The Journal of comparative neurology
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Hippocampal N-methyl-D-Aspartate (NMDA) receptors mediate mechanisms of cellular plasticity critical for spatial learning in rats. The present study examined the relationship between spatial learning and NMDA receptor expression in discrete neuronal populations, as well as the degree to which putative age-related changes in NMDA receptors are coupled to the effects of normal aging on spatial learning. Young and aged Long-Evans rats were tested in a Morris water maze task that depends on the integrity of the hippocampus. ⋯ Parallel confocal microscopic analysis of the GluR2 subunit of the alpha-amino-3-hydroxy-5-methyl-4-isoxazole proprionic acid (AMPA) receptor failed to reveal reliable differences as a function of age or spatial learning ability. This analysis linking age, performance, and NR1 levels demonstrates that although dendritic NR1 is generally preserved in the aged rat hippocampus, levels of this receptor subunit in selective elements of hippocampal circuitry are linked to spatial learning. These findings suggest that NMDA receptor abundance in CA3 bears a critical relationship to learning mediated by the hippocampus throughout the life span.
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Comparative Study
Characterization of CART neurons in the rat and human hypothalamus.
Cocaine- and amphetamine-regulated transcript (CART) is a recently described neuropeptide widely expressed in the rat brain. CART mRNA and peptides are found in hypothalamic sites such as the paraventricular nucleus (PVH), the supraoptic nucleus (SON), the lateral hypothalamic area (LHA), the dorsomedial nucleus of the hypothalamus (DMH), the arcuate nucleus (Arc), the periventricular nucleus (Pe), and the ventral premammillary nucleus (PMV). Intracerebroventricular administration of recombinant CART peptide decreases food intake and CART mRNA levels in the Arc are regulated by leptin. ⋯ Our results indicate that leptin directly acts on CART neurons in distinct nuclei of the rat hypothalamus. Furthermore, hypothalamic CART neurons coexpress neuropeptides involved in energy homeostasis, including MCH, TRH, DYN, and NT. The distribution of CART cell bodies and fibers in the human hypothalamus indicates that CART may also play a role in the regulation of energy homeostasis in humans.
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An organotypic culture system of the early postnatal rat retina was developed to study microglial activation within a tissue environment. One day after tissue preparation, microglial cells of the ganglion cell/nerve fiber layer revealed features of activation. Cells acquired an ameboid morphology as revealed by Bandeiraea simplicifolia lectin staining. ⋯ Both the release from the tissue and the morphological changes of the microglia were reversible. Seventy-two hours after LPS removal, only microglia with ramified morphology were found, and release activities returned to baseline. These data suggest that the organotypic culture of the retina is a useful model for studying microglial activation from its resting form.
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The ultrastructural features of neuronal nitric oxide synthase (NOS) -immunoreactive interneurons of rat nucleus accumbens shell and core were studied and compared. The NOS-containing subpopulation displayed characteristics similar to those previously described for nicotinamide adenine dinucleotide phosphate diaphorase-, neuropeptide Y, or somatostatin-containing striatal neurons, but also showed properties not previously associated with them, particularly the formation of both asymmetric and symmetric synaptic junctions. Inputs derived mainly from unlabeled terminals, but some contacts were made by NOS-immunolabeled terminals, by means of asymmetric synapses. ⋯ These results suggest that, in the rat nucleus accumbens, NOS-containing neurons may be further partitioned into subtypes, with differing connectivities in shell and core regions. These NOS-containing neurons may be influenced by a dopaminergic input. Recent studies suggest that nitric oxide potentiates dopamine release and the current study identifies the medium-sized, densely spiny neurons as a possible site of such an interaction.
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Previous studies have reported that the mRNAs encoding the cloned mu-opioid receptor (MOR1) and the cloned delta-opioid receptor (DOR1) are expressed in the dorsal root ganglia (DRG) of rats. In the present study, we determined the sizes of DRG neurons expressing DOR1 and MOR1 mRNAs and examined whether or not DRG neurons were likely to be the source of the DOR1 and MOR1 immunoreactivity previously observed in the spinal dorsal horn. DRG neurons were labeled in five male Sprague-Dawley rats by applying Fluoro-Gold (FG) topically to the dorsal root entry zone. ⋯ We conclude that both small and large DRG neurons express DOR1 and MOR1 mRNAs, but most cells expressing these mRNAs are small. In addition, some DRG neurons express both MOR1 and DOR1 mRNAs. Finally, both DOR1 and MOR1 in the spinal dorsal horn originate, at least in part, from DRG neurons.