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1.
Although the functional neuroanatomy of the midbrain dopamine (mDA) system has been well characterized, the literature regarding its capacity to innervate the hippocampal formation has been inconsistent. The lack of expression of definitive markers for dopaminergic fibers, such as the dopamine transporter, in the hippocampus has complicated studies in this area. Here we have used immunohistochemical techniques to characterize the tyrosine hydroxylase expressing fiber network in the rat hippocampus, combined with retrograde tracing from the dentate gyrus to assess the capacity for afferent innervation by mDA neurons. The results indicate that virtually all tyrosine hydroxylase fibers throughout the hippocampus are of a noradrenergic phenotype, while the overlying cortex contains both dopaminergic and noradrenergic fiber networks. Furthermore, retrograde tracing from the dentate gyrus robustly labels tyrosine hydroxylase-immunoreactive noradrenergic neurons in the locus coeruleus but not mDA neurons.  相似文献   

2.
The influence of an i.v. perfusion of buspirone on the firing rate of central monoaminergic neurons was studied in rats anaesthetized with chloral hydrate. Buspirone increased the firing rate of A10 dopaminergic neurons and blocked the inhibitory effect of iontophoretically applied dopamine on these neurons. A slight attenuation of the inhibitory effect of iontophoretically applied GABA was also observed. Buspirone increased the firing rate of locus coeruleus (LC) noradrenergic neurons and induced an attenuation of the inhibitory effect of iontophoretically applied clonidine. A slight attenuation of the inhibitory effect of iontophoretically applied GABA was also observed. Furthermore buspirone was a very potent inhibitor of the firing rate of dorsal raphe (DR) serotonergic neurons. It is concluded that activation of A10 neurons by buspirone is due to blockade of dopaminergic autoreceptors and that activation of LC neurons is related to blockade of alpha-2 autoreceptors. The significance of the interaction with gabaergic inhibition is unclear. The mechanisms involved in the inhibition of DR neurons remain to be investigated.  相似文献   

3.
The noradrenergic neurons of the locus coeruleus (LC) are damaged in Parkinson's disease (PD). Neurotoxin ablation of the LC noradrenergic neurons has been shown to exacerbate the dopaminergic toxicity of MPTP, suggesting that the noradrenergic system protects dopamine neurons. We utilized mice that exhibit elevated synaptic noradrenaline (NA) by genetically deleting the noradrenaline transporter (NET), a key regulator of the noradrenergic system (NET KO mice). NET KO and wild-type littermates were administered MPTP and striatal dopamine terminal integrity was assessed by HPLC of monoamines, immmunoblotting for dopaminergic markers and tyrosine hydroxylase (TH) immunohistochemistry. MPTP significantly reduced striatal dopamine in wild-type mice, but not in the NET KO mice. To confirm that the protection observed in the NET KO mice was due to the lack of NET, we treated wild-type mice with the specific NET inhibitor, nisoxetine, and then challenged them with MPTP. Nisoxetine conferred protection to the dopaminergic system. These data indicate that NA can modulate MPTP toxicity and suggest that manipulation of the noradrenergic system may have therapeutic value in PD.  相似文献   

4.
The locus coeruleus of the rat is richly innervated by many aminergic neurons varying in amine content and in site of origin. There are adrenergic and noradrenergic neurons originating in the medulla oblongata, dopaminergic from the hypothalamus, serotonergic from the mesencephalon and also intrinsic noradrenergic neurons in the locus coeruleus complex. Of these, adrenergic and dopaminergic inputs appear relatively specific and powerful.  相似文献   

5.
The occurrence of catechol-O-methyltransferase (COMT) in presynaptic neurons remains controversial. This study utilized dopaminergic and noradrenergic toxins to assess the presence of COMT in the presynaptic neurons originating from the substantia nigra, ventral tegmental area or locus coeruleus. Destruction of dopaminergic and noradrenergic neurons was assessed by measuring the dopamine and noradrenaline content in the projection areas of these neurons. Additionally, COMT protein expression and activity were examined in several projection areas to determine whether there are any changes in COMT values. Colocalization studies were done to identify COMT-containing postsynaptic neurons. Despite successful lesioning of dopaminergic and noradrenergic neurons, no changes in COMT protein expression or activity could be noted. These results strongly suggest that COMT is not present in presynaptic dopaminergic and noradrenergic neurons. There was a high colocalization of COMT with the GABAergic marker of short neurons both in the striatum and cortex but only a weak, if any, with the cholinergic marker in the cortex.  相似文献   

6.
The response of brain serotonergic (dorsal raphe), noradrenergic (locus coeruleus) and dopaminergic (pars compacta, substantia nigra) neurons to lisuride hydrogen maleate, a non-hallucinogenic ergot, was studied in the rat using extracellular single cell recording techniques. As has been previously reported for LSD, minute intravenous infusions of lisuride (1–5 μg/kg) produced a complete but reversible suppression of raphe unit spontaneous firing. A similar depressant response was noted when lisuride was applied to raphe units by microiontophoresis. In contrast, locus coeruleus neurons were accelerated by the drug at somewhat higher doses (25–50 μg/kg). Pars compacta neurons demonstrated a predominately depressant response to lisuride but many of the cells tested were only partially suppressed and a few units were accelerated. It is suggested that the marked alterations in central monoamine turnover which have been observed with lisuride are directly paralled by changes in impulse flow in monoaminergic neurons. The fact that lisuride has powerful suppressant effects on central serotonergic neurons but no psychotomimetic actions in man challenges the “serotonin theory” of hallucinogensis; however, other pharmacological properties may account for lisuride's lack of hallucinogenic effects. Further studies with lisuride may provide insight into those drug characteristics critical to the presence or absence of hallucinogenic action.  相似文献   

7.
Parkinson's disease is the most common movement disorder characterized by dopaminergic dysfunction and degeneration. Loss-of-function mutations in the DJ-1 gene have been linked to autosomal recessive forms of early-onset familial Parkinson's disease. DJ-1 is thought to play roles in protection of cells against oxidative stress and in maintenance of the normal dopaminergic function in the nigrostriatal pathway. Here we investigate the consequence of both DJ-1 inactivation and aging in mice. We found that DJ-1-/- mice at the age of 24–27 months have normal numbers of dopaminergic neurons in the substantia nigra and normal levels of dopamine and its major metabolites in the striatum. The number of noradrenergic neurons in the locus coeruleus is also unchanged in DJ-1-/- mice. Moreover, there is no accumulation of oxidative damage or inclusion bodies in aged DJ-1-/- brains. Together, these results indicate that loss of DJ-1 function alone is insufficient to cause nigral degeneration and oxidative damage in the life span of mice.  相似文献   

8.
The histofluorescence method allows the study of the prenatal development of monoamines neurons in the foetal rat brain. Certain patterns of this development can be defined: the locus niger and the raphe appears fluorescent on the 14th day, the locus coeruleus on the 15th day. These systems differentiate independently in various areas of the neural axis. Their maturation are progressive: first for the DA system, then for the NA and the 5 HT systems. The mechanisms for synthesis and storage of amines precede the complete development of the effector structures.  相似文献   

9.
G. Morel  G. Pelletier 《Peptides》1986,7(6):1197-1199
The anatomical relationships between endorphinic neurons and dopaminergic neurons were evaluated in the rat hypothalamus using a combination of immunocytochemistry and autoradiography. In the arcuate nucleus, endorphinic endings were seen making contacts with dopaminergic cell bodies and dendrites. No synapsis could be observed at the sites of contacts. These results strongly suggest that the endorphinic neurons are directly acting on dopaminergic neurons to modify the release of dopamine into the pituitary portal system.  相似文献   

10.
Dopaminergic neurons   总被引:2,自引:0,他引:2  
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11.
Dopamine covalently modifies and functionally inactivates parkin   总被引:12,自引:0,他引:12  
Inherited mutations in PARK2, the gene encoding parkin, cause selective degeneration of catecholaminergic neurons in the substantia nigra and locus coeruleus of the brainstem, resulting in early-onset parkinsonism. But the role of parkin in common, sporadic forms of Parkinson disease remains unclear. Here we report that the neurotransmitter dopamine covalently modifies parkin in living dopaminergic cells, a process that increases parkin insolubility and inactivates its E3 ubiquitin ligase function. In the brains of individuals with sporadic Parkinson disease, we observed decreases in parkin solubility consistent with its functional inactivation. Using a new biochemical method, we detected catechol-modified parkin in the substantia nigra but not other regions of normal human brain. These findings show a vulnerability of parkin to modification by dopamine, the principal transmitter lost in Parkinson disease, suggesting a mechanism for the progressive loss of parkin function in dopaminergic neurons during aging and sporadic Parkinson disease.  相似文献   

12.
Dopaminergic neurons are more vulnerable than other types of neurons in cases of Parkinson disease and ischemic brain disease. An increasing amount of evidence suggests that endogenous dopamine plays a role in the vulnerability of dopaminergic neurons. Although glutamate toxicity contributes to the pathogenesis of these disorders, the sensitivity of dopaminergic neurons to glutamate toxicity has not been clarified. In this study, we demonstrated that dopaminergic neurons were preferentially affected by glutamate toxicity in rat mesencephalic cultures. Glutamate toxicity in dopaminergic neurons was blocked by inhibiting extracellular signal-regulated kinase (ERK), c- jun N-terminal kinase, and p38 MAPK. Furthermore, depletion of dopamine by α-methyl- dl - p -tyrosine methyl ester (α-MT), an inhibitor of tyrosine hydroxylase (TH), protected dopaminergic neurons from the neurotoxicity. Exposure to glutamate facilitated phosphoryration of TH at Ser31 by ERK, which contributes to the increased TH activity. Inhibition of ERK had no additive effect on the protection offered by α-MT, whereas α-MT and c- jun N-terminal kinase or p38 MAPK inhibitors had additive effects and yielded full protection. These data suggest that endogenous dopamine is responsible for the vulnerability to glutamate toxicity of dopaminergic neurons and one of the mechanisms may be an enhancement of dopamine synthesis mediated by ERK.  相似文献   

13.
Topography of catecholamine-containing (CA) neurons of the cat locus coeruleus was studied using a combination of the catecholamine histofluorescence method and rapid embedding of the brain tissue into the paraffin wax. The distribution of CA neurons was examined at frontal and sagittal sections of the brain stem. Unlike that shown previously the quantity of CA neurons in the rostral pole of the locus coeruleus was somewhat higher while at the frontal level of P--2.0-P--4.0 the significant number of CA cells of the locus coeruleus was localized more ventromedially.  相似文献   

14.
In the amphibians Rana perezi and Xenopus laevis, the involvement of cholinergic and catecholaminergic neurons in the relay of basal ganglia inputs to the tectum was investigated. Tract-tracing experiments, in which anterograde tracers were applied to the basal ganglia and retrograde tracers to the optic tectum, were combined with immunohistochemistry for choline acetyltransferase and tyrosine hydroxylase. The results of these experiments suggest that dopaminergic neurons of the suprachiasmatic nucleus and pretectal region, noradrenergic cells of the locus coeruleus and the cholinergic neurons of the pedunculopontine and laterodorsal tegmental nuclei mediate at least part of the basal ganglia input to the tectum in anurans.  相似文献   

15.
Extracellular single-cell recordings were performed on rat brain slices to compare the effects of morphine on noradrenergic neurons of the locus coeruleus (LC) and on dopaminergic neurons of the ventral tegmental area (VTA). Morphine inhibited the firing of LC neurons at very low concentrations. The mean IC50 was 13.4 +/- 1nM (mean +/- SEM) (n = 7). Moreover, the inhibitory effect of morphine was identical in slices obtained from rats anesthetized with chloral hydrate or from non-anesthetized rats. On the contrary, morphine did not have any influence on the firing of most VTA neurons (N = 20) up to 100 microM, and did not modify the sensitivity of their autoreceptors (N = 8). It is concluded that morphine potently inhibits the firing of LC neurons in vitro both in slices of anesthetized and not anesthetized animals and has no direct excitatory effect on VTA dopaminergic neurons of the rat.  相似文献   

16.
The role of glial cell-line derived neurotrophic factor (GDNF) and neurotrophins in the development of locus coeruleus noradrenergic neurons was evaluated. We found that two neurotrophic factors previously reported to prevent the degeneration of lesioned adult central noradrenergic neurons, GDNF and neurotrophin 3 (NT3), do not play significant roles in the prenatal development of locus coeruleus noradrenergic neurons, as demonstrated by: (1) the lack of alterations in double Gdnf/Nt3 null mutant mice; and (2) the lack of survival-promoting effects of GDNF and/or NT3 in rat E13.5 primary cultures. In contrast, null mutant mice for TrkB, the tyrosine kinase receptor for brain-derived neurotrophic factor and neurotrophin 4, displayed a clear loss of locus coeruleus noradrenergic neurons. In accordance with this, treatment of rat E13.5 primary cultures with TrkB ligands prevented the early loss of noradrenergic neurons and maintained their survival for up to 6 days in vitro. Moreover, an additional 5-10-fold increase in the number of tyrosine hydroxylase positive noradrenergic neurons was detected after 12 hours in culture. This second effect of TrkB ligands involved neither proliferation nor survival, because the number of BrdU- or TUNEL-positive noradrenergic neurons did not change and the effect was elicited by delayed administration of either factor. Because TrkB ligands increased the number of tyrosine hydroxylase-positive cells expressing Phox2a, a paired homeodomain protein required for the development of locus coeruleus noradrenergic neurons, but did not affect the number of Phox2a-positive tyrosine hydroxylase-negative cells, our results suggest that the second effect of TrkB ligands may involve promoting or inducing a noradrenergic phenotype. In summary, our findings suggest that, unlike NT3 and GDNF, TrkB ligands are required and sufficient to promote the development of central noradrenergic neurons.  相似文献   

17.
Summary Nerve fiber production by central noradrenaline (NA), dopamine (DA), and 5-hydroxytryptamine (5-HT) neurons was studied using immature brain tissue containing locus coeruleus, substantia nigra, or ventro-caudal medulla oblongata respectively, homologously grafted to the anterior chambers of rat eyes. A method was developed for quantitation of the fiber growth that occurs on the sympathetically denervated host irides as observed in whole mounts using Falck-Hillarp fluorescence histochemistry and by the uptake of 3H-metaraminol into the irides. Survival and growth in oculo of the three different areas were characterized by direct observations through the cornea in vivo for a number of pre- and postnatal stages of development of the donors, and the findings correlated to the degree of monoamine nerve fiber production on the host irides. The growth of fetal locus coeruleus transplants on irides was quantified using both fluorescence microscopical measurements of innervated areas and uptake of 3H-metaraminol. The uptake was well correlated to the histochemical measurements on individual irides, thus validating the fluorescence microscopical measurements of fiber production. The fiber growth of fetal locus coeruleus grafts on irides was followed for 20 weeks. The nerves increased in number and uptake capacity approximately linearly for 6 weeks whereafter the increase rapidly levelled off. On average, the final amount of nerve production by fetal locus grafts did not cover more than 1/3 of the host iris surface, and the average uptake of 3H-metaraminol by these nerves did not exceed 60% of that found in sympathetically intact control irides. The locus grafts produced a similar amount of fluorescent fibers in the host iris independent of the crown-rump length stage of the donor fetus and the final size of the transplants in oculo.The survival and growth of NA, DA and 5-HT neurons grafted from various postnatal donor rats was also followed by fluorescence microscopy. Locus coeruleus grafts produced markedly more fibers than the two other types of grafts when the donor was one week old or less, and DA grafts produced the least fibers of the three. Even from one month old donors some MA neurons survived grafting. Also, using prenatal donars, the locus coeruleus grafts produced many more fibers on the irides than did the DA grafts. It was concluded that the intraocular transplantation technique is very suitable for quantitative studies of nerve fiber production by immature monoamine neurons, and that it should be possible to study many other neuron systems in similar ways with this technique.Supported by the Swedish Medical Research Council (04X-03185), Magnus Bergvalls Stiftelse and Karolinska Institutets Fonder. The skilful technical assistance of Miss Ingrid Strömberg, Miss Maud Eriksson and Miss Gerd Boëtius is gratefully acknowledged. Thanks are due to Swedish Pfizer for the generous supply of Nialamid®  相似文献   

18.
The mechanism by which pluripotent progenitors give rise to distinct classes of mature neurons in vertebrates is not well understood. To address this issue we undertook a genetic screen for mutations which affect the commitment and differentiation of catecholaminergic (CA) [dopaminergic (DA), noradrenergic (NA), and adrenergic] neurons in the zebrafish, Danio rerio. The identified mutations constitute five complementation groups. motionless and foggy affect the number and differentiation state of hypothalamic DA, telencephalic DA, retinal DA, locus coeruleus (LC) NA, and sympathetic NA neurons. The too few mutation leads to a specific reduction in the number of hypothalamic DA neurons. no soul lacks arch-associated NA cells and has defects in pharyngeal arches, and soulless lacks both arch-associated and LC cell groups. Our analyses suggest that the genes defined by these mutations regulate different steps in the differentiation of multipotent CA progenitors. They further reveal an underlying universal mechanism for the control of CA cell fates, which involve combinatorial usage of regulatory genes.  相似文献   

19.
20.
The study has evaluated in vivo, ex vivo and in vitro ontogenesis and functional significance of the arcuate nucleus neurons expressing either individual enzymes of dopamine synthesis, tyrosine hydroxylase or aromatic L-amino acid decarboxylase as well as both of them (dopaminergic neurons) in rats from the 17th embryonic day to adulthood. Monoenzymatic tyrosine hydroxylase-containing neurons were initially observed on the 18th embryonic day. On the 20-21 day, the monoenzymatic tyrosine hydroxylase- or aromatic L-amino acid decarboxylase-expressing neurons comprised more than 99% of the whole neuron population expressing the dopamine-synthesizing enzymes. The dopamine production in the fetus arcuate nucleus was sufficient to provide an inhibitory control of prolactin secretion like in adults. The data suggest a possibility of the dopamine synthesis in the fetus arcuate nucleus by the monoenzymatic neurons containing either tyrosine hydroxylase or aromatic L-amino acid decarboxylase-expressing neurons in co-operation.  相似文献   

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