UMLS:C0030567 - FACTA Search

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Query: UMLS:C0030567 (Parkinson's disease)
63,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Research reports on de novo neurogenesis, particularly dopaminergic (DA) neurogenesis in the adult mammalian substantia nigra (SN), remain very controversial. For this reason, we used the nestin second intron enhancer-controlled LacZ reporter transgenic mouse model coupled with the 1-methyl-4-phyenyl-1,2,3,6-tetrahydropyridine (MPTP) lesion system to investigate whether there are neurogenesis and DA neurogenesis in the SN of the adult normal and Parkinson's disease (PD)-like mice. First, we demonstrated the presence of neural progenitor cells (NPCs), basal levels of neurogenesis, and DA neurogenesis in the normal adult mouse SN. Second, we showed that there is not only a significant increase in the number of NPCs but also a dramatic increase of neurogenesis from the NPCs in the SN and the midline region adjacent to the SN of the PD-like mice compared with that of normal controls. More importantly, we also demonstrated that there is an increase of DA neurogenesis in the SN of the MPTP-lesioned mice. Third, we showed that the increased DA neurogenesis in the MPTP-lesioned mice was derived from the NPCs and 5-bromodeoxyuridine-positive cells, suggesting that multiple stem cell lineages may contribute to the enhanced neurogenesis in the adult SN. Taken together, these results establish that there are basal levels, albeit low, and increased levels of de novo neurogenesis and DA neurogenesis in the SN of the adult normal and PD-like mice, respectively. The increased NPCs in the MPTP-lesioned mice further suggest that experimental approaches to promote de novo neurogenesis may provide an effective therapy for PD by functional replacement of degenerated DA neurons.
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PMID:Enhanced de novo neurogenesis and dopaminergic neurogenesis in the substantia nigra of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-induced Parkinson's disease-like mice. 1642 96

Parkinson disease is a neurodegenerative disease characterized by loss of midbrain dopaminergic neurons resulting in movement disorder. Neural stem cells (NSC) of the CNS have recently aroused a great deal of interest, not only because of their importance in basic research of neural development, but also for their therapeutic potential in neurological disorders. We have recently generated an immortalized human NSC cell line, HB1.F3, via retrovirus-mediated v-myc transfer. This line is capable of self-renewal, is multipotent, and expresses cell specific markers for NSC, ATP-binding cassettes transporter (ABCG2) and nestin. Next, we co-transduced the F3 NSC line with genes encoding tyrosine hydroxylase (TH) and GTP cyclohydrolase 1 (GTPCH1) in order to generate dopamine-producing NSC. The F3.TH.GTPCH human NSC line expresses TH and GTPCH phenotypes as determined by RT-PCR, western blotting and immunocytochemistry, and shows a 800 to 2000-fold increase in production of L-dihydroxyphenyl alanine in HPLC analysis. A marked improvement in amphetamine-induced turning behavior was observed in parkinsonian rats implanted with F3.TH.GTPCH cells, but not in control rats receiving F3 NSC. In the animals showing functional improvement, a large number of TH-positive F3.TH.GTPCH NSC were found at injection sites. These results indicate that human NSC, genetically transduced with TH and GTPCH1 genes, have great potential in clinical utility for cell replacement therapy in patients suffering from Parkinson disease.
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PMID:Brain transplantation of human neural stem cells transduced with tyrosine hydroxylase and GTP cyclohydrolase 1 provides functional improvement in animal models of Parkinson disease. 1670 45

We present a simple method for neural cell fate specification directly from mouse embryonic stem cells (ES cells) in serum-free conditions in the absence of embryoid body formation. Dissociated ES cells were cultured in serum-free media supplemented with vitamin B12 and heparin, but without any expensive cytokines. After 14 days in culture, beta-tubulin type III (TuJ1) and tyrosine hydroxylase (TH)-positive colonies were detected by immunocytochemical examinations. In addition, specific gene analyses by RT-PCR demonstrated expression of an early central nerve system, mature neuron, and midbrain dopaminergic neuron-specific molecules (i.e., nestin, middle molecular mass neurofilament protein, Nurr1, and TH, respectively). Dopamine was also detected in the culture media by reverse-phase HPLC analysis. These facts indicate that addition of vitamin B12/heparin to serum-free culture media induced neurons from ES cells, which included cells that released dopamine. Other supplements, such as putrescine, biotin, and Fe2+, could not induce neurons from ES cells by themselves, but produced synergistic effects with vitamin B12/heparin. The rate of TuJ1+/TH+ colony formation was increased threefold and the amounts of dopamine released increased 1.5-fold by the addition of a mixture of putrescine, biotin, and Fe2+ to vitamin B12/heparin culture media. Our method is a simple tool to differentiate ES cells to dopaminergic neurons for the preparation of dopamine-releasing cells for the cell transplantation therapy of Parkinson's disease. In addition, this method can facilitate the discovery of soluble factors and genes that can aid in the induction of the ES cell to its neural fate.
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PMID:One-step induction of neurons from mouse embryonic stem cells in serum-free media containing vitamin B12 and heparin. 1671 47

To address the hypothesis that reactive astrocytes in the basal ganglia of an animal model of Parkinson's disease serve neurotrophic roles, we studied the expression pattern of neurotrophic factors in the basal ganglia of C57/Bl mice that had been treated with 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) to induce the degeneration of nigral dopamine neurons and parkinsonism. MPTP induced significant neuronal degeneration in the substantia nigra pars compacta as detected with Fluoro-Jade B staining, and this was accompanied by an increase in nestin-expressing astrocytes within the caudate-putamen. The number of nestin-positive reactive astrocytes in the caudate-putamen peaked within 3-5 days following MPTP treatment and then declined progressively toward the basal level by 21 days after treatment. Immunofluorescence and confocal microscopy confirmed coexpression of nestin or Ki-67 (cell proliferation marker) in glial fibrillary acid protein-positive astrocytes in the caudate-putamen. Double immunolabeling further revealed immunoreactivities for nerve growth factor (NGF), neurotrophin-3 (NT3), and glial cell line-derived neurotrophic factor (GDNF) in nestin-positive reactive astrocytes. Semiquantification of data obtained from mice 5 days after MPTP injection indicated that the majority of nestin-expressing cells expressed NGF (92%), NT3 (90%), or GDNF (86%). Our results present novel evidence of neurotrophic features among reactive astrocytes in the dopamine-depleted striatum. These nestin-expressing reactive astrocytes may therefore play neurotrophic roles in neural remodeling of the basal ganglia in Parkinson's disease.
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PMID:Localization of nerve growth factor, neurotrophin-3, and glial cell line-derived neurotrophic factor in nestin-expressing reactive astrocytes in the caudate-putamen of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-treated C57/Bl mice. 1680 32

We describe a method of generating an enriched population of NCAM-positive cells from a human teratocarcinoma cell line (NTera2/D1) and their differentiation into midbrain dopaminergic neurons in the absence of the caudalizing factor retinoic acid (RA). NTera2 cells were induced to form embryoid bodies and then to generate nestin-positive cells on treatment with serum-free defined medium supplemented with neurotrophic factors. We enriched the neuroprogenitor population by magnetic sorting of the nestin-positive cells using the antibody to neural cell adhesion molecule (NCAM). These cells were expanded by exposing them to the signaling molecule sonic hedgehog (SHH) in conjunction with fibroblast growth factor-8 (FGF-8). The predifferentiated cells when analyzed by RT-PCR showed expression of dopaminergic markers such as Nurr1, Engrailed-1, aromatic amino decarboxylase (AADC), VMAT2, tyrosine hydroxylase (TH), and dopamine transporter (DAT). These cells also stained positively for protein markers such as nestin, NCAM, MAP-2, and TH. We further demonstrated that when transplanted into the brain of Parkinsonian rats, these neuroprogenitor cells did not form tumors but differentiated into dopaminergic neurons, as revealed by TH immunolabeling. The origin of transplanted cells were further confirmed by positive immunolabeling with anti-human nuclei. Our results suggest that enriching the neuroprogenitor population by magnetic sorting prevents tumor formation and is a prerequisite before cell replacement therapy for Parkinson's disease.
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PMID:Enriched NCAM-positive cells form functional dopaminergic neurons in the rat model of Parkinson's disease. 1697 60

This study was to explore curative effect of bone marrow stromal cells (BMSCs) differentiated into nestin-positive cells transplantation on rat Parkinson's disease (PD) model. The PD rats were selected and allocated randomly into three groups. BMSCs with differentiation, BMSCs without differentiation and physiological saline were injected into right striatum of PD rat. The rotation test and immunofluorescence double staining were done. Frequency of rotation was significantly less in differentiated or non-differentiated BMSCs groups than that in normal saline group. Brdu/GFAP- and Brdu/NSE-positive cells appeared except BrdU/TH-positive cells. BMSCs differentiated had better effect than that of BMSCs without differentiated and physiological saline group.
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PMID:Therapeutic effects of differentiated bone marrow stromal cell transplantation on rat models of Parkinson's disease. 1700 32

Neural stem cells (NSCs) possess high potencies of self-renewal and neuronal differentiation. We explored here whether transplantation of human NSCs cloned by v-myc gene transfer, HB1.F3 cells, is a feasible therapeutic option for Parkinson's disease. In vivo, green fluorescent protein-labeled HB1.F3 cells (200,000 viable cells in 3 microl of PBS) when stereotaxically transplanted (same-day lesion-transplant paradigm) into the 6-hydroxydopamine-lesioned striatum of rats significantly ameliorated parkinsonian behavioral symptoms compared with controls (vehicle, single bolus, or continuous minipump infusion of trophic factor, or killed cell grafts). Such graft-derived functional effects were accompanied by preservation of tyrosine hydroxylase (TH) immunoreactivity along the nigrostriatal pathway. Grafted HB1.F3 cells survived in the lesioned brain with some labeled with neuronal marker mitogen-activated protein 2 and decorated with synaptophysin-positive terminals. Furthermore, endogenous neurogenesis was activated in the subventricular zone of transplanted rats. To further explore the neuroprotective mechanisms underlying HB1.F3 cell transplantation, we performed cell culture studies and found that a modest number of HB1.F3 cells were TH and dopamine and cAMP-regulated phosphoprotein 32 positive, although most cells were nestin positive, suggesting a mixed population of mature and immature cells. Administration of the HB1.F3 supernatant to human derived dopaminergic SH-SY5Y cells and fetal rat ventral mesencephalic dopaminergic neurons protected against 6-hydroxydopamine neurotoxicity by suppressing apoptosis through Bcl-2 upregulation, which was blocked by anti-stem cell factor antibody alone, the phosphatidylinositol 3-kinase/Akt inhibitor LY294002 [2-(4-morpholinyl)-8-phenyl-1(4H)-benzopyran-4-one] alone, or a combination of both. These results suggest that HB1.F3 cell transplantation exerts neuroprotective effects against dopaminergic depletion in vitro and in vivo because of trophic factor secretion and neuronal differentiation.
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PMID:Transplantation of human neural stem cells exerts neuroprotection in a rat model of Parkinson's disease. 1713 12

Neural stem cells (NSCs) are multipotent and widely used in many research fields such as transplantation. Hypoxia not only improves the proliferation of various stem cells in vitro but also plays an important role in the differentiation of stem cells. The aim of the present study was to investigate the effect of hypoxia on the differentiation of NSCs. NSCs were isolated from the midbrain of embryonic Wistar rats (E13.5d), and cultured in serum-free DMEM/F12 medium (containing 20 ng/mL EGF, 20 ng/mL bFGF, 1% N2 and B27). The neurospheres were passaged every 3-5 d, and the third generation of NSCs was used for the following experiments. NSCs were induced under normoxia (20% O2) and hypoxia (3% O2), respectively, for 3 d, and then differentiated under normoxia for 5-7 d (DMEM/F12 medium containing 1% FBS, N2 and B27). Immunohistochemistry of nestin, NeuN and TH was used for NSC identification and differentiation assay. The number of TH-positive cells was evaluated by flow cytometry. Dopamine (DA) content in the supernatant of culture medium was detected by HPLC. The results showed that NSCs could self-renew and were all nestin-positive. NSCs under hypoxic condition differentiated more neurons than those under normoxic condition. The percentage of TH-positive cells differentiated from NSCs under normoxia and hypoxia was (10.25+/-1.03) % and (19.88+/-1.44) %, respectively. In addition, DA content in the supernatant of culture medium in hypoxia group increased significantly, about twice of that in normoxia group (P<0.05, n=8). The results demonstrate that hypoxia (3% O2) promotes the differentiation of NSCs into neurons, especially dopaminergic neurons. It is suggested that hypoxia may be a potential clinical tool to treat Parkinson's disease.
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PMID:[Hypoxia promotes the differentiation of neural stem cells into dopaminergic neurons]. 1757 80

Despite the success of foetal nigral transplantation for the treatment of Parkinson's disease, supply limitations of tissue means that alternative sources must be found. Transplantation of human neural progenitor cells (HNPCs) may offer a solution, however few studies have shown functional recovery in animal models of PD without cell modification. Here we show that unmodified HNPC grafted into the subthalamic nucleus (STN) show excellent survival of up to 5 months and induce significant functional recovery following amphetamine-induced rotations within 4 weeks. For the first time we also show that HNPCs, which remain in an immature nestin-positive state, produce VEGF in vivo allowing further modification of the host brain. This suggests that even in the absence of cell replacement strategies utilising immature progenitor cells could be of real therapeutic value.
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PMID:Human neural progenitor cell transplants into the subthalamic nucleus lead to functional recovery in a rat model of Parkinson's disease. 1758 88

We examined the effects of 7-nitroindazole on the dopaminergic system in mice after 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) treatment. The mice received four intraperitoneal injections of MPTP (20 mg/kg) at 2 h-intervals. Administration of 7-nitroindazole showed dose-dependent neuroprotective effects against striatal dopamine, 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) depletion 7 days after MPTP treatment. Behavioral testing showed that MPTP-treated mice exhibited motor deficits in the catalepsy test after 7 days, but 7-nitroindazole prevented the appearance of motor abnormalities in this test. The MPTP-treated mice exhibited the loss of tyrosine hydroxylase-containing dopaminergic neurons in mice after 1, 3 and 7 days, but 7-nitroindazole-treated mice showed a protective effect. GFAP (glial fibrillary acidic protein)-positive astrocytes were accumulated in the striatum 3 and 7 days and in the substantia nigra 1, 3 and 7 days after MPTP treatment. In contrast, 7-nitroindazole prevented a significant increase in the number of GFAP-positive astrocytes in the striatum and substantia nigra after MPTP treatment. The reactive astrocytes in the striatum and substantia nigra after MPTP treatment increased the production of S100beta protein, which is thought to promote neuronal damage, but 7-nitoindazole suppressed the expression of S100 beta protein. Activation of microglia, with an increase in staining intensity and morphological changes, was observed in the striatum and substantia nigra 1 and 3 days after MPTP treatment, but 7-nitroindazole prevented a significant increase in the number of isolectin B(4) positive microglia in the striatum and substantia nigra. On the other hand, nestin-immunoreactive cells were increased significantly in the striatum 3 and 7 days after MPTP treatment. 7-Nitroindazole treatment facilitated nestin expression in the striatum 7 days after MPTP treatment. Thus, nNOS inhibitor 7-nitroindazole protected dopaminergic neurons against MPTP neurotoxicity in mice and ameliorated neurological deficits. The results suggest that the neuroprotection is mediated though the modulation of glial activation, including the inhibition of S100beta synthesis and the prevention of microglial activation. These results suggest the therapeutic strategy targeted to glial modulation with 7-nitoindazole offers a great potential for the development of new neuroprotective therapies for Parkinson's disease.
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PMID:Protective action of neuronal nitric oxide synthase inhibitor in the MPTP mouse model of Parkinson's disease. 1803 Jun 9

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