Upregulation of Kv1.3 K(+) channels in microglia deactivated by TGF-beta

Microglial activation is accompanied by changes inK⁺ channel expression. Here we demonstrate that adeactivating cytokine changes the electrophysiological properties ofmicroglial cells. Upregulation of delayed rectifier (DR) K⁺channels was observed in microglia after exposure to transforming growth factor- (TGF-) for 24 h. In contrast, inwardrectifier K⁺ channel expression was unchanged by TGF-.DR current density was more than sixfold larger in TGF--treatedmicroglia than in untreated microglia. DR currents of TGF--treatedcells exhibited the following properties: activation at potentials morepositive than 40 mV, half-maximal activation at 27 mV, half-maximalinactivation at 38 mV, time dependent and strongly use-dependentinactivation, and a single channel conductance of 13 pS in Ringersolution. DR channels were highly sensitive to charybdotoxin (CTX) andkaliotoxin (KTX), whereas -dendrotoxin had little effect.With RT-PCR, mRNA for Kv1.3 and Kir2.1 was detected in microglia. Inaccordance with the observed changes in DR current density, the mRNAlevel for Kv1.3 (assessed by competitive RT-PCR) increased fivefold after treatment of microglia with TGF-.