Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0599766 (functional recovery)
 13,441 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Division of the axons of adrenergic neurones by crushing the postganglionic nerve trunks of rat superior cervical ganglia (SCG) at 6 days of age resulted in a permanent atrophy of the SCG reflected by a persistent decrease in the total protein content and in the activities of the enzymes tyrosine hydroxylase and DOPA decarboxylase. Administration of nerve growth factor (NGF) to rats with unilateral axotomy at a dose of 10 mug/g/day for the period 7-21 days of age resulted in hypertrophy of both normal and axotomised SCG. There was a progressive rise in the total protein content and in the activities of the two enzymes till the end of the treatment period in both SCG. After treatment ceased there was a progressive fall in the total protein content and activities of the two enzymes reaching a stable level after 4 weeks. The level reached for treated unoperated SCG remained elevated when compared to untreated control SCG. Axotomised treated SCG had approximately the same biochemical parameters as untreated control SCG and very much elevated over untreated axotomised SCG. These final levels persisted for at least 56 days after treatment had ceased. Animals showed a persistent ptosis after axotomy at 6 days of age but treatment with NGF resulted in a functional recovery by 11 weeks of age. It is suggested that there is normally a retrograde transfer of a factor durind development from the target cell to the perikarya of the neurone permitting survival if the appropriate connections are made. Failure to make such a contact results in cedd death. The cell death occurring normally, and the cell death resulting from axotomy, can both be prevented by NGF treatment leading to an hypertrophy of both SCG. This consistent with the hypothesis than NGF is the retrograde trophic agent for the sympathetic nervous system in the developing animal.
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PMID:The response of adrenergic neurones to axotomy and nerve growth factor. 23 22

Injectable local drug delivery formulations-so-called microspheres have recently been developed, in which drugs are microencapsulated within biocompatible and biodegradable copolymer excipients like poly[DL-lactide-co-glycolide]. In view of its potential therapeutical usefulness, we have studied the microsphere methodology as a means to substitute for experimentally induced subnormal levels of endogenous dopamine (DA). Administration of 6-hydroxydopamine (6-OH-DA) unilaterally in the medial forebrain bundle of rats results in an up-regulation of postsynaptic receptors in the denervated striatum, functionally manifested as contralateral rotational behavior after apomorphine. DA microspheres were implanted in the denervated striatum. The majority of the rats displayed an attenuation of the contralateral rotational behavior induced by apomorphine up to 8 wk postimplantation. Immunocytochemical observations unexpectedly demonstrated growth of DA and tyrosine hydroxylase immunoreactive fibers in the denervated striatum. Interestingly, there was an apparent correlation between functional recovery and the degree of growth of DA fibers. The present results suggest that implantation of DA microspheres may promote DA fiber growth and extended recovery of surviving DA neurons, and, therefore, could be of therapeutic usefulness in Parkinson's disease.
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PMID:Dopamine fiber growth induction by implantation of synthetic dopamine-containing microspheres in rats with experimental hemi-parkinsonism. 135 53

Behavioral improvement has been seen in hemiparkinsonian animals after surgical lesions of the denervated caudate nucleus. This study was designed to investigate the role of inflammatory cells in injury-induced recovery. A hemiparkinsonian syndrome was induced in rats by unilateral injections of 6-hydroxydopamine into the pars compacta of the substantia nigra. Phytohemagglutinin-stimulated rat peritoneal cells, predominantly T cells and macrophages, were stereotactically implanted in the lesioned caudate-putamen, and amphetamine-induced turning was used to assess recovery. Animals receiving implants of activated peritoneal cells showed a 47% decrease in amphetamine-induced turning 8 weeks after implantation, which was not seen in control or sham-operated animals. Immunocytochemistry revealed increased tyrosine hydroxylase reactive fibers in the leukocyte-implanted striatum. We conclude that implantation of activated leukocytes promotes functional recovery in hemiparkinsonian rats.
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PMID:Recovery in hemiparkinsonian rats following intrastriatal implantation of activated leukocytes. 151 12

Following systemic injection of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), young (2-month-old) C57BL/6 mice show decreased dopaminergic (DA) nigrostriatal fibers and DA concentration in the striatum. We transplanted syngeneic, allogeneic and xenogeneic adrenal medullary grafts into the striatum of the MPTP-treated young mice and compared the survivability of grafted chromaffin cells and the recovery of intrinsic host DA fibers using computerized image analysis of tyrosine hydroxylase (TH)-immunoreactive (IR) fibers and high performance liquid chromatography with electrochemical detection (LCEC). The grafted syngeneic adrenal chromaffin cells survived better than allogeneic or xenogeneic chromaffin cells, and host DA nigrostriatal fiber recovery was more prominent in mice with a syngeneic graft than in mice with an allogeneic or xenogeneic graft. However, the degree of host fiber recovery in mice with allogeneic or xenogeneic mice was greater than in mice with a sham operation alone, even though the allografts and xenografts had no surviving chromaffin cells. Allografts and xenografts showed prominent rejection responses, with T lymphocyte infiltration in addition to macrophages. We conclude that a syngeneic adrenal graft survives better than an adrenal allograft or xenograft and promotes recovery of the intrinsic host nigrostriatal DA fibers. We also conclude that grafted chromaffin cell survivability influences the degree of host DA fiber recovery following MPTP depletion. Adrenal medullary grafts to Parkinsonian patients are currently under way in a large number of hospitals; we suggest that greater attention be paid to methods which lead to enhanced survival of the grafted chromaffin cells, since survivability might be closely related to the functional recovery of these patients.
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PMID:The nigrostriatal dopaminergic system in MPTP-treated mice shows more prominent recovery by syngeneic adrenal medullary graft than by allogeneic or xenogeneic graft. 186 45

Fine structural correlates and functional parameters were measured in pinealectomized rats following grafting of the pineal gland into the third cerebral ventricle. Pinealectomy caused a significant decrease in serum melatonin concentration of animals compared to that in normal controls. No significant difference was observed in the serum melatonin concentration between pinealectomized rats and those receiving sham transplantation with fragments of occipital cortex. By 6 weeks nearly 50% of pinealectomized rats receiving pineal transplants demonstrated a significant increase in the serum melatonin concentration in contrast to that of pinealectomized rats and pinealectomized animals receiving sham transplants. Pinealocytes survived and flourished following transplantation from the epithalamic region to the third cerebral ventricle of the hypothalamus in host rats. These cells were found to be arranged individually or in clusters surrounding fenestrated capillaries of the graft. Moreover, these pinealocytes demonstrated ultrastructural features indicative of an active secretory process, including dense-core and clear vesicles as well as vacuoles containing flocculent material. Additional characteristics distinctive of normal control pinealocytes were observed in surviving cells of grafts, such as synaptic ribbons, synaptic ribbon fields, and myeloid bodies. Bundles of unmyelinated axons and apparent adrenergic nerve endings were observed with transmission electron microscopy and immunocystochemistry using antisera against tyrosine hydroxylase (TH). Nerve fibers and terminals were found within perivascular spaces surrounding fenestrated capillaries of viable grafts. These reported observations suggest that a significant population of transplanted pinealocytes recover functional activity (e.g., heightened melatonin secretion) following stereotaxic grafting into the third cerebral ventricles of pinealectomized animals. This apparent recovery of function may be linked directly to reinnervation of the gland by nerve fibers that appear to arise from the underlying median eminence.
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PMID:Transplantation of the pineal gland in the mammalian third cerebral ventricle. 196 56

Schwann cells from transected peripheral nerve segments are known to produce nerve growth factor (NGF). We performed adrenal medullary grafts or cografts of adrenal medulla and sciatic nerve into the striatum of MPTP-treated young adult mice, and compared the survivability of grafted chromaffin cells and the recovery of intrinsic host DA fibers using computerized image analysis of tyrosine hydroxylase (TH)-immunoreactive (IR) fibers and neurochemical analysis with high performance liquid chromatography (HPLC). Adrenal medullary chromaffin cells cografted with sciatic nerve survived better than those in adrenal grafts alone; host DA fiber recovery was more prominent in mice with cografts than in mice with adrenal grafts alone. A large number of TH-IR surviving cells in cografted mice showed long neuronal processes which were rarely seen in the mice receiving adrenal graft alone. We conclude that cograft of adrenal medulla and sciatic nerve promotes intrinsic host DA fiber recovery better than adrenal medulla grafts alone, and that survivability of grafted chromaffin cell may promote host DA fiber recovery. Adrenal medullary autografts have been used in patients with Parkinson's disease; we suggest that if this approach is to be used in the future, methods to increase the survivability of grafted chromaffin cells, such as co-grafting with pieces of peripheral nerve, be considered to enhance the survivability of the chromaffin cells, which might be closely related to the functional recovery of the patients by this grafting procedure. Of course, such strategies as the present cografting approach must be demonstrated to work in older animals using older donor tissue before proceeding to this next step in humans.
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PMID:Cografts of adrenal medulla with peripheral nerve enhance the survivability of transplanted adrenal chromaffin cells and recovery of the host nigrostriatal dopaminergic system in MPTP-treated young adult mice. 198 43

The effects of daily treatment with GM-1 ganglioside (30 mg/kg i.p.) or saline (1 ml/kg i.p.) in rats with discrete unilateral electrolytic lesions of the dorsal substantia nigra were investigated. Treatment with GM-1 ganglioside, beginning 3 days prior to surgery and continuing for 33 days post-operatively, caused reductions in the total ipsilateral turns and peak turning rates induced by apomorphine (0.75 mg/kg s.c.) between 7 and 31 days post-operatively, without altering the time course of the effect of apomorphine. No effects of GM-1 on lesion-induced changes in synaptosomal uptake of [3H]dopamine, dopamine, serotonin in the striatum or corresponding levels of metabolites were found. Treatment with GM-1 ganglioside had no effect on the rostrocaudal extent of the electrolytic lesion, but caused morphological changes at the site of the lesion, including a reduction in the density of glial cells. Treatment with GM-1 ganglioside resulted in a relative preservation of cell bodies, staining immunocytochemically for tyrosine hydroxylase, in the substantia nigra pars compacta (expressed as a percentage of the intact side), when compared with saline-treated rats. The results showed that GM-1 ganglioside promoted a partial functional recovery from apomorphine-induced circling, which may be due in part to a reduction in the extent of damage at the lesion site.
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PMID:Behavioural and morphological changes following treatment with GM-1 ganglioside of rats with an electrolytic lesion of the substantia nigra. 256 73

Previous reports from this laboratory have indicated that fetal rat striatal grafts have the major types of neuronal and glial components known to be involved in Huntington's chorea. In this study a number of major afferent and efferent innervations seen in normal striatum were examined in the striatal grafts and were compared with embryonic striatal afferents. First, using immunocytochemistry and histochemistry, the host serotonergic (5-HT), dopaminergic (DA, stained with anti-tyrosine hydroxylase (TH) antiserum), and acetylcholinesterase (AChE) fibers exhibited vigorous growth into the grafts implanted in neostriatum, lateral ventricle, globus pallidus or substantia nigra within a period of 6 and 10 weeks. Individual characteristic terminal patterns formed in striatal grafts: 5-HT fibers were diffused; TH fibers became heavily packed, and AChE fibers were patchy. This peculiar patternization of 5-HT and TH growth into striatal graft appeared to be a recapitulation of the normal 5-HT and TH ingrowth into striatum in the embryonic stage. However, a significantly slow (6 week) onset of adult 5-HT and TH ingrowth into the fetal graft was noted, as compared with that of normal embryonic development (5-6 days from the appearance of 5-HT and TH neurons). With the anterograde-transport marker Phaseolus vulgaris agglutinin leuca method, host cortical neurons also projected to the graft, but in limited numbers. Finally, with the retrograde-transport marker (horseradish peroxidase method, the grafts implanted in neostriatum were found incapable of sending fibers to a major, distal target, substantia nigra. In a current evaluation of striatal transplants, it is shown that major input to the graft can be achieved over time, but output to the distal nigra seems an unrealistic expectation. These data suggest that: (1) the fetal brain tissue was found to be a strong stimulant for sprouting or regeneration of adult nerve fibers; (2) a number of functional recoveries reported on the tested behavior paradigm in this grafting model could be due to the survival of striatal graft and the establishment of input circuitries; further, (3) the data illustrate the necessity of seeking a bridge from the striatal transplant to the host nigra. If a proper functional recovery in Huntington's chorea requires complete striatonigral circuitry, then such a bridge is worthy of a major investigation.
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PMID:Connectivities of the striatal grafts in adult rat brain: a rich afference and scant striatonigral efference. 259 10

In adult rats with a unilateral 6-hydroxydopamine-induced destruction of the nigrostriatal dopamine (DA) pathway, grafts of embryonic substantia nigra can establish a new dopaminergic terminal fiber plexus in the previously denervated neostriatum and compensate for some of the behavioral deficits induced by the nigrostriatal lesion. In the present study the synaptic connections of the ingrowing DA fibers from the graft were analyzed ultrastructurally, using immunocytochemical localization of tyrosine hydroxylase (TH), in animals whose lesion-induced motor asymmetry had been completely compensated for by the nigral grafts. In two of the animals, horseradish peroxidase-wheatgerm agglutinin conjugate was injected into the graft in order to trace possible reciprocal afferent connections to the graft from the host striatum. TH-immunoreactive axons from the graft were seen to make abundant symmetric synapses with neuronal elements in the host neostriatum. Between 85 and 90% of these synapses were on dendritic shafts and spines, and the rest were on neuronal perikarya. Two principal targets were identified: dendrites of spiny neurons, the majority of which are likely to be striatal projection neurons; and the cell bodies of giant neurons, most (or perhaps all) of which are known to be cholinergic interneurons. The synapses made on dendritic spines, which constituted about 40% of all TH-positive synapses formed by the TH-positive neurons in the graft, resembled those seen in normal animals, both in that they made contacts with spine necks and in that they invariably were associated with an asymmetric TH-negative synapse contacting the spine head. The innervation of the giant cell perikarya, which constituted about 6% of all TH-positive synapses found, was strikingly abnormal in that the graft-derived TH-positive fibers formed dense pericellular "baskets" selectively around the giant cell bodies. Such arrangements were never seen in the normal striatum, nor did they occur in the intact contralateral striatum in the grafted animals. It is proposed that this apparent dopaminergic hyperinnervation from the graft could provide a powerful inhibition of the cholinergic interneurons in the reinnervated host striatum, and that such an inhibitory mechanism could assist in the graft-induced functional recovery by potentiating the functional effects of DA synapses terminating on the spiny efferent neurons. This dual innervation may thus help to explain why restoration of only a small proportion of the striatal DA innervation by the graft is sufficient to induce complete compensation of, e.g., motor asymmetry in the lesioned rats.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Efferent synaptic connections of grafted dopaminergic neurons reinnervating the host neostriatum: a tyrosine hydroxylase immunocytochemical study. 285 78

Questions arising from recent clinical neural transplantation trials in Parkinson's disease have under-scored the necessity for a thorough experimental evaluation of the structural and functional consequences of this procedure. The present study investigated the neuroanatomical host reaction to intrastriatal implants in normal and 1-methyl-4-phenyl-1,2,5,6-tetrahydropyridine (MPTP)-treated nonhuman primates. Nine monkeys (Cebus apella) received intrastriatal implants using either a stereotactic approach with a silver tissue carrier or an open microsurgical procedure. Seven of these animals received intrastriatal adrenal medullary autografts, while two received control implants consisting of the tissue carrier alone. One month following transplantation, the hosts' brains were evaluated via immunohistochemical and routine histologic methods. In both MPTP-treated and normal monkeys, enhanced ipsilateral expression of tyrosine hydroxylase-like immunoreactive (TH-IR) fibers in the caudate nucleus was observed, despite minimal survival of adrenal chromaffin cells in the implants. The intensity of this response was greatest adjacent to the implant site, but a clearly increased degree of ipsilateral striatal fiber staining also could be seen several millimeters from the graft. TH-IR fibers also were more dense and of thicker caliber throughout the nigrostriatal and mesolimbic pathways ipsilateral to the implant. Control stereotactic implants, consisting of a silver tissue carrier alone, produced a similar enhancement of immunoreactive fibers, suggesting an induction of TH-IR fibers by the parenchymal injury produced during surgical implantation. There are two major hypotheses proposed to explain why adrenal medullary grafts may promote functional recovery in human parkinsonism: (1) replacement of lost striatal neurotransmitter (dopamine) by the viable grafted tissue, or (2) induction of recovery of remaining host dopaminergic systems by the implantation procedure. Our current data appear to support the latter.
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PMID:Adrenal medullary autografts into the basal ganglia of Cebus monkeys: injury-induced regeneration. 290 68


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