency was observed:d-glucose 〉6-deoxy-d-glucose 〉3-O-methyl-d-glucose ≅d-galactose 〉d-xylose and no inhibition byd-mannose. When the ambient sodium was replaced by choline, the Δc values of all actively transported sugars dropped toward zero. An analysis of the Na+ dependence of the α-methyl-d-glycoside transport revealed that the sodium dependence is of the affinity type i.e. that onlyK m increased with increasing Na+ concentration whileV max remained almost constant. From these data one can conclude: 1. The Crane specificity, i.e. that only the α-position of the OH-group on carbon atom 2 is essential, which was found for the intestinal hexose transport holds for the rat proximal kidney tubule, too. 2. The hexose transport system in the rat works only when Na+-ions are present. The sodium ions augment the affinity of the hexose transport system for the hexoses.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00603509

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Sodium dependence of the amino acid transport in the proximal convolution of the rat kidney (1974)

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

Springer

Pflügers Archiv 351 (1974), S. 49-60

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ISSN: 1432-2013

Keywords: Amino Acid Transport ; Sodium Cotransport ; Kidney Tubules ; Kidney Micropuncture

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary With the technique of stop flow microperfusion with simultaneous capillary microperfusion the zero net flux transtubular concentration differences (Δc) of labelled amino acids which are equivalent to their active transport rates were measured. Alll-amino acids tested (phenylalanine, histidine, aminobicycloheptane-carboxylic acid, aminoisobutyric acid; lysine, ornithine, arginine; aspartic acid; proline and glycine) showed a considerable Δc, i.e. active transport rate. When, however, the ambient sodium was replaced by choline the Δc values dropped to zero. An analysis of the Na+ dependence of the ornithine transport revealed that the sodium-dependence is of the mixed type, i.e. thatK m decreased andV max increased with increasing Na+ concentration to the same extent. In contrast to other biological systems no mutual interaction between the Na+-dependentd-glucose andl-histidine transport could be observed. Incidental to these studies it was observed that the active transport rate ofd-histidine was in the range of 40% of that of thel-isomer while ford-phenylalanine it was only in the range of 10% of the active transport of thel-isomer. Furthermore it was found that thel-aspartic acid transport was already saturated at a luminall-aspartic acid concentration of 0.05 mmol/l while that ofl-phenylalanine was not saturated even at a luminal concentration of 9 mmol/l.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00603510

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