- Hyperpolarization of the cell membrane of mouse hepatocytes by fatty acid oxidation.
Hyperpolarization of the cell membrane of mouse hepatocytes by fatty acid oxidation.
The effect of palmitate and metabolizable and nonmetabolizable monosacharides (D-glucose, D-fructose and 2-deoxy-D-glucose = 2-DG) on the membrane potential (Vm) of mouse hepatocytes was investigated employing a superfused mouse liver slice technique. Palmitate hyperpolarized the liver cell membrane in a concentration dependent manner whereas the monosaccharides tested did not. When mice were fed a fat-rich diet, the hyperpolarisation was greater in comparison to mice fed a low fat diet. The hyperpolarization was reversed by ouabain, an inhibitor of the Na+/K(+)-ATPase, by the K(+)-channel blockers tetra-ethyl-ammonium (TEA) and cetiedil and by three inhibitors of fatty acid oxidation (2-bromopalmitate, 2-bromooctanoate and 4-pentenoate). The results suggest that hyperpolarization of the liver cell membrane is due to fatty acid oxidation and that both activation of Na+/K(+)-ATPase and opening of K(+)-channels are involved. The implications of these findings with regard to control of food intake by fatty acid oxidation are discussed. The results are consistent with a role of the hepatic membrane potential in control of food intake by fatty acid oxidation.