Elsevier

Neuroscience

Volume 23, Issue 1, October 1987, Pages 103-120
Neuroscience

Organization of the projections from the subiculum to the ventral striatum in the rat. A study using anterograde transport of Phaseolus vulgaris leucoagglutinin

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Abstract

The projections of the subiculum, as the main output structure of the hippocampal formation, to the striatum were studied in the rat using the anterograde tracer Phaseolus vulgaris leucoagglutinin. It appears that not only the entire nucleus accumbens, part of the so-called ventral striatum, receives fibres from the subiculum, but that the hippocampal projection area in the striatum includes also the most medial, ventral, rostral and caudal parts of the caudate-putamen complex. Moreover, a relatively small number of fibres and terminals are present in the striatal elements of the medial part of the olfactory tubercle. The projections to the ventral and caudal parts of the caudate-putamen are predominantly derived from the ventral subiculum, whereas the projections to the rostral part of the caudate-putamen are derived from the dorsal subiculum. Furthermore, with respect to the subiculum-accumbens pathway a topographical organization could be established. Thus, the ventral or temporal part of the subiculum projects predominantly to the caudomedial part of the nucleus accumbens, and to a lesser degree to its rostromedial portion, whereas progressively more dorsal or septal parts of the subiculum send fibres to successively more lateral and rostral portions of the nucleus accumbens. Very sparse projections are found to the contralateral nucleus accumbens, arranged in a topographical manner similar to the ipsilateral projections.

An important observation with respect to the structure of the nucleus accumbens is that the subicular terminations are inhomogeneously distributed, although a relation with earlier described mosaic patterns in the connectivity and neurochemical composition of the nucleus is not yet clear. Subicular fibres have their densest terminations in relatively cell-poor regions of the nucleus accumbens, and in particular tend to avoid small cell clusters.

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