Cl channel blockers inhibit the volume-activated efflux of Cl and taurine in cultured neurons

The effects of the Cl channel blockers 5-nitro-2-(3- phenylpropylamino)benzoic acid (NPPB), 1,9-dideoxyforskolin (DDF), dipyridamole, and niflumic acid and of the polyunsaturated fatty acids arachidonic, linolenic, and linoleic acids on regulatory volume decrease (RVD) and associated 125I and [3H]taurine fluxes in cultured rat cerebellar granule neurons were examined. Dose-response curves of NPPB, DDF and dipyridamole showed 20-100%25 inhibition of RVD and osmolyte fluxes. Niflumic acid was less potent, requiring 150-600 μM to show effects of this magnitude. The polyunsaturated fatty acids (5-20 μM) inhibited 80-90%25 RVD and osmolyte fluxes, with arachidonic acid exhibiting the most potent effect. The volume-associated taurine efflux was somewhat higher in younger neurons, but the pharmacological sensitivity was essentially the same in immature and mature cells. The effects of all tested drugs on 125I and [3H]taurine fluxes were remarkably similar, indicating a close pharmacological sensitivity of the transport mechanism for the two osmolytes. This is in line with the suggestion of a common pathway for the volume-associated release of Cl and amino acids functioning as osmolytes.

cerebellar neurons; chloride channels; polyunsaturated fatty acids; volume regulation 1,9 dideoxyforskolin; 5 nitro 2 (3 phenylpropylamino)benzoic acid; arachidonic acid; chloride channel; chloride channel blocking agent; chloride ion; linoleic acid; linolenic acid; polyunsaturated fatty acid; taurine; animal cell; article; cell volume; chloride conductance; controlled study; granule cell; hyperosmolality; ion permeability; nonhuman; priority journal; rat

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