The new glutamic acid derivative RGPU-135 (3-phenylglutamic acid hydrochloride, glutaron, neuroglutamin) produces dose-dependent and reversible modulation of transmembrane sodium, potassium and, to a greater extent, calcium ion currents in neurons of Lymnaea stagnalis and Planorbarius corneus mollusks at concentrations of 1, 10, 100, and 1000 microM. At concentrations within 1 - 10 microM micromole, Ca and K currents are activated rather insignificantly; at 100 pmole, the amplitude of calcium currents is increased by 5 - 10%; and at 1000 microM, the Na and K ion currents are suppressed by 5 - 12%. RGPU-135 does not influence the membrane surface charge potential and the gating of ion channels. The effects of RGPU-135 were quickly reversible, which indicated the relatively weak drug binding to the membrane structures and ion channels.
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