Dynamic Compartmentalisation of Intracellular Sodium in collecting duct cells

Abstract

AbstractIn Principal cells (PC) of the cortical collecting duct (CCD), the highly regulated and coordinated reabsorption of sodium occurs through the epithelial sodium channel (ENaC) at the apical membrane and Na/K ATPase at the basolateral membrane. However, it is not known how sodium ions (Na+) are transported across the cell. We investigated intracellular transport in mCCDcl1 cells using a fluorescent sodium dye, CoroNa Green AM. Dye uptake was stimulated by aldosterone, blocked by amiloride (an ENaC inhibiter), and basolateral transport was prevented by ouabain (an Na/K ATPase blocker) thus validating the dye’s apparently faithful replication of sodium transport. Cells exhibited a consistent pattern of sodium-containing vesicles, of various sizes, surrounded by cytoskeleton and lipid membrane. While the smallest vesicles (∼0.5μm) co-stained with lysotracker, larger vesicles (up to 6.4μm) did not co-stain with either lysosomal- or mitochondrial-specific dyes and appeared to have internal structure, suggesting that they were multivesicular bodies. Time-lapse imaging showed a subset of these multivesicular bodies release or take up sodium dye in a controlled manner. Our novel data suggest that intracellular sodium compartmentalisation is highly regulated and offer new insights into intracellular sodium dynamics in the collecting duct, revealing potential new targets for control of sodium homeostasis.New and NoteworthyThe article shows for the first time, to our knowledge, intracellular sodium transport mechanism in mCCDcl1 cells in the form of dynamic vesicular bodies. These structures offer new targets for the regulation of sodium homeostasis and transport in the kidney collecting duct, with wider implications for blood pressure regulation.