Mika Chikamori-Aoyama scite author profile

The morphological substrate for the central mechanisms that control growth hormone (GH) release in the rat hypothalamus was investigated immunohistochemically by light and electron microscopy. In electron-microscopic studies, a dual immunolabeling technique was employed to demonstrate pairs of peptides, i.e. rat hypothalamic growth hormone-releasing factor (rhGRF) and somatostatin (SRIH), rhGRF and substance P (SP), and rhGRF and methionine-enkephalin-Arg⁶-Gly⁷-Leu⁸ (Enk-8), in different neuronal structures. Immunoreactivity of rhGRF was detected as silver-gold particles and those of the other substances as diaminobenzidine products by preembedding immunostaining procedures. In the external layer of the median eminence, axonal terminals immunolabeled for rhGRF and for SRIH showed the same pattern of distribution and close proximity. The neuronal inputs to GRF cell bodies in the arcuate nucleus were examined, and SRIH, SP and Enk-8 fibers with varicosities were found to form dense networks around the perikarya of GRF neurons, suggesting the presence of synaptic associations. Axonal terminals immunolabeled for SRIH, SP or Enk-8, and unlabeled terminals appeared to form coincidental synaptic junctions on GRF perikarya. These findings suggest that the central regulation of GH release occurs at the levels of the median eminence and the cell bodies.

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Suprachiasmatic nucleus neurons immunoreactive for vasoactive intestinal polypeptide have synaptic contacts with axons immunoreactive for neuropeptide Y: An immunoelectron microscopic study in the rat

Hisano

Chikamori-Aoyama

Katoh

et al. 1988

Neuroscience Letters

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Migration of LHRH Neurons Derived from the Olfactory Placode in Rats.

Daikoku

Koide

Chikamori-Aoyama

et al. 1993

Archives of Histology and Cytology

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Using the olfactory placode of 12.5-and 14.5-day-old (E12.5, E14.5) rat embryos, we examined the migration of LHRH neurons by in vivo intraventricular transplantation and in vitro organotypic culture systems. In the transplantation, the olfactory placode of E12.5 embryos was co-transplanted with the cerebral cortex and also with medial basal hypothalamus (MBH). LHRH neurons that had migrated into the co-trans

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Vitamin B6 suppresses growth and expression of albumin gene in a human hepatoma cell line HepG2

Molina

Oka

Muñoz

et al. 1997

Nutrition and Cancer

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The effect of vitamin B6 on the growth of a human hepatoma cell line HepG2 in culture was studied. The growth of HepG2 cells and protein synthesis were almost completely inhibited in medium supplemented with 5 mM pyridoxine. Pyridoxal was as effective as pyridoxine, but pyridoxamine showed no inhibitory action. The growth inhibition of HepG2 cells by pyridoxine was accompanied by a marked inhibition of secretion of plasma proteins, particularly albumin. Northern blot analysis of albumin mRNA showed that pyridoxine caused a rapid decrease in the expression of albumin gene. The electron-microscopic examination of pyridoxine-treated HepG2 cells revealed a smoothing of nuclear membrane, a decrease in the number of nucleoli, and an appearance of aggregated heterochromatin structures. These morphological features are compatible with the depressed transcriptional activity in the pyridoxine-treated cells. The mechanism by which vitamin B6 exerts its inhibitory effect was discussed in terms of our recent finding that vitamin B6 modulates expression of albumin gene by inactivating tissue-specific DNA-binding proteins. Binding of pyridoxal phosphate with tissue-specific transcription factors may reduce the capacity of these factors to interact with the regulatory region of albumin gene, resulting in the inhibition of the gene expression.

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Immunohistochemical evidence of serotoninergic regulation of vasoactive intestinal polypeptide (VIP) in the rat suprachiasmatic nucleus

et al. 1987

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By applying a double-immunolabeling technique to preembedded tissue preparations, we demonstrated the existence of serotoninergic innervation to neurons containing vasoactive intestinal polypeptide (VIP) in the rat suprachiasmatic nucleus (SCN). Immunoreactivity for serotonin and VIP was revealed by the presence of diaminobenzidine (DAB) reaction products and silver-intensified DAB reaction products, respectively; in a further stage, the silver grains were substituted with gold particles. DAB reaction products were precipitated on the surface of vesicular structures, while gold particles were scattered diffusely throughout the neuroplasma at various densities. Serotoninergic axons were numerous and closely packed together, occasionally forming synaptic junctions with gold-labeled VIP-containing neurons. At these synaptic junctions, small vesicular structures accumulated to form a coat under the presynaptic membrane, and the postsynaptic membrane was lined with a homogeneous accumulation of fine deposits. This postsynaptic apparatus varied in appearance; some parts were flat and thin, while others were of irregular thickness. Serotoninergic fibers also formed synaptic junctions with unidentified neurons, in which postsynaptic membrane specialization was also observable. As VIP-containing neurons are known to be synapsed by somatostatin (SRIH)-containing neurons, their regulation must involve both serotonin and SRIH at least.

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