Nigral 6-hydroxydopamine lesions equally decrease mu and delta opiate binding to striatal patches: further evidence for a conformationally malleable type 1 opiate receptor

We have investigated the effect of nigral 6-hydroxydopamine (6-OHDA) lesions on binding of the mu receptor ligand dihydromorphine (DHM) and the delta receptor ligand [D-Ala2, D-Leu5]-enkephalin (DADLE) to sections of rat striatum under conditions which yield mu-like and delta-like ligand selectivities at discrete receptor patches (Type 1 receptor). 3H-DHM binding was decreased 43% while 3H-DADLE was decreased 22%. However, when the contribution of diffuse binding (Type 2) which is not affected by 6-OHDA is subtracted from the patch, the decrease is approximately 49% for both ligands. These data support the hypothesis that the Type 1 receptor of striatal patches is a conformationally malleable receptor entity which can exist in states having high affinities for various classes of opiate ligands.     

Supersensitivity of substantia nigra pars reticulata neurons to GABAergic drugs after striatal lesions

Rats were given unilateral, intrastriatal injections of kainic acid in order to destroy striatal and pallidal GABAergic projections to the substantia nigra. Two to 3 weeks after the lesions were made, a population of neurons in the substantia nigra pars reticulata was found to be significantly more sensitive to the inhibitory actions of iontophoretically appled GABA, although their responsiveness to iontophoresed glycine was not significantly altered. The increased sensitivity was reflected by a 48% decrease in the IT₅₀ value for GABA. In addition, pars reticulata cells became more sensitive to the inhibitory actions of i.v. muscimol, a GABA agonist. While the change in sensitivity was not statistically significant at 2–3 weeks, cells were markedly more sensitive to i.v. muscimol by 5–6 weeks after the lesions were made. This increased sensitivity was indicated by a 2.5 fold shift to the left in the cumulative dose-response curve and a significant decrease in the ED₅₀ value for muscimol. These results (1) demonstrate that a population of substantia nigra pars reticulata neurons becomes “functionally” supersensitive to GABAergic agents after destruction of the striatonigral GABA pathway, and (2) support the idea that these cells lie postsynaptic to striatonigral GABAergic fibers. The implications of these findings with respect to the etiology and treatment of tardive dyskinesia are discussed.     

Synapses in the rat substantia nigra

The composition and organization of the input to the rat substantia nigra were studied with the electron microscope. Four distinct types of synaptic boutons were described. The first contained small (381 A), clear synaptic vesicles. The second type contained the small, clear vesicles and several large, dense-core vesicles. The third ending contained large, dense-core vesicles and larger (581 A) clear vesicles. The fourth ending, found on the axon hillock and other terminal boutons, contained slightly elongated, clear synaptic vesicles. The presence of these four boutons was discussed in light of the known afferent input and neurochemical composition of the substantia nigra.     

Quantitative autoradiography of the development of mu opiate binding sites in rat brain

The regional developmental appearance of mu binding sites in rat brain was examined by quantitative autoradiography of 3H-dihydromorphine binding in rats 2, 14, 21, and 28 days old. Labeling with 3H-dihydromorphine was heterogeneous in adult rat brains, as previously reported by other laboratories. Levels of 3H-dihydromorphine binding ranged from approximately 250 nCi/g tissue in the interpeduncular nucleus and 100 nCi/g tissue in the habenula to 40 nCi/g tissue in the hypothalamus and periaqueductal gray. Some areas, particularly white matter regions, had no detectable specific binding. The density of 3H-dihydromorphine binding increased in all regions between 2 and 28 days of age. The increases in 3H-dihydromorphine binding in various regions of rat brain developed at different rates. Maximal densities were seen by 14 days of age in most regions examined, including the caudate, hippocampus, amygdala, and hypothalamus. Binding in the medial thalamus and quadrigeminal plate, however, did not reach maximal levels until 21 days. Although quantitative autoradiography offers major advantages in the examination of the regional distribution of opiate binding sites, variability both between sections from the same brain and between sections from different brains demonstrate some of the difficulties associated with this type of experimental approach.     

Alterations in the cellular distribution of bcl-2, bcl-x and bax in the adult rat substantia nigra following striatal 6-hydroxydopamine lesions

The proteins of the bcl-2 family play an important role during apoptosis and may also regulate cell death in response to oxidative stress, which has been implicated in Parkinson's disease. In this study we examined the localization of the pro-apoptotic protein bax, and the anti-apoptotic proteins bcl-2 and bcl-x_L in the substantia nigra (SN) of the adult rat and their response to oxidative stress caused by striatal injections of 6-hydroxydopamine (6-OHDA). Our data show that bcl-2, bcl-x and bax proteins are present in the SN. Bcl-2 and bax are localized primarily in neurons including all those positive for tyrosine hydroxylase (TH). The intraneuronal distribution of bcl-2 and bax were different. Bcl-2 was diffuse throughout the cell while bax was localized in well-defined structures around the nucleus and within processes. Bcl-x staining in neurons was weak, though it was strongly expressed in GFAP-positive astrocytes. 6-OHDA injections, which resulted in loss of dopamine neurons between 7–14 days post-lesion, altered the distribution of bax, bcl-2 and bcl-x proteins in the SN. Bcl-2 and bax were decreased in the TH-positive cells of the SN from 3 to 14 days post-lesion and many TH-positive neurons were bcl-2 negative. Neuronal bcl-x was initially unchanged after lesion, but increased in astrocytes between 3–7 days post-lesion before the increase in GFAP immunoreactivity, which was detectable at days 10–14. While the neuronal distribution of bcl-2 and bcl-x does not change following lesion, bax became evenly distributed thought the soma. Morphological features of apoptosis, including TUNEL labeling and chromatin condensation was not observed. These data suggest that striatal 6-OHDA lesions do not result in classical apoptosis in the SN of the adult rat, even though there are changes in the content and distribution of members of the bcl-2 family of proteins.     

Multiple opiate receptors may be involved in suppressing gamma-aminobutyrate release in substantia nigra

Slices of rat substantia nigra were preloaded with tritiated gamma-aminobutyrate (GABA) or dopamine (DA) and perfused with Krebs solution containing 5 microM aminooxyacetic acid or 10 microM nialamide to inhibit the catabolism of GABA and DA respectively. Repeated brief exposures to high potassium medium (+ 30 mM K+ for 1 min) evoked a consistent pattern of calcium-dependent 3H efflux against which the effects of opiates (10-400 microM) were assessed. Opiate agonists inhibited K+-induced 3H-GABA efflux in the following decreasing order of potency: bremazocine greater than D-Ala2-Met5-enkephalinamide (ENK) greater than SKF 10047 much greater than morphine, consistent with the participation of kappa, delta, sigma and to a lesser extent mu opiate receptors respectively. Naloxone (1 microM) partially antagonised the response to morphine and ENK, while ICI 154129 attenuated ENK only. Save for a GABA-releasing action of SKF 10047 at high doses, none of the compounds altered basal outflow of 3H-GABA. Naloxone, in the dose range 10-400 microM, also significantly inhibited depolarisation-induced release of 3H-GABA. In parallel experiments none of the compounds tested were found to influence 3H-DA release in concentrations up to 40 microM, but thereafter suppressed K+-induced 3H-DA outflow indiscriminately. The results are discussed with reference to the possible mechanism(s) via which injected and endogenous opiates may affect motor performance by attenuating GABA transmission in the nigra.     

Alterations in amphetamine stereotypy following acute lesions of substantia nigra

Stereotypy induced by high doses of amphetamine has been related to the ability of this drug to increase the release of dopamine in the caudate nucleus and to block its reuptake. Since amphetamine-stimulated dopamine release in the caudate is blocked by acute lesions of the nigrostriatal pathway, the mechanism by which amphetamine acts to produce stereotypy may be dependent upon intact nigrostriatal impulse flow. The present study examined the involvement of nigrostriatal impulse flow in amphetamine stereotypy by determining the effect of acute, bilateral lesions of substantia nigra pars compacta on measures of stimulant-induced stereotypy and motility. Acute nigral lesions did not significantly alter the stereotypy or motility induced by 3.0 or 6.0 mg/kg amphetamine. These results suggest that the observed behavioral effects of amphetamine do not require an intact nigrostriatal pathway, and thus may involve changes in spontaneous release or reuptake of dopamine rather than in changes in impulse-coupled dopamine release.     

大鼠黑质多巴胺能神经元的二型性

成年哺乳动物的某些脑区存在性别差异,即二型性,但中脑黑质是否存在性分化目前不清楚。本文旨在探讨成年大鼠中脑黑质是否存在二型性。将60只成年大鼠分成5组：（1）正常雌鼠对照组：（2）正常雄鼠对照组：（3）去卵巢组;（4）去睾丸组;（5）去卵巢后回补雌激素组,该组大鼠在去卵巢后的第7天开始连续3d给予生理剂量的雌激素回补。所有大鼠在右侧黑质埋置记录电极,在清醒和安静的生理状态下连续14d记录黑质的P50听觉诱发电位（P50）,之后作黑质酪氨酸羟化酶（tyrosine hydroxylase,TH）免疫组织化学染色,检查TH阳性（TH^＋）细胞数量和形态变化。结果表明,正常成年雄鼠黑质的TH^＋细胞数量较雌鼠少22．47％（P〈0．05）,P50的T／C值也低34．72％（P〈0．01）,提示正常成年大鼠黑质在结构和功能上存在二型性。与正常雄鼠相比,去睾丸大鼠黑质的TH^＋细胞数量、形态和P50的T／C值无显著性变化（P〉0．05）。与正常雌鼠相比,去卵巢大鼠黑质TH^＋细胞数量减少28．09％（P〈0．01）,P50的T／C值降低30．85％（P〈0．01）。在大鼠去卵巢后的短时间内给予3d生理剂量的雌激素,15-20d后可观察到其黑质TH^＋细胞数量、形态和P50的T／C值基本恢复到去卵巢前水平。结果提示,大鼠中脑黑质的多巴胺能神经元在数量、结构和功能活动上存在性别差异：内源性雌激素在维持黑质多巴胺系统完整性及调节其功能活动中起重要作用。     

Evidence for hyperdensity of 5HT1B binding sites in the substantia nigra of the rat after 5,7-dihydroxytryptamine intraventricular injection

High affinity serotonin (5HT) binding sites have been found highly concentrated in the substantia nigra (SN) of the rat brain in each classical anatomical subdivisions of this structure, SN reticulata (SNR), SN lateralis (SNL), SN compacta (SNC). In all of the anatomical samples examined along the posteroanterior brain axis (at 200 um intervals), they corresponded to 5HT1B binding sites. The analysis of their distribution performed in rats 15 days after 5,7-DHT intraventricular injection has revealed : (1) the post-synaptic localization of these 5HT1B sites ; (2) the selective increase in their density at the level of SNR. This increase was found heterogeneously distributed inside the SNR and clearly differentiated in external and internal portions of this structure. This hyperdensity in 5HT1B sites in the SNR likely explains the functional hypersensitivity previously demonstrated by local injection of exogenous 5HT into the SN and systemic administration of RU 24969, a preferential 5HT1B agonist.     

The fine structure of the neurons in the rat substantia nigra

Three distinct neurons were identified in the substantia nigra of the rat using Golgi, light, and electron microscopic techniques. A large neuron, found in the pars reticulata, is characterized by well-developed RER, a tubular cytoplasmic inclusion, and somatic and dendritec thorns. A medium-sized neuron, found in the pars compacta, has an eccentric nucleus, distinct Nissl bodies, and an inclusion composed of whorls of concentric cisternae. A small neuron, found in both nigral regions, contains a highly invaginated nucleus, fibrous nuclear inclusion, and paucity of cytoplasmic organelles. Its axon synapses around other nigral dendrites. The presence of these neurons was correlated with the efferent projections and function of the substantia nigra.     

3H-SCH 23390 binding sites in the rat substantia nigra: evidence for a presynaptic localization and innervation by dopamine

Chronic treatment with SCH 23390, a selective D-1 dopamine receptor antagonist, elicited a 32% increase in the density of 3H-SCH 23390 binding sites in nigral membrane preparations but failed to change the apparent KD of the ligand for its binding sites. Haloperidol, a D-2 dopamine receptor antagonist which blocks the dopamine-sensitive adenylate cyclase and (-) sulpiride, a selective D-2 dopamine receptor blocker, which does not block the dopamine-sensitive adenylate cyclase, failed to change both the Bmax and KD of 3H-SCH 23390 binding. Finally, the intrastriatal injection of kainic acid produced a marked decrease of both GAD activity and GABA content and 3H-SCH 23390 binding sites (65%) in the homolateral substantia nigra. The results show that in the rat substantia nigra most of the 3H-SCH 23390 binding sites have a presynaptic localization on the striato-nigral GABAergic afferent terminals and suggest that dopamine released from nigral dendrites exerts a tonic influence on these presynaptic D-1 dopamine receptors.     

Loss of high affinity neurotensin receptors in substantia nigra from parkinsonian subjects

Monoiodo [125I-Tyr3]-Neurotensin binding was studied in post mortem substantia nigra from 17 control and 15 parkinsonian subjects. Binding to individual homogenates was decreased by 58%, 49% and 26% at 0.36, 1.4, 5.5 M(-9) concentration of ligand, respectively. Saturation analysis using pooled substantia nigra demonstrated an almost complete loss of the high affinity component of the neurotensin receptor complex, yielding a 24% loss of the total binding capacity, with no alteration of the low affinity component. Similarly an important loss of binding was observed in monoiodo[125I-Tyr3]-Neurotensin autoradiograms of two substantia nigra from parkinsonian subjects. These results support the hypothesis of neurotensin receptors occurring on dopamine cell bodies and/or dendrites in human substantia nigra. Role of neurotensin may be of importance in the regulation of dopamine pathway involved in parkinsonism.     

Differentiation gradient of dopaminergic neurons in substantia nigra of rat

The chemical differentiation featured by the appearance of tyrosine hydroxylase (TH) and the distribution pattern of the dopaminergic cells of rat substantia nigra (SN) were studied with combined immunocytochemical and electronmicroscopic techniques. Under the light microscope, the earliest TH-positive cells at embryonic day 13 are localized at the ventral part of rostral midbrain. Later appearing TH-positive cells join the earlier ones dorsally and caudally. As to the stain intensity and morphology of the labeled cells in the region of the SN, there exists a ventral to dorsal and lateral to medial spatiotemporal gradient, namely the cells in the ventral and lateral parts, compared with the dorsal and medial ones, have more intense staining, larger cell bodies with smaller nuclei and more and longer processes. The earliest nigrostriatal projection fibers stem from the most laterally located SN cells. Under electron microscope, rough endoplasmic reticula are always seen within the positively stained cells. With the progression of development, the cells show more intense staining and contain more rough endoplasmic reticula and other organelles. Together with the results reported on the neurogenesis and migration of the SN cells, the present study indicates that the chemical differentiation of SN cells, with a spatiotemporal gradient, starts after the completion of cell migration, a process paralleling to their morphological differentiation.     

Chronic intrastriatal dopamine infusions in rats with unilateral lesions of the substantia nigra

This study examined the effects of continuously supplied dopamine delivered directly into the dopamine-deficient striatum. Rats received unilateral lesions of the substantia nigra by stereotaxic administration of 6-hydroxydopamine and were tested for apomorphine-induced rotational behavior and general activity. Osmotic mini-pumps were filled with dopamine in various concentrations, implanted subcutaneously and connected to a cannula implanted directly into the striatum. The system delivered solution at a rate of .5 microliter/hr for two weeks. Dopamine in a dosage of 0.5 microgram/per hour reduced apomorphine-induced rotational behavior by a mean of 52 +/- 5.8% (mean +/- SEM, n = 20) with a maximal individual decrease of 99%. There was no change in general activity or increase in stereotyped behavior. Infusions of vehicle solutions did not decrease rotational behavior. Spread of the infused dopamine and its metabolites was estimated by adding 3H-dopamine to the pumps in tracer quantities. Radioactivity was highly concentrated at the infusion site and decreased rapidly within a few mm from the infusion site. Continuous infusion methods may eventually prove to be effective in the treatment of nigro-striatal degenerative disease.     

Activity of dopaminergic neurons of the substantia nigra following lesions of the neostriatum by kainic acid

Neostriatal lesions by kainic acid provide a good model for studying Huntington's chorea. The pattern of discharge of nigral dopaminergic neurons of rats subjected to a kainate lesions of the caudate nucleus was compared to the nigral activity in control (saline-injected) and normal rats. The observed changes suggest that neostriatal degeneration does not simply induce a nigral dopaminergic hyperactivity but rather a disorganization of their slow and rhythmic pattern of discharge, thus eliciting in the nigral neurons abnormal messages which may reach the motoneurons and participate in the genesis of choreic movements.