POTASSIUM ACCUMULATION IN THE PROXIMAL CONVOLUTED TUBULES OF THE FROG'S KIDNEY

doi:10.1085/jgp.29.5.305

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ARTICLE

POTASSIUM ACCUMULATION IN THE PROXIMAL CONVOLUTED TUBULES OF THE FROG'S KIDNEY

E. J. Conway ¹, O. Fitzgerald ¹, and T. C. Macdougald ¹

¹ From the Department of Biochemistry, University College, and the Physiological Laboratory, Trinity College, Dublin, Eire

1. In a manner similar to that of the sartorius muscle, theisolated kidney of the frog can accumulate K against a gradientto upwards of three times its normal concentration.

2. The K-accumulatingregion is identified as the proximal tubule, which in the isolatedtissue immersed over 24 hours in the cold (2–3°C.)amounts to about 90 per cent of the nephron minus the glomerulus.In the fresh tissue it constitutes about 70 per cent.

The cellsof the proximal tubule are impermeable to Na, but freely permeableto K and Cl.

3. The distal tubule in the isolated kidney doesnot accumulate K over the external concentration. The cellsare permeable to Na which they actively extrude. This extrusionof Na goes parallel with a loss of osmotically associated wateramounting to about 15 per cent of the weight of the fresh kidney,but varying somewhat with the conditions.

4. The accumulationof K in the proximal tubules is in accordance with the equationsestablished for the sartorius muscle, and, as theoreticallyexpected, there is no volume increase (but rather a small decrease)with the large accumulations, when the external Na concentrationis maintained throughout.

5. With K accumulation in isotonicmixtures large volume changes occur as K is progressively substitutedfor Na. Over the range of external K concentration of 10 to100 mM per litre the weight of the whole kidney changes to 2.5times and the water of the cells of the proximal tubules increasesto over four times. Up to an external K value of 90 mM per litrethe mean weight of the kidney shows a linear relation when plottedagainst the reciprocal of the Na concentration plus the smallglucose and Ca concentration. This relation is interpreted theoretically.

6.The effect of cyanide in the isotonic mixtures is to preventthe contraction of the distal tubules and to cause swellingof the same. It does not affect the volume, volume changes,or differential permeability of the proximal tubule. At thesame time the membranes of the proximal tubule cells lose theircharacteristic permeability at a lower level of distension inthe presence of cyanide.

7. The mean Na ratio for the kidneyafter 24 hours' immersion in the cold is 0.26 ± 0.014 (givingstandard deviation of mean). The ratio is defined as

See PDFfor Equation.

For the fresh kidney the mean ratio is 0.39 ±0.006.

8. The mean inulin ratio (28 observed in the cold) is0.23 ± 0.012 and the same value for 10 observed at roomtemperature. At room temperature—2 hour immersion—theratio is increased by cyanide to a mean of 0.32 ± 0.028,but only a slight increase is caused by cyanide in the cold.

9.The mean hemoglobin ratio after 24 hours' immersion in the coldis 0.17 ± 0.004 and is unaffected by cyanide.

Submitted on February 28, 1946

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