Active urea transport and an unusual basolateral membrane composition in the gills of a marine elasmobranch

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Active urea transport and an unusual basolateral membrane composition in the gills of a marine elasmobranch

Glenn A. Fines, James S. Ballantyne, and Patricia A. Wright

Department of Zoology, University of Guelph, Guelph, Ontario N1G 2W1, Canada

In elasmobranch fishes, urea occurs at high concentrations (350-600 mM) in the body fluids and tissues, where it plays animportant role in osmoregulation. Retention of urea by the gillagainst this huge blood-to-water diffusion gradient requires specializedadaptations to the epithelial cell membranes. Experiments wereperformed to determine the mechanisms and structural featuresthat facilitate urea retention by the gill of the spiny dogfishSqualus acanthias. Analysis of urea uptake by gill basolateralmembrane vesicles revealed the presence of a phloretin-sensitive(half inhibition 0.09 mM), sodium-coupled, secondary active ureatransporter (Michaelis constant = 10.1 mM, maximal velocity =0.34 µmol · h¹ · mg protein¹). We propose that this system actively transports urea out ofthe gill epithelial cells back into the blood against the ureaconcentration gradient. Lipid analyses of the basolateral membranerevealed high levels of cholesterol contributing to the highestreported cholesterol-to-phospholipid molar ratio (3.68). Thisunique combination of active urea transport and modification ofthe phospholipid bilayer membrane is responsible for decreasingthe gill permeability to urea and facilitating urea retentionby the gill of Squalus acanthias.

basolateral plasma membrane; cholesterol; phloretin; urea permeability

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