Sodium-bicarbonate cotransport in retinal astrocytes and Müller cells of the rat

An electrogenic Na+/HCO3- cotransport system was identified and characterized in freshly dissociated salamander Müller (glial) cells. Under voltage-clamp, these cells generated an outward current when external HCO3- concentration [( HCO3-]o) was raised. This current was Na(+)-dependent, Cl(-)-indepe

## Abstract Retinal glial Müller cells are characterized by dominant K^+^ conductances. The cells may undergo changes of their membrane currents during ontogeny and gliosis as described in rabbit and man. Although the rat retina is often used in physiological experiments, the electrophysiology of r

## Abstract Infection with the neurotropic Borna disease virus (BDV) causes an immune‐mediated neurological disease in a broad range of species. In addition to encephalitis, BDV‐infected Lewis rats develop a retinitis histologically characterized by the loss of most retinal neurons. By contrast, th

We characterized morphological effects of the endogenous excitotoxin, glutamate in ex vivo retinal segments prepared from 30-day-old rats. Initial changes induced by glutamate consisted of reversible, sodium-dependent Mu ¨ller cell swelling. This glial swelling was mimicked by glutamate transport su

Previous studies in retinal glial (Mu ¨ller) cells have suggested that (1) the dominant membrane currents are mediated by K ϩ inward-rectifier (Kir) channels (Newman and Reichenbach, Trends Neurosci 19:307-312, 1996), and (2) rectification of these Kir channels is due largely to a block of outward c

## Abstract Glutamate is thought to participate in a variety of retinal degenerative disorders. However, when exposed to glutamate at concentrations up to 1 mM, ex vivo rat retinas typically exhibit Müller cell swelling, but not excitotoxic neuronal damage. This Müller cell swelling is reversible f