Development of Gap Junctions in Hippocampal Astrocytes: Evidence That Whole Cell Electrophysiological Phenotype Is an Intrinsic Property of the Individual Cell

Gap junction communication between astrocytes is prevalent and has been proposed to be involved in several astrocyte functions. One such proposal involves gap junctions in potassium spatial buffering. However, little is known about the developmental time course of gap junction coupling and how much the syncytium affects whole cell measurements of ion currents. Our previous work described three types of hippocampal astrocyte, each with a distinct electrophysiological profile when recorded in whole cell voltage-clamp mode. In the current study we correlated post–whole cell recording immunohistochemistry for GLAST and the spread of injected dye from the recorded cell with the measured electrophysiological phenotype to quantify cell coupling of astrocytes and the type of astrocyte coupled, in the rat hippocampus. We found that passive astrocytes, which predominate after 3 wk postnatally, have much lower membrane resistances (Rm) and are more frequently dye coupled and to more cells, than outwardly and variabl...