OSCILLATIONS - A KEY EVENT IN TRANSFORMED RENAL EPITHELIAL-CELLS

Intracellular pH (pH(i)) plays a critical role in the entry of cells into the DNA-synthesis phase of the cell cycle. Alterations in pH(i) may contribute to abnormal proliferative responses such as those seen in tumorigenic cells. We observed that alkaline stress leads to genomic transformation of Madin-Darby canine kidney (MDCK) cells. Transformed cells (F cells) form "foci" in culture, lack contact inhibition, and are able to migrate, typical characteristics of dedifferentiated tumorigenic cells. F cells exhibit spontaneous biorhythmicity. Rhythmic transmembrane Ca2+ flux activates plasma membrane K+ channels and Na+/H+ exchange. This leads to periodic changes of membrane voltage and pH(i) at about one cycle per minute. We conclude that endogenous oscillatory activity could be a trigger mechanism for DNA synthesis, proliferation, and abnormal growth of renal epithelial cells in culture.