Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0030567 (Parkinson's disease)
 63,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Normal cellular metabolism produces oxidants that are neutralized within cells by antioxidant enzymes and other antioxidants. An imbalance between oxidant and antioxidant has been postulated to lead the degeneration of dopaminergic neurons in Parkinson's disease. In this study, we examined whether selenium, an antioxidant, can prevent or slowdown neuronal injury in a 6-hydroxydopamine (6-OHDA) model of Parkinsonism. Rats were pre-treated with sodium selenite (0.1, 0.2 and 0.3 mg/kg body weight) for 7 days. On day 8, 2 micro L 6-OHDA (12.5 micro g in 0.2% ascorbic acid in normal saline) was infused in the right striatum. Two weeks after 6-OHDA infusion, rats were tested for neurobehavioral activity, and were killed after 3 weeks of 6-OHDA infusion for the estimation of glutathione peroxidase, glutathione-S-transferase, glutathione reductase, glutathione content, lipid peroxidation, and dopamine and its metabolites. Selenium was found to be successful in upregulating the antioxidant status and lowering the dopamine loss, and functional recovery returned close to the baseline dose-dependently. This study revealed that selenium, which is an essential part of our diet, may be helpful in slowing down the progression of neurodegeneration in parkinsonism.
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PMID:Dose-dependent protective effect of selenium in rat model of Parkinson's disease: neurobehavioral and neurochemical evidences. 1255 63

Parkinson's disease (PD) is a chronic neurodegenerative disorder, and it has been suggested that treatments promoting survival and functional recovery of affected dopaminergic neurons could have a significant and long-term therapeutic value. In the present study, we investigated the neuroprotective effects of acupuncture on the nigrostriatal system in rat unilaterally lesioned with 6-hydroxydopamine (6-OHDA, 4 microg/microl, intrastriatal injection) using tyrosine hydroxylase (TH) and receptor for brain-derived neurotrophic factor, trkB, immunohistochemistries. Two weeks after the lesions were made, rats presented with asymmetry in rotational behavior (118.3 +/- 17.5 turns/h) following injection with apomorphine, a dopamine receptor agonist (0.5 mg/kg, sc). In contrast, acupunctural treatment at acupoints GB34 and LI3 was shown to significantly reduce this motor deficit (14.6 +/- 13.4 turns/h). Analysis via TH immunohistochemistry revealed a substantial loss of cell bodies in the substantia nigra (SN) (45.7% loss) and their terminals in the dorsolateral striatum ipsilateral to the 6-OHDA-induced lesion. However, acupunctural treatment resulted in the enhanced survival of dopaminergic neurons in the SN (21.4% loss) and their terminals in the dorsolateral striatum. Acupuncture also increased the expression of trkB significantly (35.6% increase) in the ipsilateral SN. In conclusion, we observed that only acupuncturing without the use of any drug has the neuroprotective effects against neuronal death in the rat PD model and these protective properties of acupuncture could be mediated by trkB.
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PMID:Acupuncture prevents 6-hydroxydopamine-induced neuronal death in the nigrostriatal dopaminergic system in the rat Parkinson's disease model. 1266 52

The neurotoxin MPTP can damage dopamine systems in the brains of rodents, cats, or monkeys, and is therefore widely used to model degenerative processes that underlie human Parkinson's disease. Here, we investigated the relationships between behavioral and neurochemical effects of systemic MPTP treatment in C57Bl/6 and Balb/c mice. Initially, different doses of MPTP were used to determine which of them might be useful to establish severe striatal dopamine depletions. These data showed that four injections of 20mg/kg at two hour intervals, were more efficient than 10 or 15mg/kg per injection. However, this dose was not usable due to its severe lethality in females. In contrast, 4x 15mg/kg had a low risk of lethality and led to substantial dopamine depletions, which were more severe in the neostriatum than the ventral striatum, and more severe in C57 than in Balb mice. In the first open field test, which was performed two hours after the last injection, this treatment led to severe behavioral inactivation in all parameters taken (distance and speed of locomotion, peripheral activity, frequency and duration of rearing). This effect was seen in both strains and gender. Thereafter, recovery differed between strains, since Balb mice, which had sustained the smaller lesions, had completely recovered on the subsequent day, whereas similar recovery took longer in C57 mice. On the fourth day, all groups appeared largely normal; however, the measure of rearing behavior still showed a deficit in C57 mice. This deficit on day 4 was correlated with neostriatal dopamine depletion; that is, the larger the lesion, the less the number and duration of rearings. Interestingly, these relationships were also observed with respect to ventral striatal dopamine damage, which was correlated with the rearing deficit not only on day 4, but also on day 1. These data will be discussed with respect to mechanisms of toxicity, functional recovery, and the function of striatal dopamine systems.
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PMID:Strain-dependent recovery of open-field behavior and striatal dopamine deficiency in the mouse MPTP model of Parkinson's disease. 1283 13

We have examined the possibility of using herpes simplex virus (HSV)-based vectors to prevent neuronal cell death and enhance functional recovery after injury. In the 6-hydroxydopamine (6-OHDA) model of Parkinson's disease (PD) and after proximal spinal root injury, direct stereotactic injection of HSV-based vectors constructed to express the glial cell derived neurotrophic factor (GDNF) or the anti-apoptotic peptide Bcl-2 prevented neuronal death and enhanced recovery. Gene transfer may be useful in the treatment of neurologic disorders in which neuronal cell death occurs in a restricted anatomic distribution.
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PMID:Therapeutic gene transfer with herpes-based vectors: studies in Parkinson's disease and motor nerve regeneration. 1459 21

Normal cellular metabolism produces oxidants which are neutralized within the cell by antioxidant enzymes and other antioxidants. An imbalance between oxidant and antioxidant has been postulated to lead the degeneration of dopaminergic neurons in Parkinson's disease. In this study, we examined whether adenosine, an antioxidant, can prevent or slowdown neuronal injury in 6-hydroxydopamine (6-OHDA) model of Parkinsonism. Rats were treated with adenosine (500, 250, 125 mg/kg b.wt.) once before surgery and five times after surgery (1 h interval). 2 microl 6-OHDA (12.5 microg in 0.2% ascorbic acid in normal saline) was infused in the right striatum. Two weeks after 6-OHDA infused rats were tested for neurobehavioral activity and sacrificed after 3 weeks of 6-OHDA infusion, for the estimation of glutathione peroxidase, glutathione-S-transferase, glutathione reductase, glutathione content, lipid peroxidation and dopamine and its metabolites. Adenosine was found to be successful in up-regulating the antioxidant status, lowering the dopamine loss and functional recovery returned close to the baseline dose. This study revealed that adenosine, which is an essential part of our body, might be helpful in slowing down the progression of neurodegeneration in Parkinsonism.
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PMID:Protective effect of adenosine in rat model of Parkinson's disease: neurobehavioral and neurochemical evidences. 1459 64

Noradrenaline has been shown to control dopamine turnover and release in rat brain. Noradrenergic lesion with N-(2-chloroethyl)-N-ethyl-2-bromobenzylamine (DSP-4) decreases dopamine release in the striatum and enhances catalepsy in experimental models of Parkinson's disease. However, in due course, sprouting of remaining noradrenergic axons, to compensate for the decreased noradrenaline is said to occur in specific brain regions. Though this is to some extent understood, the longstanding effects of noradrenergic lesion on dopaminergic neurons of the basal ganglia and in Parkinsonian behavior is not known. Here the question is addressed, whether locus coeruleus lesion with DSP-4 in rats alters dopamine concentration of the basal ganglia and influences Parkinsonian behavior in a long term (6 months). Parkinsonian behavior was assessed by catalepsy and activity cage after challenging with subthreshold dose of haloperidol (0.2 mg/kg), on 7, 30, 90, 120 and 180 days after DSP-4 lesion. The concentrations of noradrenaline and dopamine and its metabolites were estimated by HPLC. 6 months after DSP-4 lesion, increased concentration of noradrenaline was found in prefrontal cortex and hippocampus. Other regions remain unaffected. The concentration of dopamine remained unchanged. However, dopamine turnover appeared to be increased in prefrontal cortex and reduced in striatum and nucleus accumbens. Catalepsy and hypoactivity were observed in DSP-4 lesioned animals after haloperidol challenge on 7th, 30th and 60th day. Though dopamine turnover was reduced after 6 months in the striatum, haloperidol-induced catalepsy was not observed after 60 days. These results indicate a gradual functional recovery, perhaps hyperinnervation of noradrenergic neurons after DSP-4 treatment and the reversal of its effects on dopaminergic neurons and on Parkinsonian symptoms.
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PMID:Functional recovery of locus coeruleus noradrenergic neurons after DSP-4 lesion: effects on dopamine levels and neuroleptic induced-parkinsonian symptoms in rats. 1471 12

A deficiency in the noradrenergic system of the brain, originating largely from cells in the locus coeruleus (LC), is theorized to play a critical role in the progression of a family of neurodegenerative disorders that includes Parkinson's disease (PD) and Alzheimer's disease (AD). Consideration is given here to evidence that several neurodegenerative diseases and syndromes share common elements, including profound LC cell loss, and may in fact be different manifestations of a common pathophysiological process. Findings in animal models of PD indicate that the modification of LC-noradrenergic activity alters electrophysiological, neurochemical and behavioral indices of neurotransmission in the nigrostriatal dopaminergic system, and influences the response of this system to experimental lesions. In models related to AD, noradrenergic mechanisms appear to play important roles in modulating the activity of the basalocortical cholinergic system and its response to injury, and to modify cognitive functions including memory and attention. Mechanisms by which noradrenaline may protect or promote recovery from neural damage are reviewed, including effects on neuroplasticity, neurotrophic factors, neurogenesis, inflammation, cellular energy metabolism and excitotoxicity, and oxidative stress. Based on evidence for facilitatory effects on transmitter release, motor function, memory, neuroprotection and recovery of function after brain injury, a rationale for the potential of noradrenergic-based approaches, specifically alpha2-adrenoceptor antagonists, in the treatment of central neurodegenerative diseases is presented.
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PMID:Noradrenergic mechanisms in neurodegenerative diseases: a theory. 1506 99

Grafts of primary ventral mesencephalic tissue and cell suspensions to the denervated striatum are currently utilized as a treatment strategy for Parkinson's disease. Survival rates of grafted dopamine (DA) neurons are extremely poor (5-20%) and is even poorer in grafts to the aged striatum. Short pretreatment of grafted cells with various survival-promoting agents has elicited 2- to 3-fold improvements in these survival rates. However, the duration of pretreatment is limited by the necessity of implanting the embryonic cells within a critical period after tissue harvest, potentially limiting the beneficial effects of these interventions. This study details the use of a modified mesencephalic reaggregate culture system combined with striatal-derived trophic factor support to provide an extended ex vivo cell culture interval before grafting. Mesencephalic cell suspension grafts implanted immediately following dissociation were compared to grafts of an equivalent number of cells reaggregated in the presence of striatal oligodendrocyte-type-2 astrocyte (SO2A) conditioned medium for 3 or 7 days. All grafts were placed in the denervated striatum of young adult male Fischer 344 rats. Rotational assessment of amphetamine-induced rotations indicates that aggregates maintained for 3 days in culture present statistically similar functional recovery profiles as compared to cell suspension grafts. Grafts of mesencephalic reaggregates maintained in vitro for 7 days did not display significant improvements in functional recovery. Immunohistochemical analysis for tyrosine hydroxylase immunoreactive (THir) neurons conducted at 10 weeks post-grafting revealed equivalent survival rates of THir neurons in grafts of fresh cell suspensions and aggregates held in culture for 3 days. Grafts of reaggregates held in culture for 7 days possessed significantly fewer THir neurons, about 25% of the cell suspension or 3-day aggregate grafts. This ex vivo reaggregate system allows for extended pretreatment (3 days) of mesencephalic cells with survival-promoting agents and immunological screening of tissue before transplantation.
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PMID:An in vitro interval before transplantation of mesencephalic reaggregates does not compromise survival or functionality. 1508 88

Dopaminergic (DA) micrografts were co-transplanted with Schwann cells (SC) overexpressing 18 kDa and 21/23 kDa FGF-2 into the caudate-putamen unit (CPu) of unilaterally 6-hydroxydopamine-lesioned rats. We report here that SC engineered to overexpress FGF-2 promoted DA-graft-induced restoration, whether co-transplanted at the same site or grafted at a second more distant site within the CPu. In addition, the 21/23 kDa FGF-2 isoforms resulted in a significantly better reinnervation and survival of dopaminergic micrografts when compared to the 18-kDa FGF-2 isoform. However, this effect was not that distinct on functional recovery due to, for example, ceiling effects. One main finding of this study was the influence of the gene promotor on DA survival, respectively, vector-mediated trophism. Therefore, comparisons in terms of survival between 18 kDa and higher molecular weight (HMW) FGF-2 are complicated in the mixed grafted experiments. Furthermore, the first demonstration of the presence of the 21/23 kDa FGF-2 isoforms in the nigrostriatal system and their potent neurotrophic in vivo activities, as shown in the present study, suggest (I) a physiological role of these proteins for dopaminergic neurons and (II) a restorative potential under normal as well as regenerative processes. However, FGF-2-mediated effects are more pronounced after co-transplantation with SC/DA cells mixed in one suspension at the same implantation side than in the side-by-side approach with a spatially and temporally separated transplantation of SC (day 1) and DA-cells (day 3). These findings indicate the necessity of direct contact between FGF-2 and DA-neurons, further elucidate the neurotrophic role of FGF-2 for DA-neurons and highlight the differential restorative potentials of its respective isoforms. We propose that administration of HMW FGF-2 may be used to improve function in the rat Parkinson's disease model.
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PMID:Enhanced survival, reinnervation, and functional recovery of intrastriatal dopamine grafts co-transplanted with Schwann cells overexpressing high molecular weight FGF-2 isoforms. 1508 94

Neural progenitor cells (NPCs) are expected to be useful donor sources for cell transplantation therapy in Parkinson's disease. However, control of the differentiational lineage, especially into dopaminergic neurons, is still difficult. Thus, genetic modification of NPCs to produce l-dopa is potentially useful. The present study prepared high titer retrovirus carrying human tyrosine hydroxylase-1 (HTH-1) gene. HTH-1 gene could be efficiently transduced into NPCs obtained from the E12.5 rat mesencephalon. This retroviral gene transduction caused no apparent changes in survival, proliferation, or differentiation. In vitro, HTH-1 gene-transduced NPCs released little l-dopa and addition of tetrahydrobiopterin, the cofactor of tyrosine hydroxylase, was required for production of l-dopa. In vivo, three of seven hemi-parkinsonian model rats that received HTH-1 gene-transduced donor NPCs achieved functional recovery. High titer retroviral vector for gene transduction could be used to prepare NPCs for transplantation to hemi-parkinsonian model rats. However, functional recovery after transplantation of HTH-1 gene-transduced NPCs was incomplete.
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PMID:High titer retroviral gene transduction to neural progenitor cells for establishment of donor cells for neural transplantation to parkinsonian model rats. 1534 10


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