The role of anion and cation channels in volume regulatory responses in trout red blood cells

(1) An outwardly rectifying chloride channel (ORCC) of large conductance has been detected under isotonic conditions (320 mosM l −1) in the plasma membrane of trout red blood cells (RBCs) using the excised inside-out configuration. The channel, with a permeability ratio P Cl/ P cation of 12, was inh...

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Bibliographic Details
Published in:BIOELECTROCHEMISTRY 2000-12, Vol.52 (2), p.133-149
Main Authors: Egée, Stéphane, Lapaix, Franck, Cossins, Andrew R, Thomas, Serge L.Y
Format: Article
Language:English
Subjects:
Animals
Barium - pharmacology
Cell Size - physiology
Deformation
Electric conductance
Hypotonic shock
Ion Channels - antagonists & inhibitors
Ion Channels - metabolism
Ion Channels - physiology
Ionic channels
Kinetics
Mechanical permeability
Negative ions
Nitrogen compounds
Osmotic Pressure
Plasmas
Positive ions
Potassium - metabolism
Red blood cells
Sodium - metabolism
Swelling
Trout
Volume regulation
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Summary:(1) An outwardly rectifying chloride channel (ORCC) of large conductance has been detected under isotonic conditions (320 mosM l −1) in the plasma membrane of trout red blood cells (RBCs) using the excised inside-out configuration. The channel, with a permeability ratio P Cl/ P cation of 12, was inhibited by the Cl − channel blockers 5-nitro-2-(3-phenylpropylamino)-benzoate (NPPB) (50 μM), and 4,4′-diisothiocyanostilbene-2,2′-disulfonic acid (DIDS) (100 μM) in the bathing solution. (2) In hypotonic conditions (215 mosM l −1), 44% of cell-attached patches showed spontaneous single channel activity identified as nonselective cationic (NSC) channels. A second group, corresponding to 7% of cell-attached patches, showed spontaneous activity corresponding to a channel type presenting outward rectification and anionic selectivity. Finally, 49% of patches displayed a complex spontaneous signal corresponding to the superimposition of inward and outward currents probably due to activation of different channel types. (3) Giga-seals obtained without suction in intact cells under isotonic conditions possessed NSC channels that were quiescent but which could be activated either by mechanical deformation of cell membrane or by hypotonic cell swelling. (4) Hypotonically swollen RBCs exhibited regulatory volume decrease (RVD) over 3 h, which was linked to a fivefold to sixfold increase in unidirectional fluxes of K +, a net loss of intracellular K + and net gain of extracellular Na +. RVD and the hypotonically activated, unidirectional K + influx continued after replacement of Cl − by methylsulfonate (MeSF) albeit more slowly. (5) The NSC channel inhibitor, barium, and the Cl − channel inhibitor, NPPB, both inhibited the RVD response by ∼50% in Cl − containing saline. When Cl − was replaced by MeSF, the inhibition was >90% suggesting that NSC channels and ORCC play key roles in the chloride-independent component of RVD.
ISSN:1567-5394
0302-4598
DOI:10.1016/S0302-4598(00)00096-9