Evidence of Coordinated and Adjustable Osmolytes Movements Following Hyposmotic Swelling in Rainbow Trout Red Blood Cells.

BACKGROUND/AIMS: The osmolytes involved in the volume regulation of hyposmotically-swollen fish cells are well identified. However, if a coordination and adjustments of their fluxes are obvious, few studies have clearly illustrated these aspects.

METHODS

Trout red blood cells volume variations were estimated from water contents obtained by a gravimetric method. Intracellular K and Na contents, and Cl content of haemolysed cells were determined by photometry and colorimetry, respectively. The taurine contribution to cell volume regulation was calculated from the net changes of water, K, Cl and Na contents. The intracellular pH was calculated from the chloride distribution across the cells membranes according to the Donnan equilibrium.

RESULTS: Cells responses to a rapid change (from 296 to 176 mOsm.kg)
of the saline osmolality were examined in three conditions designed to not impact (Hypo. I)
or to reduce the K (Hypo. II) and Cl (Hypo. III) contributions to the volume regulation. Hypo. I condition caused an immediate increase in water content, followed by a 90 min. full regulation, concomitant with gradual lowering of K and Cl contents and a surprising increase in Na content. Hypo. II and III conditions showed a partial and complete volume regulation, respectively. This was made possible by an increase in the taurine involvement. These experiments allowed to confirm that K and Cl were released via KCl cotransport and by separate channels. The comparison of Hypo. I and III conditions led to the observation that the partially amiloride-sensitive Na influx is proportional to the taurine efflux; the latter being sustained mainly by a Na/taurine cotransport. The Hypo. II condition was suitable for the (Na/K)ATPase activity inhibition. This effect could explain the observed lack of Na uptake, the consecutive depletion of intracellular taurine stock and the incomplete volume regulation. Finally, the results support the importance of taurine in pH control under Hypo. I (physiologic) condition. The alkalosis observed in Hypo. II and III conditions were the consequences of changes in the salines compositions, not of physiologic adjustments.

CONCLUSION

The regulatory volume decrease process of trout RBCs is complex and adjustable through coordinated osmolytes movements. The obliged decrease in K and/or Cl contributions stimulates taurine and Na pathways. This study highlights the importance of taurine as a compensatory variable in cell volume regulation and explains for the first time the significance of the Na uptake during this process.