Hypertrophy of basolateral Na-K pump activity in the proximal tubule of the remnant kidney.

Reduction of renal mass leads to an increase in the filtration rates of the remaining glomeruli and an increased rate of sodium and water reabsorption by the proximal tubules. To define the basis for this increased tubular reabsorptive capacity, the authors studied the relationship of basolateral sodium pump activity to the process of hypertrophy in the proximal tubule. They wished to determine whether the growth of the cell is associated with an increase in the number of basolateral Na-K pumps and whether basolateral membrane hypertrophy is symmetrical with respect to overall cell growth. Normal and subtotally nephrectomized rabbits (remnant kidneys) were studied. Ouabain-sensitive potassium uptake was measured in a highly purified suspension of cortical proximal tubules using 86Rb as a tracer. In normal kidneys Km was 0.99 +/- 0.30 mM and Vmax 83.1 +/- 13.7 nmoles X mg-1 X minute-1; in remnant kidneys Km was 0.63 +/- 0.10 mM and Vmax 49.2 +/- 10.9 nmoles X mg-1 X minute-1. These values are not significantly different from each other. In a suspension of isolated cortical proximal tubular cells, protein per cell was 172 +/- 23 pg in normal kidney and 450 +/- 56 pg in remnant kidneys, representing a 2.6-fold increase. The extrapolated Vmax for K uptake per cell was thus increased approximately 2.6-fold in the remnant kidney. This was confirmed by measuring the number of specific ouabain-binding sites in proximal tubular cells. This was also found to be approximately 2.5 to 3 times greater in the remnant kidney cells, the increase being proportional to the increase in cell protein. Histomorphometric analysis of S2 proximal convoluted tubules, which comprise the bulk of the cortical tissue, revealed that basolateral membrane area per cross-sectional area of tubule was increased in the remnant kidney. The mean absolute surface area per cross-section of tubule and the surface density (surface/volume ratio) of the basolateral membrane increased by 110 and 26%, respectively, whereas these changes in the luminal membrane were only 38 and -9%, respectively. Thus, the membrane areas of the proximal tubular cell hypertrophy asymmetrically. Although mitochondrial density does not increase in remnant tubules, mitochondrial volume increases significantly, possibly providing a source for the increased ATP required by the hypertrophied basolateral Na-K pump activity. In summary, the cells of the proximal convoluted tubule of the remnant kidney undergo functional and structural hypertrophy.(ABSTRACT TRUNCATED AT 400 WORDS)