Ionic currents in normal and neurofibromatosis type 1-affected human Schwann cells: induction of tumor cell K current in normal Schwann cells by cyclic AMP.

Comparisons were made of whole cell voltage clamp recordings from cultures of normal Schwann cells (SC) from three human subjects and from three neurofibrosarcoma cell lines. The whole cell K+ (K) currents of normal and tumor cells could be divided into three types based on voltage activation range, pharmacology, and macroscopic inactivation: A type current, tetraethylammonium- (TEA-) only-sensitive current, and inward rectifier current. The most conspicuous difference between normal and tumor cells was the nature of K currents present. Normal SC K currents were inactivating, A type currents blocked by extracellular 4-aminopyridine (4-AP; 5 mM). The whole cell K currents of tumor cells were noninactivating due to the presence of non-inactivating A current, or non-inactivating, TEA-only sensitive current, or both, despite the presence of inactivating A current in some tumor cells. TEA-only-sensitive currents, which were 4-AP-insensitive and noninactivating, were common in all three tumor cell lines, but were not observed in normal SC. Inward rectifier K currents were a conspicuous feature of two of the tumor cells lines but were rarely observed in whole cell recordings of normal SC. The properties of Na+ currents recorded in both normal and tumor cells were not significantly different. Treatment of normal SC with a membrane-permeant analog of cyclic AMP (cAMP) resulted in functional expression of the TEA-only-sensitive K currents typical of tumor cells. These results establish the abnormal ion channel profile of neurofibromatosis type 1 (NF1)-tumor cells and suggest (Guo et al.: Science 276:795-798, 1997) that regulation of ionic currents by second messengers may involve the NF1 gene.