Direct synaptic connections between superior colliculus afferents and thalamo-insular projection neurons in the feline suprageniculate nucleus: a double-labeling study with WGA-HRP and kainic acid.

The suprageniculate nucleus (Sg) of the feline thalamus, which subserves largely unimodal sensory and orientation behavior, receives input from the deep layers of the superior colliculus (SC), and projects to the suprasylvian cortical areas, such as the anterior ectosylvian visual area and the insular visual area (IVA), which contain visually responsive neurons. Through a double tract-tracing procedure involving the injection of wheat germ agglutinin conjugated with horseradish peroxidase (WGA-HRP) into the IVA and the injection of kainic acid into the SC, this study sought to determine the nature of the synaptic relationship between the SC afferents and the thalamo-cortical projection neurons. WGA-HRP injections labeled numerous neurons in the Sg, while kainic acid injections destroyed many tectothalamic terminals in the Sg. The distributions of the WGA-HRP-labeled neurons and the degenerated axon terminals overlapped in the dorsal part of the Sg. Electron microscopic observations demonstrated that the degenerated axon terminals made synaptic contacts with the dendrites of the WGA-HRP-labeled neurons in this overlapping region of the Sg. These results provide the first anatomical evidence that the Sg may play a role in the key relay of visual information from the SC to the IVA, within an identified extrageniculo-cortical pathway.

Overlap of nigrothalamic terminals and thalamostriatal neurons in the feline lateralis medialis-suprageniculate nucleus.

The lateralis medialis-suprageniculate nucleus (LM-Sg) of the feline posterior thalamus is a relay nucleus with a clear visuomotor function. In this study, we examined the distribution of axon terminals of the nigral afferent to the LM-Sg following injection of an anterograde tracer, biocytin, into the substantia nigra pars reticulata, and the distribution of the thalamostriatal projection neurons in the LM-Sg following the injection of wheat germ agglutinin conjugated with horseradish peroxidase (WGA-HRP) as a retrograde tracer into the caudate nucleus. The biocytin-labeled terminal-like puncta were located in the ventromedial portion of this nucleus in such a way that most of the labeled elements took the form of swellings having boutons in places, while a minority appeared in clusters of 3-5 large terminal-like puncta. The retrograde WGA-HRP-labeled neurons were also found in the ventromedial part of the LM-Sg, and the distributions of labeled nigrothalamic axon terminals and labeled thalamostriatal projection neurons therefore overlapped in this region. The present results indicate that the nigral afferent may make synaptic contacts directly with the thalamostriatal projection neurons within the LM-Sg.

A possible monosynaptic pathway links the pedunculopontine tegmental nucleus to thalamostriatal neurons in the hooded rat.

The thalamic lateral posterior nucleus (LP) of the hooded rat is regarded as a relay nucleus for the transmission of information from visuomotor-related structures such as the superior colliculus, pedunculopontine tegmental nucleus (PPT) and substantia nigra, pars reticulata, to visual cortical areas as well as the striatum. The aim of the present study was to examine the relationships of the thalamo-striatal projection neurons with the LP afferent fibers derived from the PPT, using injections of the anterograde tracer biotinylated dextran amine (BDA) and the retrograde tracer cholera toxin-B (CTB) into the PPT and the striatum, respectively. Findings showed that the location of terminals derived from PPT and LP neurons projecting to the striatum overlapped considerably in the ventral portion of the LP. Ultrastructural observations within this overlapped LP region showed that BDA-labeled terminals make synaptic contacts with dendrites of CTB-labeled neurons. The present results thus provide morphological support for the contention that information from the PPT neurons is relayed to the striatum through by the LP.

Two types of neuron are found within the PPT, a small percentage of which project to both the LM-SG and SC.

The pedunculopontine tegmental nucleus (PPT) projects its cholinergic fibers to both the lateralis medialis-suprageniculate nucleus (LM-Sg) and the superior colliculus (SC). For the purpose of verification of whether a single neuron in the PPT projects to both the LM-Sg and the SC, we injected dextran tetramethylrhodamine (DR) into the LM-Sg and dextran fluorescein (DF) into the ipsilateral SC. The DR-positive neurons labeled retrogradely in the PPT are small (mean: 27.13+/-1.22 micro m) and distributed in the rostral two-thirds of this nucleus, whereas the DF-positive neurons are small (mean: 27.54+/-1.16 micro m) or medium-sized (mean: 40.18+/-1.43 micro m), and are located throughout the PPT. Thirty-five percent of all labeled neurons are double-labeled and small. The present study indicates that the PPT projection to the LM-Sg in part involves neurons bifurcating to the SC.

Postnatal development of cholinergic afferents from the pedunculopontine tegmental nucleus to the lateralis medialis-suprageniculate nucleus of the feline thalamus.

The lateralis medialis-suprageniculate nuclear complex (LM-Sg) has been shown to receive cholinergic fibers from the pedunculopontine tegmental nucleus (PPT). The majority of terminals of these cholinergic fibers make simple synaptic contact with dendritic profiles, whereas some make contacts with the dendrites of projection neurons and GABAergic interneurons forming a glomerular synaptic complex. In the present study, we investigate the postnatal development of glomerular synaptic complexes in the LM-Sg in association with terminals of the PPT-thalamic projection fibers. We examined the postnatal development of cholinergic innervation as well as GABAergic interneuron innervation in the LM-Sg using antibodies against ChAT and GABA, respectively. Although choline acetyltransferase (ChAT)-positive neurons already exist in the PPT at birth (P0), ChAT-positive fibers in the LM-Sg were observed only after P7. These ChAT-positive fibers gradually increased in number, and almost reached the adult level by postnatal day 28 (P28). GABA-positive interneurons were scattered throughout the LM-Sg at P0, increased in size gradually and reached adult size by P14. Immature glomerulus-like synaptic arrangements appeared at P14. Definite glomeruli, in which ChAT-positive terminals are present, were observed at P28. These results emphasize that interneurons in the LM-Sg grow by P14, and then make neural circuits with cholinergic innervation within the glomerulus by 3-4 weeks.

Anisotropic functional connections between the auditory cortex and area 18a in rat cerebral slices.

We developed a new method to visualize the myeloarchitecture in fresh slices, and investigated the properties of the functional neural connections around the boundary between the primary auditory cortex (area 41) and area 18a in rat cerebral slices. A fresh slice illuminated by near-vertical light was observed with a CCD camera. The translucent images of the slice showed contrast patterns very similar to myeloarchitecture. The boundary between these areas was identified by the well-developed layer IV/V in area 41 but not in area 18a. Antidromic/presynaptic components of the field potentials stimulated and recorded across the areal boundary showed symmetric distribution, while the postsynaptic field potentials in the direction from area 41 to 18a were more prominent than those in the opposite direction in layer II/III. In contrast, the dominant direction of propagation of postsynaptic potentials was from area 18a to 41 in layer V. In the presence of 1 microM bicuculline, an inhibitor of GABA(A) receptors, the polysynaptic activities propagating from area 18a into 41 via layer V were elicited by stimulation of area 18a. The propagation measured by Ca(2+) imaging or field potential recordings was potentiated after both areas 18a and 41 were alternately stimulated several times.