We used anterograde tracing techniques to characterize projections from auditory cortex to the superior olivary complex (SOC) in guinea pigs. Large injections of fluorescent or biotinylated dextrans into the temporal cortex labeled many axons in the SOC. Labeled boutons were most numerous in the ventral nucleus of the trapezoid body, with additional boutons in all other olivary nuclei. The distribution of boutons was similar in the ipsilateral and contralateral SOC; however, the contralateral SOC had markedly fewer axons and boutons. Similar patterns of labeling were also observed following injections confined to primary auditory cortex or the dorsocaudal auditory field. Cortical axons in many of the SOC nuclei share numerous morphological features, suggesting that individual axons may innervate multiple nuclei and have widespread effects. In addition, some nuclei contain axons with branching or termination patterns unique to that nucleus; these axons may represent focused projections with effects limited to individual SOC nuclei. Given the many projections of SOC nuclei, cortico-olivary projections are in a position to modify the activity of many brainstem auditory circuits.
Gamma-aminobutyric acid (GABA) is the main inhibitory neurotransmitter of the thalamus. We used postembedding immunocytochemistry to examine the synaptic organization of GABA-positive profiles in the dorsal superficial subdivision of the cat medial geniculate nucleus (MGN). Three groups of GABA-positive profiles participate in synapses: axon terminals, dendrites, and presynaptic dendrites. The presynaptic GABA-positive terminals target mainly GABA-negative dendrites. The GABA-positive postsynaptic profiles receive input primarily from GABA-negative axons. The results indicate that the synaptic organization of GABA-positive profiles in the dorsal superficial subdivision of the MGN nucleus is very similar to that in other thalamic nuclei.
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