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  • Title: Heat shock- and ethanol-induced ionic changes in C6 rat glioma cells determined by NMR and fluorescence spectroscopy.
    Author: Skrandies S, Bremer B, Pilatus U, Mayer A, Neuhaus-Steinmetz U, Rensing L.
    Journal: Brain Res; 1997 Jan 23; 746(1-2):220-30. PubMed ID: 9037501.
    Abstract:
    The effects of two different stressors, heat shock (HS; 44 degrees C, 20 min) and ethanol (1.2 M, 60 min), on ion content and membrane potential were investigated in C6 rat glioma cells. Both treatments were previously shown to induce the HS response [26]. Intracellular pH (pH(i)), sodium ion concentration ([NA+]i), potassium ion concentration ([K+]i) and membrane potential were determined by means of continuous 31P and 23Na nuclear magnetic resonance (NMR), continuous fluorescence spectroscopy and 86Rb uptake. Lactate extrusion was determined in addition with respect to pH(i) regulation. The aim of this study was a detailed picture of HS and ethanol-induced ion changes in a single cell type, because stress-induced changes in the intracellular ionic balance may be important factors for determining proliferation, stress response and apoptosis. HS lowered the pH(i) from 7.38 +/- 0.04 to about 7.05 +/- 0.04. [Na+]i decreased during HS to 50% of the control and recovered to normal level 95 min after HS treatment. During HS, [K+]i remained constant but increased after HS. The membrane potential hyperpolarized from -83 mV to -125 mV and returned to initial values during HS treatment. Lactate extrusion increased 3-fold after HS. Ethanol (1.2 M) lowered the pH(i) from pH 7.38 +/- 0.04 to pH 7.0 +/- 0.04, but in contrast to heat strongly increased [Na]i. It hyperpolarized the membrane potential from -83 to -125 mV. Ethanol also increased lactate extrusion similar to HS. Also in contrast to the effect of HS, the potassium concentration decreased during ethanol treatment. The Na(+)-H+ exchanger monensin was used to overcome the apparent inhibition of the cellular Na(+)-H+ exchanger by HS. At normal pH(e) (7.4) monensin increased [Na+]i and pH(i) considerably. A subsequent HS reduced [Na+]i only minimally. Acidification of the cells by low pH(e) (6.2) prior to HS did not abolish the HS-induced drop of pH(i), indicating that the Na(+)-H+ exchanger was also inhibited at low pH(i). At low pH(e), monensin transports H+ into the cell. A subsequent HS decreased pH(i) only little, showing the importance of inhibition of the Na(+)-H+ exchanger for the HS-induced pH(i) decrease. 100 microM amiloride reduced pH(i) and [Na+]i in a similar way as HS, but did not change pH(i) and [Na+]i much during a HS. These results indicate that some of the HS-induced ionic changes are mediated by inhibition of the Na(+)-H+ exchanger, activation of Na(+)-K(+)-ATPase and changes of membrane conductance for ions.
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