Summary
This paper gives an account of the action of two antagonists of GABA on the vestibulo-trochlear inhibitory pathway, and of neurochemical determinations of its suggested synaptic transmitter (GABA) within the trochlear nuclei. Extra- and intracellular potentials were recorded from the trochlear nucleus following stimulation of the ipsilateral vestibular nerve, contralateral vestibular nerve and the trochlear nerve.
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1.
The disynaptic inhibitory vestibulo-trochlear reflex was shown to be mediated solely through the medial longitudinal fasciculus as lesion of this pathway removed it entirely.
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2.
Picrotoxin blocked completely the IPSP, the extracellular positive potential and the inhibitory effect on the antidromic response.
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3.
Bicuculline had a similar effect on the inhibitory potentials, the action was reversible lasting less than one hour at a dose less than 1 mg/kg, and the sequence of block and recovery could be repeated several times in the same experiment with a similar dose.
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4.
Both bicuculline and picrotoxin selectively suppressed the postsynaptic, in contrast to the presynaptic, component of the field potential, and did not markedly affect the excitatory pathway (EPSP).
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5.
The normal concentration of GABA in the trochlear nucleus area was 3.6 μ mole/g. After lesions of the ipsilateral medial longitudinal fasciculus the GABA content was significantly decreased suggesting degeneration of GABA containing terminals.
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6.
These results corroborate the hypothesis that GABA is the inhibitory synaptic transmitter of the vestibular neurons projecting to trochlear and other ocular motoneurons.
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Precht, W., Baker, R. & Okada, Y. Evidence for GABA as the synaptic transmitter of the inhibitory vestibulo-ocular pathway. Exp Brain Res 18, 415–428 (1973). https://doi.org/10.1007/BF00239109
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DOI: https://doi.org/10.1007/BF00239109