Effects of excitatory amino acids, and of their agonists and antagonists on the release of neurotransmitters from the chick retina

Alpha-dendrotoxin (a-DTx), a snake venom toxin which blocks several types of fast-activating voltagedependent potassium channels, induces limbic seizures and neuronal damage when injected into the brain. The mechanisms underlying these convulsant and neuropathological actions are not fully understoo

In order to contribute evidence leading to establishing the excitatory pathways in the vertebrate retina, we selectively lesioned chick retinas by intraocular injection of 6, 60, 120, and 200 nmol of kainate, which selectively damages OFF-bipolars, amacrines, horizontals, and ON-bipolars, and measur

## Abstract ^3^H‐D‐Aspartate uptake was biochemically characterized in cultures from chick retina enriched in glial (Müller) cells or neurons during progressive days in vitro (DIV). In the neuronal cultures a high‐affinity, Na+‐dependent system was found with Km = 8–13 μM and pharmacological charac

Effects of some amino acids on horizontal cells were examined in the fish (Eugerres plumieri) retina. L-aspartate (5 mM in concentration) and L-glutamate (10 mM) consistently depolarized all types of horizontal cells, although the effect of L-aspartate was more pronounced. gamma-Aminobutyric acid (G

P-Amyloid protein (PAP) has been frequently associated with the neuropathology of Alzheimer's disease (AD), although the mechanisms by which it can induce neurodegeneration are still unknown. Some studies in hippocampal cultured neurons suggest that PAP, particularly its fragment 25-35, may induce n