AMINO ACIDS AS NEUROTRANSMITTERS OF CORTICOFUGAL NEURONES IN THE RAT: A COMPARISON OF GLUTAMATE AND ASPARTATE

Abstract

The relative sensitivities to aspartate and glutamate of neurones receiving a corticofugal innervation were examined by microiontophoresis, and compared with the relative sensitivities of neurones not appearing to receive such an input. On all the cells tested, glutamate appeared to be a more potent excitant than aspartate in terms of neuronal response size or effective dose. dl‐α‐Aminoadipate (αAA) reduced the excitatory amino acid responses on all the neurones tested. On many of these cells a control excitation could be produced, by acetylcholine or hydrogen ions, which was in most cases unaffected by doses of αAA producing antagonism of amino acid excitation. On 70% of the cells, aminoadipate showed no selectivity for aspartate compared with glutamate but a differential action, involving blockade of aspartate but not glutamate, was apparent on the other 30%. Doses of αAA which selectively reduced responses to aspartate had no effect on short latency evoked spikes, but doses which also reduced responses to glutamate reduced the short‐latency synaptic excitation induced by electrical stimulation of either the surface of the cerebral cortex, or of the pyramidal tracts in the medulla. These findings suggest that corticofugal neurones having an excitatory action on cells in various parts of the brain may use an amino acid, probably glutamate, as a common neurotransmitter. As no significant difference could be demonstrated in the potency ratios of glutamate aspartate on monosynaptically activated cells compared with other cells, doubt is cast on the validity of drawing conclusions about transmitter identity from potency ratios alone, without the support of antagonist studies.