Autoradiographic localization of 3H-5-HTP and 3H-5-HT in the pineal organ and circumventricular areas in the rainbow trout,Salmo gairdneri Richardson

Summary The time course of incorporation and cellular localization of ³H-5-hydroxytryptophan (³H-5-HTP) and ³H-5-hydroxytryptamine (³H-5-HT) in the pineal and some brain regions in rainbow trout, Salmo gairdneri, were studied by quantitative and qualitative autoradiography.Among the tissues examined, the pineal shows the highest and most rapid uptake of the two isotopes. Maximum incorporation of ³H-5-HTP is achieved by 2 h and that of ³H-5-HT by 20 minutes post injection. At the end of the six-hour experimental period, a significantly high amount of radioactivity is still detectable in the pineal. The results indicate a much slower turnover of the two indoles, especially 5-HTP, in the trout than is known for mammalian tissues.Both the ependymal supporting cells and the receptor cells of the pineal localize these isotopes. In contrast, the intrapineal neurons remain unlabeled. This is taken to suggest lack of capacity of these cells to metabolize 5-HTP and 5-HT.In the circumventricular regions, the two indoles occur in the ependyma of the recessus lateralis and the recessus praeopticus. The label is also localized in the neuropil and the neurons of the nuclei recessus lateralis and praeopticus. Semiquantitative estimates reveal a significant labeling of these areas only 20 minutes after injection, although a weak but inconsistent labeling of the ependyma is evident at 5 minutes. The significance of these results is discussed in regard to (a) normal capacity of circumventricular areas to metabolize indoles and (b) a possible chemical interaction between the pineal and the brain involving a direct pineal-cerebrospinal fluid pathway.Supported in part by a grant to the senior author from the University of Kentucky Research FoundationThe authors wish to thank the Department of Fish and Game, Kentucky, for supplying rainbow trout. The technical assistance of Mrs. Munira Nasser is gratefully acknowledged     

Increased acoplasmic transport of H3-dopamine in nigro-neostriatal neurons after reserpine

Recent evidence suggests that dopamine can undergo axoplasmic transport in nigro-neostriatal neurons by binding to amine storage granules. In the present experiments it was demonstrated that reserpine pretreatment (10 mg/kg) 24 hours before stereotaxic injections of ³H-DOPA or ³H-dopamine into the substantia nigra increases the amount of ³H-dopamine transported to the neostriatum by about 300 percent. The activity recovered from the substantia nigra was significantly reduced by reserpine pretreatment however. Stereotaxic injection of ¹⁴C-leucine into the substantia nigra indicated that neither fast nor slow axoplasmic transport of protein was influenced by reserpine pretreatment in these same neurons. The increased transport of dopamine appears therefore to be due to a relatively selective action of reserpine. The results suggest that reserpine either (i) increases the binding of dopamine to newly synthesized amine storage granules, (ii) increases the number of newly synthesized amine storage granules, or (iii) accelerates the rate of transport of amine storage granules. In addition, the results support the view that reserpine can increase the membrane permeability of adrenergic neurons to the outward movement of catecholamines.     

Amphetamine-induced release of dopamine from the substantia nigra in vitro

Incubation of chopped tissue from the substantia nigra of the rat brain with d-amphetamine resulted in a significant release of [³H]dopamine into the incubation medium. This effect was observed with both exogenous [³H]dopamine previously taken up by the tissue and [³H]dopamine endogenously synthesized from L-[3,5-³H]tyrosine. The observed release was greater in magnitude when the apparent conversion of released dopamine to 3-methoxytyramine was taken into account. The relevance of the present results to the previously postulated self-inhibition by dopaminergic neurons of the substantia nigra pars compacta is discussed. The present data also provide support for the concept that catechol-O-methyltransferase (E.C.2.1.1.6.) is located primarily extraneuronally in brain.     

Inhibition by β-carbolines of monoamine uptake into a synaptosomal preparation: Structure-activity relationships

The potency of a series of β-carboline compounds to inhibit ³H-serotonin (³H-5-HT) uptake into a synaptosomal suspension from mouse brain was studied. The $\text{in vitro}$ structure-activity study showed the tetrahydro-β-carbolines to be the most potent inhibitors compared to unsaturated β-carbolines. $\text{In vitro}$ inhibition of ³H-norepinephrine (³H-NE) and ³H-dopamine (³H-DA) uptake was determined for some tetrahydro-β-carbolines, and the degree of inhibition of uptake of these amines was less than that for ³H-5-HT (EC50s being 5–13 times those for ³H-5-HT). The tetrahydro-β-carbolines were also found to effectively inhibit ³H-5-HT but not ³H-NE or ³H-DA uptake when they were administered intra-peritoneally. These results suggest that the behavioral effects of the tetrahydro-β-carbolines which have been reported previously may be due to a relatively selective involvement of the serotonergic neurotransmitter system.     

Effects of bicuculline on [3H]SR 95531 binding in discrete regions of rat brains

Effects of bicuculline in vitro, and acute and chronic treatment of a subconvulsive dose of bicuculline on [³H]SR 95531 binding to discrete regions of rat brains were studied in Sprague-Dawley rats. Scatchard analysis of the binding isotherms exhibited two populations of binding sites for [³H]SR 95531 in frontal cortex, cerebellum, striatum and substantia nigra. The apparent K_D for high-affinity sites was significantly increased in the frontal cortex and cerebellum in the presence of bicuculline (1 M) with no change in B_max. In contrast, the apparent affinity for low-affinity sites was not altered in the presence of bicuculline in these regions, whereas the B_max was significantly decreased in the cerebellum. Following acute (2 mg/kg, i.p.) or chronic (2 mg/kg, i.p. for 10 days) bicuculline treatment, [³H]SR 95531 binding was also investigated in various regions of brains. The acute bicuculline treatment did not affect the [³H]SR 95531 binding in any of the regions studied. In contrast, apparent affinity for [³H]SR 95531 was significantly decreased in low-affinity sites of all regions studied in rats treated chronically with bicuculline. The B_max values of high and low-affinity sites were significantly increased in the cerebellum with no change in the frontal cortex, striatum and substantia nigra. The present study demonstrates that chronic bicuculline treatment decreases apparent affinity of [³H]SR 95531 binding whereas the treatment increases apparent affinity of [³H]SR 95531 and [³H]muscimol binding in the cerebellum may be due to true up-regulation of GABA binding sites, involving increased de novo synthesis of receptor protein. These results also suggest that properties of cerebellar GABA_A receptors are different from those in other regions.Abbreviations used GABA -aminobutyric acid - FC frontal cortex - CB cerebellum - ST striatum - SN substantia nigra     

AMP-activated protein kinase is activated in Parkinson’s disease models mediated by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine

The selective loss of dopaminergic neurons in the substantia nigra pars compacta is a feature of Parkinson’s disease (PD). 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced neurotoxicity is the most common experimental model used to investigate the pathogenesis of PD. Administration of MPTP in mice produces neuropathological defects as observed in PD and 1-methyl-4-pyridinium (MPP⁺) induces cell death when neuronal cell cultures are used. AMP-activated protein kinase (AMPK) is a key regulator of energy homeostasis. In the present study, we demonstrated that AMPK is activated by MPTP in mice and MPP⁺ in SH-SY5Y cells. The inhibition of AMPK by compound C resulted in an increase in MPP⁺-induced cell death. We further showed that overexpression of AMPK increased cell viability after exposure to MPP⁺ in SH-SY5Y cells. Based on these results, we suggest that activation of AMPK might prevent neuronal cell death and play a role as a survival factor in PD.     

Innervation of the substantia nigra

This review describes inputs to neurons in the substantia nigra and contrasts them with the action of agonists for the putative receptors through which they act. Special emphasis is placed on gamma-aminobutyric acid (GABA) afferents. Dopamine released from the somato-dendritic compartment of dopamine neurons and endocannabinoids released from dopamine and GABA neurons serve as retrograde signals to modulate GABA release. The release may be fostered by Ca²⁺ release from intracellular Ca²⁺ stores, which in turn may be influenced by the inputs.The studies summarized in this review were supported by the Deutsche Forschungsgemeinschaft (FOR 302/TP-B1)     

Dopamine in a molluscan nervous system: Synthesis and fluorescence histochemistry

The nervous system of the pond snail, Helisoma trivolvis, was investigated for its ability to synthesize and accumulate ³H-catecholamines from ³H-tyrosine. ³H-Dopamine, but not ³H-norepinephrine, was synthesized by several ganglia. The highest accumulations were found in the cerebral, pedal, and buccal ganglia. The Falck-Hillarp and glyoxylic acid fluorescence histochemical techniques were applied to the buccal ganglia to visualize dopamine-containing cells. Fluorescing cells were found on both dorsal and ventral sides of the ganglion. Peripheral nerves of the buccal ganglia also displayed catecholamine fluorescence and accumulated ³H-dopamine. However, no ³H-dopamine synthesis occurred in the cerebral-buccal connectives, which connect the buccal ganglia with the rest of the central nervous system. Therefore, we conclude that there is a dopaminergic system intrinsic to the buccal ganglia and their peripheral targets.     

Caffeine injection raises brain tryptophan level,but does not stimulate the rate of serotonin synthesis in rat brain

Acute caffeine injection (100 mg/kg) elevates brain levels of tryptophan (TRP), serotonin (5HT), and 5-hydroxyindoleacetic acid (5HIAA). Experiments were performed to determine if the increases in 5HT and 5HIAA result from a stimulation of the rate of 5HT synthesis. Both the rate of 5-hydroxytryptophan (5HTP) accumulation following NSD-1015 injection, and the rate of ³H-5-hydroxyindole synthesis from ³H-tryptophan were measured $\text{in vivo}$ following caffeine administration and found to be normal. Tryptophan hydroxylase activity, as measured $\text{in vitro}$ in brain homogenates, was also unaffected by caffeine. The results suggest that the elevations in brain 5HT and 5HIAA levels produced by caffeine do $\text{not}$ reflect enhanced 5HT synthesis, despite significant elevations in brain TRP level. Some other mechanism(s) must therefore be responsible for these elevations in brain 5-hydroxyindole levels.     

Presence and Characterization of the Dopamine Transporter in Human Resting Lymphocytes

The paucity of information on the presence of the dopamine transporter (DAT) in blood cells, prompted us to explore it in human resting lymphocytes by means of the binding of ³H-WIN 35,428, a compound which is currently considered the most selective ligand for labelling this protein, and by means of the specific reuptake of ³H-dopamine (³H-DA). Lymphocytes were obtained by 15 healthy subjects. The results showed the presence of a specific and saturable binding of ³H-WIN 35,428, which labelled one site only. A specific ³H-DA reuptake was also measured. The pharmacological characterization of both binding and reuptake was overlapping. These findings would indicate that human resting lymphocytes carry the DAT, whose functions in periphery are still unknown.     

Release of intracellular Zn<Superscript>2+</Superscript> in cultured neurons after brief exposure to low concentrations of exogenous nitric oxide

Several studies have shown intracellular Zn²⁺ release and concomitant cell death after prolonged exposure to exogenous NO. In the present study, we investigated whether cortical neurons briefly exposured to exogenous NO would demonstrate similar levels of intracellular Zn²⁺ release and subsequent cell death. Cortical neurons were loaded with the Zn²⁺ selective fluorophore FluoZin-3 and treated with various concentrations of the NO generator, spermine NONOate. Fluorescence microscopy was used to detect and quantify intracellular Zn²⁺ levels. Concomitant EDTA perfusion was used to eliminate potential effects of extracellular Zn²⁺. Neurons were perfused with the heavy metal chelator TPEN to selectively eliminate Zn²⁺ induced fluorescence changes. A significant increase of intracellular fluorescence was detected during a 5 min perfusion with spermine NONOate. The increase in intracellular Zn²⁺ release appeared to peak at 1 μM spermine NONOate (123.8 ± 28.5%, increase above control n = 20, P < 0.001). Further increases in spermine NONOate levels as high as 1 mM failed to further increase detectable intracellular Zn²⁺ levels. The NO scavenger hemoglobin blocked the effects of spermine NONOate and the inactive analog of the spermine NONOate, spermine, was without effect. No evidence of cell death induced by any of the brief treatments with exogenous NO was observed; only prolonged incubation with much larger amounts of exogenous NO resulted in significant cell death. These data suggest that in vivo release of NO may cause elevations of intracellular Zn²⁺ in cortical neurons. The possibility that release of intracellular Zn²⁺ in response to NO could play a role in intracellular signaling is discussed.     

Effect of muscarinic agonists on the release of 3H-norepinephrine and 3H-dopamine by potassium and electrical stimulation from rat brain slices

The effect of acetylcholine (ACh) on the release of ³H-norepinephrine (NE) from the cerebellum and ³H-dopamine (DA) from the striatum following the administration of potassium chloride or electrical field stimulation was studied in superfused brain slices. ACh in conc. of 10^?6 and 10^?5M significantly inhibited the release of ³H-NE from cerebellar slices and ³H-DA from striatal slices following 2 min infusion of 50mM potassium chloride. In addition ACh produced a dose-dependent inhibition of the release of ³H-DA from striatal slices following electrical stimulation. The results obtained in the present study are quite consistent with the concept that a muscarinic inhibitory mechanism may be operative on noradrenergic and dopaminergic neurons in the brain.     

Tryptamine transport in rat brain slices: A comparison with 5-hydroxytryptamine

The uptake of [¹⁴C]tryptamine (¹⁴C-T) and [³H]serotonin (³H-5HT) into slices of rat hypothalamus (HT), fronto-parietal cortex (CX), and caudate nucleus (Cau) has been investigated. In all three brain areas, the uptake of³H-5HT at 37°C was much greater than that in an ice-bath at 1.0–1.5°C. In contrast, the uptake of¹⁴C-T at 37°C was not much greater than uptake at 1.0–1.5°C. While markedly different amounts of³H-5HT were accumulated by each of the brain areas studied, the regional uptake of¹⁴C-T was quantitatively similar. In general the uptake of¹⁴C-T was inhibited less than³H-5HT by cocaine, DNP, ouabain, and decreased Na⁺ concentrations. Similarly,¹⁴C-T was less susceptible to serotonin uptake inhibitors except in the caudate. It was concluded that though a common indoleamine uptake system accumulates both T and 5HT, a non-specific low affinity or diffusional process also transports both amines and is predominantly responsible for T, but not 5HT, uptake. The spontaneous release, or wash-out, of¹⁴C-T from the caudate was much faster than that of³H-5HT. In addition, while depolarizing stimuli caused little or no release of¹⁴C-T, large releases of³H-5HT were observed. T, therefore, does not behave like a conventional neurotransmitter.     

The mast cells of the mammalian central nervous system

Summary The uptake and turnover of the precursors of heparin and heparan sulphate (³⁵S), and of serotonin (³H-5-hydroxytryptophan; ³H-5-HTP) by mast cells (MCs) and neurolipomastocytoid cells (NLMs) of the mammalian CNS were studied. Rats of varying age from 1 day to early adulthood were injected with ³⁵S (as a solution of sodium sulphate) and ³H-5-HTP, and allowed to survive for different periods. Several fixatives, as well as lengths of exposure to photographic emulsion, were tested. The monoamine oxidase inhibitor, nialamide, needed to be given before uptake of ³H-5-HTP could be adequately demonstrated especially in the CNS. ³⁵S was taken up by structures known to contain a great deal of sulphate, viz., cartilage and goblet cells, as well as by MCs of adult liver and thymus, but not by MCs of adult CNS. All of these structures, including the MCs of CNS, took it up much more avidly in babies than in adults. ³H-5-HTP had a similar effect in that the MCs of younger animals took it up more strongly than did those of adults. In the MCs of the CNS uptake seemed to increase up to 15 days of age but then to decrease as maturity was reached. The MCs are located in the leptomeninges of the cerebral hemispheres as well as the choroid fissures and dorsal thalamus. The NLMs, ubiquitously distributed in the leptomeninges as well as perivascularly, showed less radioactivity with both markers in fewer cells and only in babies. The possible significance of these results is discussed. It is concluded that MCs, and to a lesser extent NLMs, of the CNS do permit entry of these markers, and that the more immature the cells, the heavier the load that enters. Adult cells do not seem to take up precursor suggesting little or no turnover.Supported in part by a grant from the Incentive Plan of the Medical School, American University of Beirut, and by Research Support Grant MA-004 from the College of Graduate Studies, University of Kuwait     

Métabolisme des indolamines dans l'organe pinéal de Lacerta (Reptiles,Lacertiliens)

Résumé Les sites d'incorporation du 5-HTP-³H (5-hydroxytryptophane-³H) et de rétention de ses dérivés ont été recherchés dans l'organe pinéal de Lacerta vivipara (J.).Les animaux reçoivent au cours de l'après-midi (aux environs de 15h, le 5/VII, T°=21 à 28°C) une injection intrapéritonéale de 5-HTP-³H. Ils sont sacrifiés après 2, 10, 15, 21, 30 minutes, 1, 2, 3, 4, 5, 10, 15 heures et 1, 2, 3, 4, 5, 6, 7, jours.De l'étude qualitative et quantitative, il ressort que des réactions radioautographiques spécifiques apparaissent dans les photorécepteurs rudimentaires sécrétoires (=PRS) entre 2 et 10 minutes. La concentration de radioactivité atteint un maximum au niveau des PRS, après 5 heures. Puis l'intensité du marquage diminue pour disparaître entre 2 et 3 jours. La radioactivité des PRS est toujours concentrée dans les régions de grains denses de sécrétion protéique (500 à 3400 Å) d'origine golgienne. Les autres compartiments cellulaires sont nettement moins radioactifs.Les autres cellules (interstitielles de type épendymaire; nerveuses sensorielles et probablement noradrénergiques) de l'organe pinéal et les régions voisines du cerveau ne retiennent pas significativement les composés radioactifs.Ces résultats et ceux antérieurs, cytophysiologiques et biochimiques, montrent le rôle important des PRS dans la biosynthèse et le stockage de la sérotonine. D'autres conclusions concernant la biosynthèse et le métabolisme des indolamines ne seront exposées que dans une étude ultérieure où l'incorporation du 5-HTP-³H est envisagée dans les conditions expérimentales. Le turnover des indolamines semble plus lent chez Lacerta que chez les Mammifères.

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Biosynthesis and metabolism of indolamines in the pineal organ of Lacerta (Reptiles, Lacertilians)I. Selective incorporation of ³H-5-HTP and retention of its derivatives in the secretory rudimentary photoreceptor cells

Summary The sequence of incorporation and utilization of ³H-5-hydroxytryptophan (³H-5-HTP) has been examined in the pineal organ of adult lizard (Lacerta vivipara J.).Each animal was given ³H-5-HTP in the afternoon (about 15.00 h in July, T°=21–28°C). The lizards were sacrificed 2, 10, 15, 21, 30 minutes, 1, 2, 3, 4, 5, 10, 15 hours and 1, 2, 3, 4, 5, 6, 7 days after administration.The cellular distribution of radioactivity was studied by qualitative and quantitative radioautography. The radioautographs show selective labelling, appearing in the SRP (secretory rudimentary photoreceptors) after 2–10 minutes. The labelling reaches a maximum over the SRP within 5 hours and subsequently disappears between 2 and 3 days. These radioautographic reactions are always most concentrated in the regions of proteinaceous secretory granules (500–3400 Å) originating from the Golgi complex. The other components of the SRP account only for a minor fraction of the labelling. Supporting and nervous (sensory and probably noradrenergic) cells of the pineal organ, as well as neighbouring brain structures do not retain significantly the radioactive compounds.These results, correlated with previous cytophysiological and biochemical studies, are consistant with an important role of SRP in the biosynthesis and storage of serotonin. Conclusions concerning the biosynthesis and metabolism of indolamines are presented in a subsequent paper where the incorporation of ³H-5-HTP is studied under experimental conditions. The turnover of indolamines seems to be slower in Lacerta than in mammals.

Les auteurs remercient vivement M. Robert Meiniel pour sa collaboration efficace dans la collecte des Lézards, ce qui nous a permis de travailler sur des lots homogènes.     

Voltage-operated Ca2+ channels regulate dopamine release from somata of dopamine neurons in the substantia nigra pars compacta

Dopamine (DA) neurons release DA not only from axon terminals at the striatum, but from their somata and dendrites at the substantia nigra pars compacta (SNc). Released DA may auto-regulate further DA release or modulate non-DA cells. However, the actual mechanism of somatodendritic DA release, especially the Ca²⁺ dependency of the process, remains controversial. In this study, we used amperometry to monitor DA release from somata of acutely isolated rat DA neurons. We found that DA neurons spontaneously released DA in the resting state. Removal of extracellular Ca²⁺ and application of blockers for voltage-operated Ca²⁺ channels (VOCCs) suppressed the frequency of secretion events. Activation of VOCCs by stimulation with K⁺-rich saline increased the frequency of secretion events, which were also sensitive to blockers for L- and T-type Ca²⁺ channels. These results suggest that Ca²⁺ influx through VOCCs regulates DA release from somata of DA neurons.     

In vivo release of adenosine from cat basal ganglia—studies with a push pull cannula

The release of newly synthesized [³H]adenosine has been studied in vivo in cat caudate nucleus and substantia nigra, using a push pull cannula. In the presence of [³H]adenosine as precursor, spontaneously released [³H]adenosine was easily detectable in superfusates of the push pull cannula. In the caudate nucleus, potassium and veratridine caused a marked and reversible increase in [³H]adenosine release. The effect of veratridine was completely blocked by tetrodotoxin (TTX) although TTX had no action by itself. Ouabain as well as glutamate, also markedly increased the release of [³H]adenosine.The specific 5′ nucleotidase inhibitor α,β-methylene ADP, did not alter the increase in the amount of [³H]adenosine obtained by veratridine, although it diminished the spontaneous release of [³H]adenosine by about 20%.Push pull cannulae were also implanted simultaneously into the caudate nucleus and substantia nigra. Potassium applied into the caudate nucleus increased the local release of adenosine but did not change that observed in the substantia nigra. When potassium was applied into the substantia nigra, it also increased the local release of adenosine but did not change that observed in the caudate nucleus.The results are discussed in term of the possible existence of “purinergic neurons” and of the relation between the adenosine release and central nervous activity.     

3H-dopamine uptake by synaptic storage vesicles of rat whole brain and brain regions

A crude preparation of neurotransmitter storage vesicles was obtained by differential centrifugation and the ability to take up ³H-dopamine was evaluated $\text{in}$$\text{vitro}$. The uptake was highly dependent on temperature, had an absolute requirement for ATP and Mg²⁺ and was inhibited totally by reserpine. The uptake displayed saturation kinetics, with a Km of 0.26 μM at 20°. ³H-dopamine uptake was inhibited competitively by norepinephrine, with a Ki of 0.69 μM. Vesicles derived from a primarily dopaminergic region (corpus striatum) exhibited the same ratio of uptakes of ³H-dopamine/³H-norepinephrine as did those from a primarily noradrenergic region (cerebral cortex). These results indicate that viable rat brain storage vesicles can be readily prepared and used for evaluation of pharmacologic effects on ³H-dopamine uptake, and that dopaminergic and noradrenergic storage vesicles exhibit identical uptake properties.     

Ultrastructural relationship between monoamine- and TRH-containing axons in the rat median eminence as revealed by combined autoradiography and immunocytochemistry in the same tissue section

Summary The correlation of dopamine (DA)-, noradrenaline (NA)- or serotonin (5HT)-containing neurons and thyrotropin releasing hormone (TRH)-containing neurons in the median eminence of the rat, as well as the coexistence of monoamines (MA) and TRH in the neurons, were examined by subjecting ultrathin sections to a technique that combines MA autoradiography and TRH immunocytochemistry. The distribution and localization of silver grains after ³H-MA injection were examined by application of circle analysis on the autoradiographs.TRH-like immunoreactive nerve terminals containing the immunoreactive dense granular vesicles were found to have an intimate contact with monoaminergic terminals labeled after ³H-DA, ³H-NA or ³H-5HT infusion in the vicinity of the primary portal capillaries in the median eminence. Synapses between TRH-like immunoreactive axons and MA axons labeled with silver grains, however, have not been observed to date. Findings suggesting the coexistence of TRH and MA in the same nerve terminals or the uptake of ³H-MA into TRH-like immunoreactive nerve terminals, where silver grains after ³H-MA injection were concurrently localized in TRH-like immunoreactive nerve terminals, were rarely observed in the median eminence. Percentages of the nerve terminals containing both immunoreactive granular vesicles and silver grains after ³H-MA injection to total nerve terminals labeled after ³H-MA infusion silver grains were equally very low in ³H-DA, ³H-NA or ³H-5HT, amounting to less than 6.1%.This work was supported in part by grant-in-aid for scientific research from the Japan Ministry of Education (No. 557018).     

Dopaminergic neurons in explants of substantia nigra in culture

Explants of substantia nigra and corpus striatum obtained from newborn rats were maintained in tissue culture for up to six days. Explants of substantia nigra exhibited a net increase in the ability to take up H³-dopamine, a process associated with the dopaminergic neurons; in contrast, the explants of corpus striatum showed a rapid loss in this ability to accumulate H³-dopamine. After three days in culture, the specific activity of tyrosine hydroxylase and monoamine oxidase had decreased 50% in explants of substantia nigra. A medium including fetal calf serum and chick embryo extracts was necessary for the increase in H³-dopamine uptake, and nerve growth factor had an inhibitory effect. Histofluorescent examination of nigral explants cultured for three days indicated morphologically normal dopaminergic neurons.