Re-initiated growth from mature ventral mesencephalon: an in oculo transplant study of nigrostriatal co-grafts

The ability of mature dopaminergic neurons derived from ventral mesencephalon to re-initiate growth after making contact with a non-innervated target was studied using the intra-ocular grafting model. Foetal ventral mesencephalic tissue or brain stem including the locus coeruleus area was grafted to the anterior chamber of the eye. Two weeks, 6 weeks or 1 year after the first implantation, foetal striatal tissue was placed in contact with the nigral graft or grafted alone. The size of the transplants was measured through the cornea. The final size of the striatal grafts was significantly larger when placed alone than when co-grafted with 1-year-old or 6-week-old dopaminergic grafts. Striatum grafted together with 2-week-old nigra was larger than when grafted adjacent to mature substantia nigra, but not significantly so. Nerve fibre outgrowth into the iris from the nigral transplants did not increase after maturation, but the re-innervated area of the host iris progressively increased around the locus coeruleus grafts. Ingrowth of tyrosine hydroxylase (TH) immunoreactive nerve fibres into the striatal grafts was studied 6 weeks after the second implantation. TH immunohistochemistry revealed innervation of the striatal piece in all cases, except for the group where striatum alone was grafted. With the short survival time for cografts of 6 weeks, TH-positive nerve fibres innervated a larger volume, had a patchy appearance and the density was higher in striatum grafted to 2 week-old nigral transplants than that seen in striatal transplants grafted to mature nigral grafts. The patchy pattern of TH-immunoreactive nerve terminals was also seen in striatum co-grafted with 6-week-old or 1-year-old nigral transplants. No difference in striatal innervation volume was detected between those latter two groups. When striatum was implanted adjacent to mature ventral mesencephalon and grown together for 6 months — the longer survival time — the same dense TH-positive innervation as seen in striatum co-grafted with immature nigral tissue at the shorter survival time was found. Additionally, the nigral part of the co-grafts showed increased TH-immunoreactive nerve fibre density. In conclusion, dopaminergic neurites from mature ventral mesencephalic transplants can re-initiate growth if placed in contact with non-innervated striatal tissue. The nigral grafts do not progressively re-innervate the host iris, while locus coeruleus grafts do. The intra-ocular grafting model can be used to study the in vivo effects of trophic factors on mature dopaminergc neurons.     

The striatonigral projection and nigrotectal neurons in the rat. A correlated light and electron microscopic study demonstrating a monosynaptic striatal input to identified nigrotectal neurons using a combined degeneration and horseradish peroxidase procedure

In a light and electron microscopic study of the substantia nigra of the rat, the distribution and morphology of nigrotectal neurons and the pattern of termination of striatonigral fibres have been examined following the placement of horseradish peroxidase injections in the superior colliculus and kainic acid lesions in the dorsal striatum. In confirmation of previous findings, nigrotectal neurons which had been identified by the retrograde transport of horseradish peroxidase from the superior colliculus had mainly medium sized somata, varied from fusiform to stellate in shape and were found in mainly ventral regions of the rostral two-thirds of the substantia nigra pars reticulata. On electron microscopic examination, single and multiple (from two to six) degenerating striatonigral boutons were found in synaptic contact with the soma, proximal mainstem dendrites and small dendrites (but mainly on small dendrites) of labelled nigrotectal and unlabelled nigral neurons in the ventral region of the pars reticulata. In addition, a small number of degenerating striatonigral boutons formed axoaxonic synapses with degenerating or normal boutons which were presynaptic to nigral dendrites. Almost all of the identified striatonigral synapses were of the symmetrical type, although a few degenerating boutons established asymmetrical synaptic contacts on unlabelled dendrites. These findings provide evidence of a monosynaptic input from the dorsal striatum to nigrotectal projection neurons in the substantia nigra and thus demonstrate the existence of a bineuronal pathway from the striatum through the substantia nigra to the superior colliculus. The possible significance of the pattern of termination of striatonigral fibres in the substantia nigra is discussed with reference to the known dendritic arborization of nigral neurons.     

Nerve growth factor increases survival of dopaminergic graft, rescue nigral dopaminergic neurons and restores functional deficits in rat model of Parkinson's disease

In the present study, an attempt has been made to explore the neuroprotective and neurorescue effects of nerve growth factor (NGF) on grafted cells and on host nigral dopaminergic neurons, respectively. NGF was co-transplanted with fetal ventral mesencephalic cells (VMC) in the striatum of 6-hydroxydopamine (6-OHDA) lesioned rat model of Parkinson's disease (PD). In the other groups fetal VMC and NGF were transplanted alone. Twelve weeks post-transplantation, a significant restoration was observed in D-amphetamine induced rotations (stereotypy), spontaneous locomotor activity, striatal and nigral dopamine (DA) and 3,4-dihydroxy-phenyl acetic acid (DOPAC) levels in co-transplanted rats as compared to VMC alone transplanted rats. Higher number of surviving tyrosine hydroxylase immunoreactive (TH-ir) neurons and significantly increased fiber outgrowth from graft was evident in co-transplanted rats as compared to VMC alone transplanted rats. Further, a significant increase was also observed in substantia nigra TH-ir neurons count in co-transplanted rats, exhibiting a potential neuroprotective and neurorescue effects of NGF on nigrostriatal dopaminergic neurons. The results suggest that NGF at the time of transplantation exhibits neuroprotective effect on transplanted VMC as well as neurorescue effect on remaining host nigral dopaminergic neurons, leading to better functional restoration.     

Collateral projection from the substantia nigra to the striatum and superior colliculus in the rat

Our retrograde fluorescent double labeling study demonstrated the existence of divergent collateral projections from the substantia nigra to the striatum and superior colliculus in the rat. These bifurcating projection neurons were located predominantly in the ventrolateral portions of the substantia nigra pars reticulata at its rostral level, where they formed a narrow band along the boundary between the substantia nigra and cerebral peduncle. Such specific projection cells were also seen in the substantia nigra pars lateralis. However, nigral neurons did not give off axonal branches to the striatum and ventromedial thalamic nucleus. The new nigral cell population proposed here might constitute a neuroanatomical substrate for abnormal saccadic eye movements clinically manifested by many parkinsonian patients.     

Reinnervation of dopamine-denervated striatum by substantia nigra transplants: immunohistochemical and electrophysiological correlates

This study evaluated whether or not fetal substantia nigra tissue, grafted to striatum previously lesioned with 6-hydroxydopamine, provides functional dopaminergic reinnervation of striatum. Falck-Hillarp histochemistry and immunofluorescent staining for tyrosine hydroxylase demonstrated extensive networks of nerve fibers which extended 1-1.5 mm from the nigral grafts into striatal tissue. Multibarrel micropipettes were used to record neurons electrophysiologically and test neuronal responses to phencyclidine which was applied locally by pressure microejection. "Distal" neurons, defined as those striatal neurons more than 2.0 mm from the nigral graft, fired at an average spontaneous rate of 13.4 spikes/s and were relatively insensitive to the effects of locally applied phencyclidine. However, "proximal" neurons, defined as those neurons less than 1.0 mm from nigral grafts, fired at a significantly lower average rate of 4.9 spikes/s, and were significantly more sensitive than distal neurons to the effects of phencyclidine. These results suggest that fetal substantia nigra grafts can provide functionally significant reinnervation of striatum previously lesioned with 6-hydroxydopamine.     

Connectivity of striatal grafts implanted into the ibotenic acid-lesioned striatum--I. Subcortical afferents

Subcortical afferents to transplants of fetal striatal tissue, implanted into the excitotoxically lesioned striatum of adult recipient rats, were studied with retrograde and anterograde axonal tracers and immunohistochemistry. One week after a striatal ibotenic acid lesion, involving most of the head of the caudate-putamen, a suspension of fetal striatal tissue (embryonic day 14-15) was injected into the lesioned area. In one group of rats, the ibotenic acid lesion was preceded (10 days) by large intrastriatal injections of True Blue, with injection sites matching the area to be lesioned. This was done to retrogradely pre-label the host brain afferents to the area of the striatum later to be lesioned and grafted. At 3 or 6 months post-transplantation, small injections (50 nl) of rhodamine-labelled latex beads were made into the striatal grafts. In animals where the injections were confined to the graft, retrogradely labelled host brain neurons were found in the thalamus, the substantia nigra, amygdala and dorsal raphe nucleus. Double-labelling analysis revealed that the vast majority of the rhodamine bead-labelled neurons also contained True Blue, which indicates that the host afferents to the graft, to a large extent, were derived from the neurons which normally project to the area of the caudate-putamen which was lesioned by the ibotenic acid injection. To further substantiate these observations a second group of lesioned and grafted animals received unilateral wheatgerm agglutinin-horseradish peroxidase injections into the ipsilateral host thalamus at 4 months post-transplantation in order to anterogradely label the host thalamostriatal axons. In a third group of animals serotonin immunocytochemistry was performed in order to detect possible afferents from the raphe nuclei. In contrast to the serotonin-containing fibers, which were fairly evenly distributed throughout the graft tissue, the peroxidase-labelled thalamic afferents were most prominent in the peripheral zones of the grafts and they were densely aggregated at the graft-host interface. The combined results provide evidence that the intrastriatal grafts receive afferents from the host substantia nigra, thalamus, amygdala and dorsal raphe nucleus, but with different distributions. The afferents from the substantia nigra, amygdala and raphe nuclei seem to distribute throughout the grafted tissue, although they are most dense in the peripheral parts, whereas the thalamic afferents are largely confined to the peripheral areas of the transplants and to the graft-host interface.     

Separate neuronal populations of the rat substantia nigra pars lateralis with distinct projection sites and transmitter phenotypes.

The topographic organization of the nigral cells sending axons to the striatum, amygdala and inferior colliculus was studied in the rat substantia nigra pars lateralis by using retrograde fluorescent tracers. Nigral perikarya projecting to the inferior colliculus were located dorsolaterally within the substantia nigra pars lateralis, whereas nigral perikarya projecting to the striatum or to the amygdala were mostly situated ventromedially within the substantia nigra pars lateralis. The transmitter substances of the nigrotectal cells were examined by combining a retrograde tracing method with immunohistochemistry for tyrosine hydroxylase or glutamate decarboxylase. Nigral neurons projecting to the inferior colliculus lacked tyrosine hydroxylase immunoreactivity, but exhibited immunoreactivity for glutamate decarboxylase. The substantia nigra pars lateralis is made up of different neuronal populations: one projecting to the inferior colliculus and another directed to the striatum and amygdala. The pars lateralis pathway to the inferior colliculus utilized GABA as a neurotransmitter, whereas the previously characterized nigral cells projecting to the striatum and superior colliculus use GABA and dopamine as neurotransmitters.     

Neonatal hypoxic-ischemic or excitotoxic striatal injury results in a decreased adult number of substantia nigra neurons.

It has been shown that morphologic and biochemical presynaptic markers of dopaminergic terminals are preserved in a unilateral experimental model of neonatal hypoxic-ischemic injury to the striatum. As the substantia nigra is spared direct injury in this model, we anticipated that the number of tyrosine hydroxylase-positive dopaminergic neurons projecting to the striatum would also be normal. We have found, however, that following unilateral neonatal striatal injury the number of ipsilateral tyrosine hydroxylase-positive neurons is decreased, as is the mean area of the substantia nigra pars compacta. The decrease in neurons is correlated with the decrease in striatal size (r = 0.7, P = 0.01). Neuron loss is most pronounced in the substantia nigra pars reticulata, where it is 50%. Calbindin-positive neurons in the dorsal tier of the substantia nigra pars compacta appear to be preserved. We also examined effects on the nigra following a neonatal excitotoxic striatal lesion made with quinolinic acid. We observed a decrease in the number of substantia nigra tyrosine hydroxylase-positive neurons in the absence of direct nigral injury, and the decrease was closely correlated with reductions in striatal area (r = 0.91, p < 0.01). While there are a number of possible explanations for these observations, one major possibility is that there has been a reduction in tyrosine hydroxylase-positive neurons due to a diminution in developmental target-derived trophic support from the striatum. If striatum-derived trophic support plays a role in the developmental regulation of substantia nigra neuron number, then abnormalities in this supportive relationship may play a role in the loss of these neurons in some animal models of developmental nigral degeneration, and some forms of human parkinsonism.     

多聚ADP-核糖聚合酶抑制剂对帕金森病小鼠相关脑区病理变化的影响

目的研究帕金森病(Park inson’s d isease,PD)小鼠黑质和纹状体多巴胺(dopam inergic,DA)能神经元数量和超微结构的变化及多聚ADP-核糖聚合酶(poly(ADP-ribose)polym erase,PARP)抑制剂PJ34的干预作用。方法采用1-甲基-4-苯-1,2,3,6-四氢吡啶(1-m ethyl-4-phenyl-1,2,3,6-tetrahydropyrid ine,MPTP)制备PD小鼠模型,并用PJ34进行干预,2h、24h、72h进行酪氨酸羟化酶(tyrosine hydroxylase,TH)免疫组化染色观察DA能神经元数量,透射电镜观察超微结构改变。结果与正常对照小鼠比较,PD小鼠黑质TH阳性神经元进行性减少,核膜皱缩,染色质凝聚成块并有边聚现象;纹状体TH阳性神经纤维稀疏,突触数量减少。与PD小鼠比较,PJ34干预组黑质TH阳性神经元明显增多,纹状体TH阳性神经纤维密度增加(P<0.01),细胞形态比模型组明显改善。结论PARP的活性改变在PD的发病过程中发挥重要作用,PARP抑制剂对DA能神经元有保护作用。     

Isolated catecholaminergic projections from substantia nigra and locus coeruleus to caudate,hippocampus and cerebral cortex formed by intraocular sequential double brain grafts

Summary Sequential intraocular grafting of defined areas from fetal rat brain to adult host rats was used to explore the possibility that such double grafts would become interconnected. Norepinephrine- containing neurons of the locus coeruleus were grafted together with either parietal cerebral cortex, hippocampus, or the caudate nucleus. Dopamine-containing neurons of the substantia nigra were transplanted together with either parietal cerebral cortex or the caudate nucleus. The brainstem grafts showed good survival and development in oculo, using both histochemical and electrophysiological criteria. Locus coeruleus neurons were found to innervate cerebral cortex, hippocampus, and the caudate nucleus. Substantia nigra neurons invaded cerebral cortex abundantly, with a terminal distribution typical of cortical DA terminals in situ. The innervation of the caudate nucleus from substantia nigra transplants was variable, but areas of dense confluent terminals were observed.We conclude that sequential brain grafting in oculo permits generation of isolated yet defined catecholaminergic projections, which are suitable for electrophysiological, pharmacological, and histochemical studies.     

Emulation of seizure induced brain damage in neural tissue transplants to the anterior chamber of the eye

Summary We have developed a model system in which the mechanisms of neuronal damage due to hyperexcitation can be studied in isolation and where extended observation periods can be used. Substantia nigra pars reticulata (SNPR) develops a hypermetabolic necrosis following status epilepticus (Nevander et al. 1985; Auer et al. 1986). We transplanted rat fetal nigral area alone or together with fetal frontal neocortex to the anterior chamber of the eye in adult rats. Following 3 months of transplant maturation the hosts were subjected to status epilepticus for 60 min. In single nigral transplants no sign of structural damage was found. In the double transplants of frontal cortex and the substantia nigra a tissue necrosis had developed in the nigral part. This was demonstrated by a total loss of glial fibrillary acidic protein (GFA) immunoreactivity within a circumscribed necrotic region in the nigral part of the double transplant. Such a loss of GFA immunofluorescence had also developed in the host SNPR, as we have earlier shown (Eriksdotter Nilsson et al. 1987). Thus, intraocular brain tissue transplants provide a unique model for studies on the development of neuronal damage and functional dependence between different neuronal structures for the development of such damage.Abbreviations SNPR Substantia nigra pars reticulata - SN Substantia nigra     

Electrophysiological characteristics of cells within mesencephalon suspension grafts

Both spontaneous and evoked extracellular electrophysiological activity of neurons within fetal mesencephalon suspension grafts to the dopamine-depleted striatum of rats were examined. In some cases, extracellular recording was combined with intracellular labeling to identify recorded neurons. Grafted rats displaying a complete cessation of ipsilateral rotations following amphetamine administration were examined at post-implantation time intervals of two, four, five, eight and nine months. Four separate classes of neurons were distinguished within the transplanted striatum based on electrophysiological properties. The first of these groups, the type I cells, appeared to be non-grafted striatal neurons. When spontaneously active, these striatal-like cells fired bursts of action potentials separated by periods of decreased activity. Evoked responses in these cells were characteristic of striatal cells. Type I cells which were intracellularly labeled were found outside the grafts and displayed the characteristic morphology of the medium spiny neuron of the neostriatum. The other three cell classes displayed electrophysiological properties similar to neurons recorded in situ within the reticular formation, substantia nigra pars compacta and substantia nigra pars reticulata. Neurons from these three groups which were labeled with an intracellular marker were found to lie within the suspension grafts. The spontaneous activity of the pars compacta dopaminergic-like neurons was predominantly irregular, with some cells also firing in a regular or pacemaker-like pattern. Infrequently, irregular firing dopaminergic-like neurons displayed episodes of doublet bursting. Many of the grafted neurons responded to electrical stimulation of prefrontal cortex and striatum, indicating that the graft was receiving functional inputs from host neurons. Comparison of the firing rate and pattern of grafted neurons to in situ mesencephalic neurons as a function of time following grafting suggested that the grafted neurons and/or the neuronal circuitry is slowly developing within the host environment. A prolonged time-course for the maturation of the graft may be reflected in the time required to achieve improvements in some behavioral deficits following transplantation. However, the relatively rapid recovery of drug-induced rotational asymmetry following grafting suggests that this form of recovery may not require mature functioning of the grafted neurons.     

Behavioral and neuronal reorganization after unilateral substantia nigra lesions: Evidence for increased interhemispheric nigrostriatal projections

This study was intended to investigate the possibility of a relationship between compensation of sensory-motor asymmetries induced by unilateral substantia nigra lesions and changes in inter-hemispheric nigrostriatal projections. Adult male rats were used in two experiments:Experiment I. Animals received an injection of either 6-OH-dopamine or kainic acid into the substantia nigra. They were observed for intervals of 7, 21 or 90 days with respect to spontaneous turning, d-amphetamine-induced turning and other sensory-motor asymmetries. Interhemispheric nigrostriatal projections were examined by injecting horseradish peroxidase into the striatum homolateral to the nigral lesion. Labeled perikarya were counted in the contralateral substantia nigra. A significant increase in number of labeled neurons was observed 7 and 21 days, but not 90 days after the nigral lesion in comparison to control animals. Spontaneous lesion-induced turning behavior ceased within the first postoperative week. After 21 and 90 days it was still possible to elicit turning by injection of amphetamine.Experiment II. An increase in number of interhemispheric nigro striatal projections one week after the nigral lesion was also found when Nuclear Yellow was used as a tracer substance. Animals received a unilateral injection of Fast Blue into the caudate nucleus, followed by an injection of Nuclear Yellow at the identical locus one week later. An increase in number of Nuclear Yellow-labeled neurons was registered only if the injection of Fast Blue was followed by a 6-hydroxydopamine lesion in the homolateral substantia nigra within 24 h. Interhemispheric nigro striatal projections were of monoaminergic as well as of non-monoaminergic origin, as revealed by histofluorescent tracing for monoaminergic neurons.These results may reflect sprouting of interhemispheric fiber projections in response to, or as correlates of, behavioral compensation of the lesion-induced behavioral asymmetries.     

Synaptic input and local output of dopaminergic neurons in grafts that functionally reinnervate the host neostriatum

Summary In adult rats with a unilateral 6-hydroxydopamine-induced lesion of the nigrostriatal dopamine pathway, grafts of embryonic ventral mesencephalon can establish extensive efferent connections with the previously denervated host neostriatum and can compensate for motor and sensorimotor asymmetries induced by the lesion. The object of this study was to examine the afferent synaptic inputs to grafted dopaminergic neurons, implanted into a cortical cavity overlying the previously denervated caudate-putamen, using electron microscopic immunocytochemistry. The dopaminergic neurons of the grafts in the same animals had previously been shown to re-innervate the host neostriatum, to form synaptic connections therein and to attenuate the lesion-induced motor asymmetry that occured in response to amphetamine (Freund et al. 1985). In the light microscope, the grafts were found to contain numerous tyrosine hydroxylase-immunoreactive perikarya, dendrites, axons and axonal swellings which had distinct distributions. In addition axons and axonal swellings that were immunoreactive for either substance P or glutamate decarboxylase were present. Electron microscopic analysis of the boutons contacting tyrosine hydroxylase-immunoreactive neurons in the grafts revealed the presence of at least five distinct types of afferent synaptic boutons based on their immunochemistry, morphology, or types of membrane specialization. One type was itself immunoreactive for tyrosine hydroxylase; such synapses are extremely rare in the intact substantia nigra, none were found in the contralateral substantia nigrae or the substantia nigra of a control rat. Three of the remaining types had ultrastructural features that were similar to synaptic terminals that were immunoreactive for substance P or glutamate decarboxylase. These synapses were similar to the types of synapses found contacting dopaminergic neurons in the substantia nigra contralateral to the graft or the substantia nigra of a control rat. The results demonstrate that, in the absence of the normal extrinsic afferent inputs, the intracortical mesencephalic grafts have a well-developed local synaptic circuitry. It is suggested that local circuit regulation of dopaminergic neurons within the graft may, at least in part, be responsible for the maintenance of a normal or close to normal functional activity.     

Substantia nigra projections to the reticular formation,superior colliculus and central gray in the rat,cat and monkey

After horseradish peroxidase injections in different parts of the lower brain stem retrogradely labeled neurons were observed in the substantia nigra, mainly ipsilateral pars reticulata. These findings demonstrate that the substantia nigra projects not only to the striatum and thalamus but also to brain stem areas which give rise to descending spinal projections. These nigral projections to brain stem structures may play an important role in a variety of behaviors and may be involved in clinical syndromes associated with nigral lesions.     

Afferent and efferent connections of striatal grafts implanted into the ibotenic acid lesioned neostriatum in adult rats

Summary The afferent and efferent connections of grafts of fetal caudate-putamen, implanted into the ibotenic acid (IA)-lesioned striatum of adult rats, have been studied with wheat germ agglutinin conjugated horseradish peroxidase (WGA-HRP) as a combined retrograde and anterograde tracer, and with aldehyde fluorescence histochemistry for the visualisation of dopamine-containing nigrostriatal afferents from the host. The WGA-HRP was deposited in crystalline form (within a capillary tip) either into the depth of the graft tissue, or into the IA lesioned host striatum as a control. Labelling was only evaluated in specimens where the WGA-HRP deposit was entirely confined within the graft. Retrogradely labelled neurons were most consistently found in the ipsilateral host substantia nigra and the spared portions of the host CP, and in one case also in the midline and intralaminar thalamic nuclei normally projecting to the striatum. Some neurons, although weakly labelled, occurred in the deep layers of the frontal cortex in all grafted rats. Signs of anterograde WGA-HRP labelling in the host were found in one of the five animals in the ipsilateral globus pallidus and substantia nigra, pars reticulata. Fluorescence histochemistry revealed extensive ingrowth of dopamine-containing fibres from the host striatum into the grafted striatal tissue. The ingrowing fibres formed distinct and partly interconnected patches, most prominently in the peripheral regions of the grafts. The results provide evidence that intrastriatal grafts of fetal striatal tissue receive extensive dopaminergic afferents from the host substantia nigra, and that they may be capable of establishing connections also with thalamus, neocortex and globus pallidus of the host, as well as with the spared portions of the host caudate-putamen. The afferent connections from the thalamus and neocortex were notably more variable and sparse. However, since the control WGA-HRP deposits (into the lesioned host striatum) labelled the cortical and thalamic afferent neurons only poorly, it appears that the cortico-striatal and thalamo-striatal afferents (in contrast to the nigro-striatal ones) had undergone substantial degenerative changes (atrophy and/or cell death) in the long-term (6–11 months) IA-lesioned rats. The sparse thalamic and cortical afferent connections to the grafts may thus reflect an inability of the grafted striatal tissue to prevent the course of degenerative changes in these striatal input systems.     

Nigrostriatal reconstruction after 6-OHDA lesions in rats: combination of dopamine-rich nigral grafts and nigrostriatal “bridge” grafts

Summary In an attempt to reconstruct the nigrostriatal dopamine (DA) pathway following 6-hydroxy-dopamine-induced degeneration in adult rats, a novel double graft procedure has been developed. Embryonic DA-rich grafts were implanted in the vicinity of the host substantia nigra by standard procedures. An intracerebral bridge was then implanted by injection of alternative tissues along a single oblique needle penetration through the frontal pole and neostriatum to the substantia nigra. Embryonic striatal tissue bridges provided a continuous column of tissue from the nigral DA graft to the host striatum. In 3 cases, tyrosine hydroxylase immunoreactive fibres grew the full length of the striatal bridge grafts and were seen to penetrate the host neostriatum. In these three animals alone, methylamphetamine-induced rotation was significantly reduced to 44% of the baseline lesion-induced turning rate. Alternative tissues or substrates (embryonic olfactory bulb, cultured astrocytes or laminin-coated microspheres) were not effective in promoting THir fibre growth from the nigral DA grafts to the host neostriatum.     

Role of nuclear transcription factor kappa B (NF-kappaB) for MPTP (1-methyl-4-phenyl-1,2,3,6-tetrahyropyridine)-induced apoptosis in nigral neurons of mice

The biochemical and cellular changes that occur following treatment with MPTP (1-methyl-4-phenyl-1,2,3,6-tetrahyropyridine) are remarkably similar to that seen in idiopathic Parkinson's disease. In this study, we investigated the time course changes of NF-kappaB (Nuclear factor kappa B) p65 protein and apoptosis in the substantia nigra after MPTP treatment in mice. Four administrations of MPTP at 2 h intervals showed a significant and severe decrease of the number of TH (tyrosine hydroxylase) immunopositive neurons in the substantia nigra of mice from 5 h up to 21 days posttreatment. Densities of DAT (dopamine transporter) immunoreactivity were also significantly decreased in nigral neurons of mice from 1 up to 21 days after MPTP treatment. GFAP (glial fibrillary acidic protein) immunopositive cells were increased significantly in the substantia nigra from 5 h up to 21 days after MPTP treatment. In contrast, isolectin B₄ positive microglia were increased markedly in the substantia nigra only 3 and 7 days after MPTP treatment. On the other hand, a significant increase of NF-kappaB p65 immunoreactivity was observed mainly in glial cells of the substantia nigra from 5 h to 3 days after MPTP treatment. A significant increase of ssDNA (single stranded DNA) immunopositive apoptotic neurons was also observed in the substantia nigra from 5 h to 3 days after MPTP treatment. These results demonstrate that dopaminergic neuronal loss may be caused by apoptosis due to increased cytokines and apoptosis-related proteins via the activation of NF-kappaB in reactive astrocytes of the substantia nigra after MPTP treatment in mice. Thus our findings suggest that the inhibition of NF-kappaB activation in astrocytes may be useful intervention in Parkinson's disease and other neurogenerative disorders where apoptosis or inflammation plays a key role in disease pathogenesis.     

Cholinergic input to dopaminergic neurons in the substantia nigra: a double immunocytochemical study.

In order to determine whether the cholinergic fibres that innervate the substantia nigra make synaptic contact with dopaminergic neurons of the substantia nigra pars compacta, a double immunocytochemical study was carried out in the rat and ferret. Sections of perfusion-fixed mesencephalon were incubated first to reveal choline acetyltransferase immunoreactivity to label the cholinergic terminals and then tyrosine hydroxylase immunoreactivity to label the dopaminergic neurons. Each antigen was localized using peroxidase reactions but with different chromogens. At the light microscopic level, in confirmation of previous observations, choline acetyltransferase-immunoreactive axons and axonal boutons were found throughout the substantia nigra. The highest density of these axons was found in the pars compacta where they were often seen in close apposition to tyrosine hydroxylase-immunoreactive cell bodies and dendrites. In the ferret where the choline acetyltransferase immunostaining was particularly strong, bundles of immunoreactive fibres were seen to run through the reticulata perpendicular to the pars compacta. These bundles were associated with tyrosine hydroxylase-immunoreactive dendrites that descended into the reticulata. The choline acetyltransferase-immunoreactive fibres made "climbing fibre"-type multiple contacts with the tyrosine hydroxylase positive dendrites. At the electron microscopic level the choline acetyltransferase-immunoreactive axons were seen to give rise to vesicle-filled boutons that formed asymmetrical synaptic specializations with nigral dendrites and perikarya. The synapses were often associated with sub-junctional dense bodies. On many occasions the postsynaptic structures contained the tyrosine hydroxylase immunoreaction product, thus identifying them as dopaminergic. It is concluded that at least one of the synaptic targets of cholinergic terminals in the substantia nigra are the dendrites and perikarya of dopaminergic neurons and that in the ferret at least, the dendrites of dopaminergic neurons that descend into the pars reticulata receive multiple synaptic inputs from individual cholinergic axons.     

Decrease of behavioral and biochemical denervation supersensitivity of rat striatum by nigral transplants.

The effect of fetal mesencephalic transplants on dopamine receptor supersensitivity has been studied behaviorally and biochemically in rats with a unilateral lesion of the nigrostriatal pathway. Female rats were lesioned with 6-hydroxydopamine in the left substantia nigra. At least one month later they were tested with apomorphine (0.25 mg/kg, s.c.), amphetamine (5 mg/kg, s.c.), LY 171555 (D2 agonist) (0.5 mg/kg, i.p.) and CY 208243 (D1 agonist) (0.5 mg/kg, s.c.). A suspension containing approximately 1.5 x 10(6) cells from the ventral mesencephalon of rat embryos was distributed in three sites in a triangular fashion in the center of the denervated striatum. Six months later, grafted dopamine neurons reinnervated the medial part of the dorsal striatum, increased the dopamine level and reversed the rotational asymmetry evoked by amphetamine. Apomorphine given four months post-transplant still elicited contraversive circling but the number of turns was reduced. Circling evoked six months post-transplant by CY 208243 or LY 171555 was significantly less in grafted rats than in lesioned non-grafted rats. The density of dopaminergic receptors in the striatum of grafted and lesioned rats was examined by autoradiography by means of in vitro binding with [3H]SCH 23390 for D1 receptors and [3H] spiperone for D2 receptors. The results show that intrastriatal nigral transplants decrease the supersensitivity of the D2 receptors and to a lesser extent of the D1 receptors. Normalization of D2 receptors may explain the decrease of behavioral supersensitivity following administration of apomorphine and D2 agonist in grafted rats. D1 receptors were less affected by the lesion and also less normalized than D2 receptors by the transplants.(ABSTRACT TRUNCATED AT 250 WORDS)