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Excitatory amino acids, monoamine, and nitric oxide synthase systems in organotypic cultures: biochemical and immunohistochemical analysis (2000)

Herrera-Marschitz, M. ; Kohlhauser, C. ; Gomez-Urquijo, S. ; [et al.]

Springer

Amino acids 19 (2000), S. 33-43

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ISSN: 1438-2199

Keywords: Keywords: Amino acids ; Basal ganglia ; Dopamine ; Nitric oxide ; Excitatory amino acids ; Organotypic culture ; Immunohistochemistry

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary. The nigrostriatal and mesolimbic systems of the rat have been re-constructed using the organotypic culture model, whereby neonatal brain tissue is grown in vitro for approximately one month. The nigrostriatal cultures consisted of tissue from the substantia nigra, dorsal striatum and frontoparietal cortex; while the mesolimbic cultures included the ventral tegmental area, ventral striatum and cingulate cortex. The cultures were grown at 35°C in normal atmosphere, using a tube-roller device placed in a cell incubator and changing the medium every 3–4 days. The in vitro development was evaluated with an inverted microscope equipped with a variable relief contrast function. Samples were taken directly from the medium in the culture tube and analysed for several amino acids with HPLC. After a month the cultures were fixed and processed for immunohistochemistry. High levels of glutamate and aspartate were observed every time the medium was changed, but the levels rapidly decreased reaching a steady state after approximately 24 h. A decrease in the levels was also observed along development, reaching stable values (∼2 μM and ∼0.12 μM for glutamate and aspartate, respectively) at approximately two weeks, but only when the cultures showed an apparently healthy development. The levels were approximately 10 times higher in deteriorating or apparently damaged cultures. Glutamine levels were in the mM range and remained stable along the entire experiment. No differences were observed among nigrostriatal and mesolimbic cultures. Immunohistochemistry confirmed the impressions obtained from microscopic and biochemical analysis along the in vitro development, revealing apparently healthy neuronal systems with characteristics similar to those observed in vivo, when tyrosine hydroxylase and nitric oxide synthase, markers for dopamine and nitric oxide containing neurons, respectively, were analysed. In the substantia nigra, nitric oxide synthase-positive networks surrounded tyrosine hydroxylase-positive neurons, while in the striatum nitric oxide synthase dendrites were surrounded by tyrosine hydroxylase-positive nerve terminals, suggesting a reciprocal interaction among dopamine and nitric oxide containing neurons. Thus, the organotypic model appears to capture many of the neurochemical and morphological features seen in vivo, providing a valuable model for studying in detail the neurocircuitries of the brain.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s007260070031

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Distribution of pro-opiomelanocortin and its peptide end products in the brain and hypophysis of the aquatic toad, Xenopus laevis (1998)

Tuinhof, R. ; Ubink, R. ; Tanaka, S. ; [et al.]

Springer

Cell & tissue research 292 (1998), S. 251-265

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ISSN: 1432-0878

Keywords: Key words Pro-opiomelanocortin ; POMC peptides ; Background adaptation ; Suprachiasmatic nucleus ; Locus coeruleus ; Ventral hypothalamic nucleus ; Xenopus laevis (Anura)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract Using in situ hybridization with a pro-opiomelanocortin (POMC)-mRNA probe and immunocytochemistry with antisera to POMC and to various POMC-derived peptides, it is shown that melanotrope cells in the pars intermedia of the hypophysis of the South African aquatic toad Xenopus laevis contain POMC, α-melanophore-stimulating hormone (α-MSH), γ-MSH, acetylated and non-acetylated endorphins and adrenocorticotropic hormone (ACTH). With the exception of γ-MSH, these peptides are also found in the corticotrope cells in the rostral pars distalis. In the Xenopus brain, neuronal cell bodies in the ventral hypothalamic nucleus express POMC, α-MSH, γ-MSH, non-acetylated endorphins and ACTH, neurones in the anterior preoptic area reveal POMC, α-MSH, γ-MSH and non-acetylated endorphin, neurones in the suprachiasmatic nucleus contain α-MSH, non-acetylated endorphin and ACTH and neurones in the posterior tubercle show α-MSH, non-acetylated endorphin and ACTH immunoreactivities. In the locus coeruleus POMC and ACTH coexist, whereas α-MSH and non-acetylated endorphin occur together in the nucleus accumbens, the striatum and the nucleus of the paraventricular organ. Finally, α-MSH alone is present in the olfactory bulb, the medial septum, the medial and lateral parts of the amygdala, the ventromedial and posterior thalamic nuclei, the optic tectum and the anteroventral tegmental nucleus, and non-acetylated endorphin alone appears in the epiphysis. It is suggested that neurones that form POMC-derived peptides may play a direct or indirect role in the control of POMC-producing hypophyseal cells and/or in the physiological processes these endocrine cells regulate. This idea is supported by the fact that the suprachiasmatic nucleus and the locus coeruleus, both involved in melanotrope cell control, show POMC and POMC-peptide expression. A possible involvement in melanotrope and/or corticotrope control of the anterior preoptic and ventral hypothalamic nuclei, which both express POMC and various POMC-derived peptides, deserves future attention.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004410051056

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