Intercellular calcium waves in glia

## Abstract Enteric glia are important participants in information processing in the enteric nervous system. However, intercellular signaling mechanisms in enteric glia remain largely unknown. We postulated that intercellular calcium waves exist in enteric glia. Primary cultures of enteric glia wer

Intercellular calcium waves have been observed in a large number of cell types, and are known to result from a variety of stimuli, including mechanical or hormonal stimulation. Recently, spiral intercellular waves of calcium have been observed in slices of hippocampal tissue. We use an existing mode

We carry out a Monte Carlo simulation of stochastic e!ects for two models of intercellular calcium wave propagation in rat hepatocytes. Both models involve gap junction di!usion by a second messenger. We "nd that, in general, the stochastic e!ects improve agreement with experiment, for a reasonable

In this study, gap junction-deficient C6 glioma cells, transfected with either connexin 43 (Cx43) or 32 (Cx32), have been used to evaluate the ability of these connexins to pass intercellular Ca2+ waves. Ca2+ waves, observed with fluorescence imaging using fura-2 or fluo-3, were initiated by mechani

## Abstract The extracellular concentrations of Ca^2+^ and Mg^2+^ are well known to play important roles in the function of the central nervous system. We examined the effects of extracellular Ca^2+^ and Mg^2+^ on ATP release and intercellular signaling in astrocytes. The extent of propagation of i