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  • Title: Volume-induced increase of K+ and Cl- permeabilities in Ehrlich ascites tumor cells. Role of internal Ca2+.
    Author: Hoffmann EK, Simonsen LO, Lambert IH.
    Journal: J Membr Biol; 1984; 78(3):211-22. PubMed ID: 6427469.
    Abstract:
    Ehrlich ascites tumor cells resuspended in hypotonic medium initially swell as nearly perfect osmometers , but subsequently recover their volume within 5 to 10 min with an associated KCl loss. 1. The regulatory volume decrease was unaffected when nitrate was substituted for Cl-, and was insensitive to bumetanide and DIDS. 2. Quinine, an inhibitor of the Ca2+- activated K+ pathway, blocked the volume recovery. 3. The hypotonic response was augmented by addition of the Ca2+ ionophore A23187 in the presence of external Ca2+, and also by a sudden increase in external Ca2+. The volume response was accelerated at alkaline pH. 4. The anti-calmodulin drugs trifluoperazine, pimozide, flupentixol, and chlorpromazine blocked the volume response. 5. Depletion of intracellular Ca2+ stores inhibited the regulatory volume decrease. 6. Consistent with the low conductive Cl- permeability of the cell membrane there was no change in cell volume or Cl- content when the K+ permeability was increased with valinomycin in isotonic medium. In contrast, addition of the Ca2+ ionophore A23187 in isotonic medium promoted Cl- loss and cell shrinkage. During regulatory volume decrease valinomycin accelerated the net loss of KCl, indicating that the conductive Cl- permeability was increased in parallel with and even more than the K+ permeability. It is proposed that separate conductive K+ and Cl- channels are activated during regulatory volume decrease by release of Ca2+ from internal stores, and that the effect is mediated by calmodulin.
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