Electrical coupling between glial cells in the rat retina

Gap junctional communication between glial cells is thought to play a role in K 1 spatial buffering, in the propagation of inter-astrocytic Ca 21 waves, and in glial-neuronal signaling. In the present study, we characterize dye coupling between astrocytes, and between astrocytes and Mu ¨ller cells,

Inwardly rectifying K+ (Kir) channels have been implicated in the mediation of retinal K+ homeostasis by Muller glial cells. To assess possible involvement of altered glial K+ channel expression in ischemia-reperfusion injury, transient retinal ischemia was induced in rat eyes. Acutely isolated Mull

## Abstract The present study was aimed at characterizing the GABA~A~ receptor‐mediated currents in acutely isolated glial (Müller) cells of the human retina and investigating their subcellular localization across the Müller cell membrane. Extracellular application of GABA evoked two current respon

In the continuously enlarging eye of teleost fishes retinal growth is achieved by the generation of new cells and by stretching the existing tissue. As a consequence of stretching, the density for most neurons decreases except for rod photoreceptors, which are produced by stem cells in the outer nuc

## Gap junctional coupling between progenitor cells of regenerating retina in the adult newt was examined by a slice-patch technique. Retinal slices at the early regeneration stage comprised one to two layers of cells with mitotic activity, progenitor cells. These cells were initially voltage-clamp

Heterotypic coupling, defined as gap-junctional coupling between cells of different classes, may be common among the different types of non-neuronal cells in the central nervous system. Since gap junctions provide a route for the intercellular exchange of signaling molecules, heterotypic coupling ma