Variable NMR visibility of intracellular sodium induced by Na+‐substrate cotransport in dog cortical tubules

Abstract

The intracellular sodium concentration ([Na ⁺]_i) of dog kidney cortical tubules was monitored by flame photometry and ²³Na NMR using dysprosium tripolyphosphate as shift reagent. Upon addition of substrates cotransported with sodium, flame photometry showed an increase in [Na⁺]_i while no change (glutamine, glucose) or even a decrease (lactate) in the Na NMR signal was observed. This discrepancy could not be explained by a lack of ATP prior to the addition of substrates or by a decrease of NMR visibility of Na induced by binding of substrate to membrane transporters (and pump). We propose that a variation of the “apparent visibility” of Na may occur, arising from either a compartmentation of Na in dog cortical tubules or an inhomogeneous extracellular distribution of the shift reagent. © 1990 Academic Press, Inc.