Distinct types of astroglial cells in the hippocampus differ in gap junction coupling

is the main water channel in the brain and primarily localized to astrocytes where the channels are thought to contribute to water and K 1 homeostasis. The close apposition of AQP4 and inward rectifier K 1 channels (Kir4.1) led to the hypothesis of direct functional interactions between both channel

A general model for the transfer of ions and molecules between two cells via a gap junction is presented. This constitutes a dynamical system consisting of two connected parts: the dynamics of intracellular concentrations and electrical potentials, and the dynamics of the gating in the gap junction.

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,

## 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

Physiological studies have demonstrated the existence of direct intercellular communication, presumably mediated by gap junctions, both between neurons and between glial cells in the vertebrate retina. We localized gap junctions in the retinas of rat, goldfish, and mudpuppy by using antisera directe

Astroglial cells contribute to neuronal maintenance and function in the normal and diseased brain. Gap junctions formed predominantly by connexin43 (cx43) provide important pathways to coordinate astroglial responses. We have previously shown that fibroblast growth factor (FGF)-2, which occurs ubiqu