Effect of potassium deficiency on mouse kidney lysosomal enzymes.

Mice of inbred strains A/J, C57BL/6J and C57BL/6J beige were kept on a K+-deficient diet for up to 40 days to determine the magnitude and mechanism of changes in tissue lysosomal enzymes. From days 10 to 40 glucuronidase activity increased 3-fold in kidney of K+-deficient mice, but there was little effect on beta-galactosidase or acid phosphatase activity. Similar increases in kidney glucuronidase activity occurred in inbred strains known to have genetically altered control of the synthesis (A/J) and secretion (C57BL/6J beige) of glucuronidase in kidney proximal-tubule cells. Deprivation of K+ did not affect glucuronidase activity in liver, spleen, lung and brain, but there was a 2-3-FOld increase in glucuronidase activity in heart in the C57BL/6J and C57BL/6J beige strains. As shown by specific antibody titration, increased glucuronidase activity in kidney of K+-deficient mice was accompanied by accumulation of enzyme molecules. Likewise in kidney of deficient mice there was an increased rate of synthesis of glucuronidase as measured by incorporation of labelled leucine into immunoprecipitable glucuronidase. In kidney of K+-deficient mice the elevated glucuronidase activity was found in both collecting-tubule and interstitial cells of the medulla. It is probable therefore that a significant fraction of the increased kidney lysosomal synthesis and enzyme activity is due to infiltrating cells.