The Journal of comparative neurology
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Ventrally located commissural neurons express the GABAergic phenotype in developing rat spinal cord.
Early-forming commissural neurons are studied intensively as a model of axonal outgrowth and pathfinding, yet the neurotransmitter phenotype of the majority of these neurons is not known. The present study has determined that a substantial number of commissural neurons express the 65-kDa isoform of glutamic acid decarboxylase (GAD65) as early as embryonic day 12 (E 12). Patterns of GAD65 localization were compared with those of TAG-1, the Transiently expressed Axonal Glycoprotein that is the best known marker of commissural axons. ⋯ When GAD and GABA results were compared, it was clear that a number of ventrally located commissural neurons expressed and maintained the GABAergic phenotype during embryonic development. However, the early expression and subcellular redistribution of GAD65 suggests that the GAD isoforms are differentially regulated. The function of the transient GAD65 expression in commissural somata and axons is unknown, but its temporal expression pattern parallels the transient expression of TAG-1, as both are expressed during the early stages of commissural axon outgrowth and pathfinding.
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The distribution of metabotropic glutamate receptors 1alpha (mGluR1alpha) and mGluR2/3 in the cat retina was studied through the use of preembedding immunocytochemistry for light and electron microscopy. Staining for mGluR1alpha in the outer plexiform layer was seen in numerous punctate structures that were identified as rod spherules. Cone pedicles remained unlabeled. ⋯ Labeled amacrine processes were postsynaptic to cone bipolar cells in both sublaminae but, similar to mGluR1alpha, comprised only one of the postsynaptic elements. Staining for mGluR2/3 also was seen in amacrine processes postsynaptic to rod bipolar terminals; these processes were identified as belonging to type A17 amacrine cells. The distribution patterns indicate that both mGluR1alpha and mGluR2/3 are positioned for postsynaptic function, whereas mGluR1alpha also may contribute to the presynaptic regulation of glutamate release from rod photoreceptors.
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Comparative Study
Increased uptake and transport of cholera toxin B-subunit in dorsal root ganglion neurons after peripheral axotomy: possible implications for sensory sprouting.
In the present study we show that, in contrast to the rat, injection of cholera toxin B-subunit (CTB) into the intact sciatic nerve of Macaca mulatta monkey gives rise to labelling of a sparse network of fibers in laminae I-II of spinal cord and of some mainly small dorsal root ganglion (DRG) neurons. Twenty days after sciatic nerve cut, the percentage of CTB-positive lumbar 5 (L5) DRG neuron profiles increased from 11% to 73% of all profiles. In the spinal cord, a marked increase in CTB labelling was seen in laminae I, II, and the dorsal part of lamina III. ⋯ These neurons may transganglionically transport CTB and CTB-HRP. Thus, after peripheral axotomy, CTB and CTB-HRP are markers not only for large but also for small DRG neurons and, thus, possibly also for both myelinated and unmyelinated primary afferents in the spinal dorsal horn. These findings may lead to a reevaluation of the concept of sprouting, considered to take place in the dorsal horn after peripheral nerve injury.
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The rostral ventromedial medulla (RVM) is an important mediator of the supraspinal component of opioid antinociception. Previous studies have suggested that activation of the cloned mu- and delta-opioid receptors (MOR1 and DOR1 respectively) in the RVM produces the antinociception mediated by spinally projecting neurons. In the present study, we investigated the expression of mRNA encoding either MOR1 or DOR1 in the RVM of rats. ⋯ Of 192 retrogradely labeled cells in the RVM, 51 cells (27%) were immunoreactive for 5HT. Of this population, half appeared to be labeled for the mRNA encoding MOR1 and over three-fourths appeared to be labeled for the mRNA encoding DOR1. Thus, we conclude that bulbospinal neurons express MOR1 and DOR1; moreover, MOR1 and DOR1 are expressed by significant proportions of 5HT neurons projecting to or through the dorsal spinal cord.
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The Snell dwarf mouse (Pit1dw-J homozygote) has a mutation in the Pit1 gene that prevents the normal formation of the anterior pituitary. In neonates and adults there is almost complete absence of growth hormone (GH), prolactin (PRL), thyroxin (T4), and thyroid-stimulating hormone (TSH). Since these hormones have been suggested to play a role in normal development of the central nervous system (CNS), we have investigated the effects of the Pit1dw-J mutation on the cerebellum and hippocampal formation. ⋯ In the hippocampus of the Pit1dw-J homozygote mouse, the number of pyramidal cells was decreased, although the width of the pyramidal cell layer throughout areas CA1-CA3 appeared to be normal, but less densely populated than in the wild-type mouse. Moreover, the number of granule cells that form the granule cell layer was decreased from the wild-type mouse and some ectopic granule cells (occurring both as single cells and as small clusters) were observed in the innermost portion of the molecular layer. The abnormalities observed in the Pit1dw-J homozygote mouse seem to be caused by both direct and indirect effects of the deficiency of TSH (or T4), PRL, or GH rather than by a direct effect of the deletion of Pit1.