Theoretical considerations underlying Na+ uptake mechanisms in freshwater fishes

Ion and acid-base regulating mechanisms have been studied at the fish gill for almost a century. Original models proposed for Na+ and Cl- uptake, and their linkage with H+ and HCO3- secretion have changed substantially with the development of more sophisticated physiological techniques At the freshwater fish gill, two dominant mechanisms for Na+ uptake from dilute environments have persisted in the literature. The use of an apical Na+/H+ exchanger driven by a basolateral Na+/K+-ATPase versus an apical Na+ channel electrogenically coupled to an apical H+-ATPase have been the source of debate for a number of years. Advances in molecular biology have greatly enhanced our understanding of the basic ion transport mechanisms at the fish gill. However, it is imperative to ensure that thermodynamic principles are followed in the development of new models for gill ion transport. This review will focus on the recent molecular advances for Na+ uptake in freshwater fish. Emphasis will be placed on thermodynamic constraints that prevent electroneutral apical NHE function in most freshwater environments. By combining recent advances in molecular and functional physiology of fish gills with thermodynamic considerations of ion transport, our knowledge in the field should continue to grow in a logical manner. (c) 2008 Elsevier Inc. All rights reserved.