Retinohypothalamic projections in the hamster and rat demonstrated using cholera toxin

RF Johnson, LP Morin, RY Moore - Brain research, 1988 - Elsevier
RF Johnson, LP Morin, RY Moore
Brain research, 1988Elsevier
The organization of retinohypothalamic tract (RHT) projections in the rat and hamster was
studied using anterograde transport of cholera toxin conjugated to HRP (CT-HRP). In both
species the major RHT projections lead to the suprachiasmatic nuclei (SCN). This projection
begins in the rostral SCN as a loose plexus in the hamster and as a dense aggregation of
terminals along the chiasmal border in the rat. Through the remainder of the SCN there is a
very dense terminal plexus in the ventral and lateral part of the nucleus with fewer terminals …
Abstract
The organization of retinohypothalamic tract (RHT) projections in the rat and hamster was studied using anterograde transport of cholera toxin conjugated to HRP (CT-HRP). In both species the major RHT projections lead to the suprachiasmatic nuclei (SCN). This projection begins in the rostral SCN as a loose plexus in the hamster and as a dense aggregation of terminals along the chiasmal border in the rat. Through the remainder of the SCN there is a very dense terminal plexus in the ventral and lateral part of the nucleus with fewer terminals present medially. The RHT projection to the SCN is greater contralaterally in the rat whereas in the hamster the contralateral and ipsilateral projections are approximately equal. In addition to projections to the SCN, the RHT projects to the anterior hypothalamic area, the retrochiasmatic area and lateral hypothalamic area in both species. The anterior hypothalamic projections are more extensive in the hamster than in the rat and extend into the perifornical region, the dorsal hypothalamus and zona incerta. The SCN and anterior hypothalamic projections are continuous with a projection to the retrochiasmatic area and, in the hamster, with a projection extending into the subparaventricular zone with some axons and terminals continuing into the paraventricular nucleus. In contrast to these, the lateral hypothalamic projection in the rat is more extensive than in the hamster. Albino and pigmented rats show identical projections. In addition to the hypothalamic projections, there is in the hamster a small projection along the base of the telencephalon to the anterior amygdaloid area and cortical amygdaloid nucleus and a very sparse projection to the anterior thalamic nuclei. Thus, the CT-HRP method demonstrates a much more extensive RHT projection than has been demonstrated with other anterograde transport methods. This is particularly evident in the anterior and lateral hypothalamic projections. There are significant differences between rat and hamster in the organization of RHT projections and the hamster has small retinal projections to the thalamus and amygdala that are not present in the rat.
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