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| Title: | 探討厚朴對神經毒素引起的神經傷害及行為異常之保護與治療效用
Evaluation of the protective and therapeutic effects of cortex Magnoliae on neuronal damage and abnormal behavior induced by neurotoxins |
| Authors: | 廖筱玉 |
| Contributors: | 詹銘煥
廖筱玉 |
| Keywords: | 厚朴
百草枯
MPTP
認知功能障礙
神經保護
Cortex Magnoliae
paraquat
MPTP
cognitive impairment
neuroprotection |
| Date: | 2013 |
| Issue Date: | 2014-05-01 15:21:46 (UTC+8) |
| Abstract: | 中文摘要
厚朴,採用厚朴植物之樹皮,是ㄧ種已知可應用於治療精神疾病的傳統天然藥物,例如:憂鬱症等。厚朴主要的有效多酚環成分已被證實具有抗氧化、抗發炎及抗興奮性毒殺等神經保護作用,因此,推測厚朴可作為一種潛在治療像是帕金森氏症這累神經退化性疾病之藥物。本研究之目的為探討厚朴是否可以預防與治療因百草枯及MPTP所誘導的毒害及學習、記憶和運動功能缺失等行為異常現象。本研究監測Oregon-R品系之果蠅(年齡:1-2, 20天或30天)之壽命在長期暴露於百草枯(5-20 mM)並先給予厚朴(100, 300或600 mg/L)治療之變化。其結果顯示,厚朴無法延長暴露在百草枯環境下之果蠅壽命。另外,我們給予雄性ICR小鼠(30-35 g),連續五天,每日一劑MPTP(25 mg/kg, i.p.),誘導神經毒性及行為異常現象。在共同投藥組別,在給予MPTP注射前一小時,先以灌餵方式給予小鼠厚朴(100或300 mg/kg)預防,連續五天後,只單獨給予厚朴治療連續十四天。後投藥組別,在給予最後一劑MPTP後,連續十四天給予厚朴(100或300 mg/kg).治療。在控制組別中,給予生理食鹽水(0.9%, i.p.)及灌餵玉米油。結果顯示,MPTP與厚朴並不影響小鼠之運動協調功能,然而,可利用新位置辨識能力測試及新物體辨識認知行為測試,檢測因MPTP所引起之認知功能障礙現象,由我們結果中顯示,不論是與MPTP共同給予厚朴治療抑或是後處理厚朴皆可恢復因MPTP所造成的認知功能障礙現象,此外,厚朴也可恢復因MPTP所造成多巴胺神經元及多巴胺轉運子受損之情形,另外,我們也初步發現,厚朴可在海馬迴中使Nrf2表現量提升。因此,初步結果表明,厚朴將可成為未來治療帕金森氏症之天然藥物。
Cortex Magnoliae, the bark of Magnolia officinalis, has been prescribed in the traditional herbal medicine to treat a variety of mental disorders including depression. The main constituents of cortex Magnoliae contain the biphenyl compounds such as honokiol and magnolol. Both biphenyl compounds were shown to have the neuronal protective effect which is related to the anti-oxidation, anti-inflammation, and anti-excitatory toxicity. Thus, it was proposed that cortex Magnoliae may act as the potential therapeutic agent for the treatment of neurodegenerative disorders such as Parkinson’s disease (PD). The aim of the present study was to examine whether cortex Magnoliae exhibits the neuroprotective and therapeutic action against the neuronal toxicity and behavioral deficits in learning, memory, and motor function induced by neurotoxin paraquat and 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) in PD-like models. The lifespan of flies from Oregon-R strain of Drosophila melanogaster (age: 1-2, 20 or 30 days) chronically exposed to paraquat (5-20 mM) with pre-treatment of Cortex Magnoliae (100, 300 or 600 mg/L) were measured. Results showed that pre-treatment of Cortex Magnoliae could not extend the lifespan of the flies reduced by paraquat. On the other hand, male ICR mice (30-35g) were administered with MPTP (25 mg/kg, i.p.) once daily for 5 consecutive days to induce neurotoxicity and behavioral impairment. In co-treatment group, male mice were orally administrated with cortex Magnoliae (100 or 300 mg/kg) 1 hour before MPTP injection for 5 days and then followed by oral administration of cortex Magnoliae alone for consecutive 14 days. Mice in post-treatment group were orally administered with cortex Magnoliae (100 or 300 mg/kg) for consecutive 14 days after the final injection of MPTP. Mice in control group were injected with saline (0.9%, i.p.) and orally administrated with vehicle (corn oil). Our results showed that MPTP and cortex Magnoliae did not affect mouse coordination and balance in beam walking test. However, cortex Magnoliae improved the cognitive impairments determined by novel-location recognition task (NLRT) and novel-object recognition task (NORT) in MPTP-induced PD mouse. Additionally, cortex Magnoliae restored MPTP-induced loss of dopaminergic neurons and recovered MPTP-induced loss of dopamine transporters in striatum. Cortex Magnoliae also activated Nrf2 in hippocampus. Therefore, the preliminary results suggest that cortex Magnoliae may be a novel candidate for the treatment of Parkinson`s disease in the future. The pharmacological mechanism of cortex Magnoliae in PD treatment needs further study. |
| Reference: | 捌、參考文獻
Agid Y (1991) Parkinson`s disease: pathophysiology. Lancet 337:1321-1324.
Almeida A, Medina JM (1998) A rapid method for the isolation of metabolically active mitochondria from rat neurons and astrocytes in primary culture. Brain research Brain research protocols 2:209-214.
Ambrosi G, Cerri S, Blandini F (2014) A further update on the role of excitotoxicity in the pathogenesis of Parkinson`s disease. Journal of neural transmission.
Bernheimer H, Birkmayer W, Hornykiewicz O, Jellinger K, Seitelberger F (1973) Brain dopamine and the syndromes of Parkinson and Huntington. Clinical, morphological and neurochemical correlations. Journal of the neurological sciences 20:415-455.
Berry C, La Vecchia C, Nicotera P (2010) Paraquat and Parkinson`s disease. Cell death and differentiation 17:1115-1125.
Bonilla-Ramirez L, Jimenez-Del-Rio M, Velez-Pardo C (2013) Low doses of paraquat and polyphenols prolong life span and locomotor activity in knock-down parkin Drosophila melanogaster exposed to oxidative stress stimuli: implication in autosomal recessive juvenile parkinsonism. Gene 512:355-363.
Bosco DA, Fowler DM, Zhang Q, Nieva J, Powers ET, Wentworth P, Jr., Lerner RA, Kelly JW (2006) Elevated levels of oxidized cholesterol metabolites in Lewy body disease brains accelerate alpha-synuclein fibrilization. Nature chemical biology 2:249-253.
Bove J, Prou D, Perier C, Przedborski S (2005) Toxin-induced models of Parkinson`s disease. NeuroRx : the journal of the American Society for Experimental NeuroTherapeutics 2:484-494.
Brooks AI, Chadwick CA, Gelbard HA, Cory-Slechta DA, Federoff HJ (1999) Paraquat elicited neurobehavioral syndrome caused by dopaminergic neuron loss. Brain research 823:1-10.
Brown TP, Rumsby PC, Capleton AC, Rushton L, Levy LS (2006) Pesticides and Parkinson`s disease--is there a link? Environmental health perspectives 114:156-164.
Burns RS, Chiueh CC, Markey SP, Ebert MH, Jacobowitz DM, Kopin IJ (1983) A primate model of parkinsonism: selective destruction of dopaminergic neurons in the pars compacta of the substantia nigra by N-methyl-4-phenyl-1,2,3,6-tetrahydropyridine. Proceedings of the National Academy of Sciences of the United States of America 80:4546-4550.
Calne DB, Langston JW (1983) Aetiology of Parkinson`s disease. Lancet 2:1457-1459.
Casey G (2013) Parkinson`s disease: a long and difficult journey. Nursing New Zealand 19:20-24.
Chagniel L, Robitaille C, Lacharite-Mueller C, Bureau G, Cyr M (2012) Partial dopamine depletion in MPTP-treated mice differentially altered motor skill learning and action control. Behavioural brain research 228:9-15.
Chaudhuri A, Bowling K, Funderburk C, Lawal H, Inamdar A, Wang Z, O`Donnell JM (2007) Interaction of genetic and environmental factors in a Drosophila parkinsonism model. The Journal of neuroscience : the official journal of the Society for Neuroscience 27:2457-2467.
Chen CM, Liu SH, Lin-Shiau SY (2007) Honokiol, a neuroprotectant against mouse cerebral ischaemia, mediated by preserving Na+, K+-ATPase activity and mitochondrial functions. Basic & clinical pharmacology & toxicology 101:108-116.
Chen HH, Lin SC, Chan MH (2011) Protective and restorative effects of magnolol on neurotoxicity in mice with 6-hydroxydopamine-induced hemiparkinsonism. Neuro-degenerative diseases 8:364-374.
Chen PC, Vargas MR, Pani AK, Smeyne RJ, Johnson DA, Kan YW, Johnson JA (2009) Nrf2-mediated neuroprotection in the MPTP mouse model of Parkinson`s disease: Critical role for the astrocyte. Proceedings of the National Academy of Sciences of the United States of America 106:2933-2938.
Chen RC, Chang SF, Su CL, Chen TH, Yen MF, Wu HM, Chen ZY, Liou HH (2001) Prevalence, incidence, and mortality of PD: a door-to-door survey in Ilan county, Taiwan. Neurology 57:1679-1686.
Cheramy A, Leviel V, Glowinski J (1981) Dendritic release of dopamine in the substantia nigra. Nature 289:537-542.
Cherbonnier C, Deas O, Carvalho G, Vassal G, Durrbach A, Haeffner A, Charpentier B, Benard J, Hirsch F (2003) Potentiation of tumour apoptosis by human growth hormone via glutathione production and decreased NF-kappaB activity. British journal of cancer 89:1108-1115.
Chinaglia G, Alvarez FJ, Probst A, Palacios JM (1992) Mesostriatal and mesolimbic dopamine uptake binding sites are reduced in Parkinson`s disease and progressive supranuclear palsy: a quantitative autoradiographic study using [3H]mazindol. Neuroscience 49:317-327.
Chiueh CC, Miyake H, Peng MT (1993) Role of dopamine autoxidation, hydroxyl radical generation, and calcium overload in underlying mechanisms involved in MPTP-induced parkinsonism. Advances in neurology 60:251-258.
Chiueh CC, Rauhala P (1998) Free radicals and MPTP-induced selective destruction of substantia nigra compacta neurons. Advances in pharmacology 42:796-800.
Cohen G, Heikkila RE (1974) The generation of hydrogen peroxide, superoxide radical, and hydroxyl radical by 6-hydroxydopamine, dialuric acid, and related cytotoxic agents. The Journal of biological chemistry 249:2447-2452.
Dauer W, Przedborski S (2003) Parkinson`s disease: mechanisms and models. Neuron 39:889-909.
Davie CA (2008) A review of Parkinson`s disease. British medical bulletin 86:109-127.
Day BJ, Patel M, Calavetta L, Chang LY, Stamler JS (1999) A mechanism of paraquat toxicity involving nitric oxide synthase. Proceedings of the National Academy of Sciences of the United States of America 96:12760-12765.
de Lau LM, Breteler MM (2006) Epidemiology of Parkinson`s disease. Lancet neurology 5:525-535.
Desagher S, Martinou JC (2000) Mitochondria as the central control point of apoptosis. Trends in cell biology 10:369-377.
Dias V, Junn E, Mouradian MM (2013) The role of oxidative stress in Parkinson`s disease. Journal of Parkinson`s disease 3:461-491.
Dick FD (2006) Parkinson`s disease and pesticide exposures. British medical bulletin 79-80:219-231.
Dinis-Oliveira RJ, Remiao F, Carmo H, Duarte JA, Navarro AS, Bastos ML, Carvalho F (2006) Paraquat exposure as an etiological factor of Parkinson`s disease. Neurotoxicology 27:1110-1122.
Elstner M, Denke A, Gsell W, Elstner EF, Riederer P, Gerlach M (1999) Pro- and antioxidative properties of cortical tissue preparations from human brain exhibiting NMDA-receptor characteristics. Zeitschrift fur Naturforschung C, Journal of biosciences 54:438-445.
Exner N, Lutz AK, Haass C, Winklhofer KF (2012) Mitochondrial dysfunction in Parkinson`s disease: molecular mechanisms and pathophysiological consequences. The EMBO journal 31:3038-3062.
Fenelon G (1997) [Parkinson disease. Medical treatment]. Presse medicale 26:1357-1361.
Fernandez N, Garcia JJ, Diez MJ, Sahagun AM, Gonzalez A, Diez R, Sierra M (2010) Effects of slowed gastrointestinal motility on levodopa pharmacokinetics. Autonomic neuroscience : basic & clinical 156:67-72.
Fuchs G (1997) [Parkinson disease--problems in long-term treatment. Dopamine agonists optimize L-dopa therapy]. Fortschritte der Medizin 115:43-45.
Fujita M, Itokawa H, Sashida Y (1973) [Studies on the components of Magnolia obovata Thunb. 3. Occurrence of magnolol and honokiol in M. obovata and other allied plants]. Yakugaku zasshi : Journal of the Pharmaceutical Society of Japan 93:429-434.
Fukuyama Y, Nakade K, Minoshima Y, Yokoyama R, Zhai H, Mitsumoto Y (2002) Neurotrophic activity of honokiol on the cultures of fetal rat cortical neurons. Bioorganic & medicinal chemistry letters 12:1163-1166.
Gao HM, Liu B, Zhang W, Hong JS (2003) Synergistic dopaminergic neurotoxicity of MPTP and inflammogen lipopolysaccharide: relevance to the etiology of Parkinson`s disease. FASEB journal : official publication of the Federation of American Societies for Experimental Biology 17:1957-1959.
Garcia E, Villeda-Hernandez J, Pedraza-Chaverri J, Maldonado PD, Santamaria A (2010) S-allylcysteine reduces the MPTP-induced striatal cell damage via inhibition of pro-inflammatory cytokine tumor necrosis factor-alpha and inducible nitric oxide synthase expressions in mice. Phytomedicine : international journal of phytotherapy and phytopharmacology 18:65-73.
Gavin CE, Gunter KK, Gunter TE (1999) Manganese and calcium transport in mitochondria: implications for manganese toxicity. Neurotoxicology 20:445-453.
Ghosh A, Kanthasamy A, Joseph J, Anantharam V, Srivastava P, Dranka BP, Kalyanaraman B, Kanthasamy AG (2012) Anti-inflammatory and neuroprotective effects of an orally active apocynin derivative in pre-clinical models of Parkinson`s disease. Journal of neuroinflammation 9:241.
Gluck MR, Krueger MJ, Ramsay RR, Sablin SO, Singer TP, Nicklas WJ (1994) Characterization of the inhibitory mechanism of 1-methyl-4-phenylpyridinium and 4-phenylpyridine analogs in inner membrane preparations. The Journal of biological chemistry 269:3167-3174.
Grant H, Lantos PL, Parkinson C (1980) Cerebral damage in paraquat poisoning. Histopathology 4:185-195.
Haavik J, Toska K (1998) Tyrosine hydroxylase and Parkinson`s disease. Molecular neurobiology 16:285-309.
Hald A, Lotharius J (2005) Oxidative stress and inflammation in Parkinson`s disease: is there a causal link? Experimental neurology 193:279-290.
Hantraye P, Brouillet E, Ferrante R, Palfi S, Dolan R, Matthews RT, Beal MF (1996) Inhibition of neuronal nitric oxide synthase prevents MPTP-induced parkinsonism in baboons. Nature medicine 2:1017-1021.
Hartmann A, Hunot S, Hirsch EC (2003) Inflammation and dopaminergic neuronal loss in Parkinson`s disease: a complex matter. Experimental neurology 184:561-564.
Hasegawa E, Takeshige K, Oishi T, Murai Y, Minakami S (1990) 1-Methyl-4-phenylpyridinium (MPP+) induces NADH-dependent superoxide formation and enhances NADH-dependent lipid peroxidation in bovine heart submitochondrial particles. Biochemical and biophysical research communications 170:1049-1055.
Heikkila RE, Hess A, Duvoisin RC (1984) Dopaminergic neurotoxicity of 1-methyl-4-phenyl-1,2,5,6-tetrahydropyridine in mice. Science 224:1451-1453.
Hollingworth RM, Ahammadsahib KI, Gadelhak G, McLaughlin JL (1994) New inhibitors of complex I of the mitochondrial electron transport chain with activity as pesticides. Biochemical Society transactions 22:230-233.
Hwang O (2013) Role of oxidative stress in Parkinson`s disease. Experimental neurobiology 22:11-17.
Hyam JA, Joint C, Green AL, Aziz TZ (2011) Comparison of contralateral pallidotomy vs. pallidal stimulation after prior unilateral pallidotomy for Parkinson`s disease. Neuromodulation : journal of the International Neuromodulation Society 14:117-122; discussion 122.
Isaacson SH, Hauser RA (2009) Improving symptom control in early Parkinson`s disease. Therapeutic advances in neurological disorders 2:29-41.
Jackson-Lewis V, Przedborski S (2007) Protocol for the MPTP mouse model of Parkinson`s disease. Nature protocols 2:141-151.
Jackson WS (2014) Selective vulnerability to neurodegenerative disease: the curious case of Prion Protein. Disease models & mechanisms 7:21-29.
Jahromi SR, Haddadi M, Shivanandappa T, Ramesh SR (2013) Neuroprotective effect of Decalepis hamiltonii in paraquat-induced neurotoxicity in Drosophila melanogaster: biochemical and behavioral evidences. Neurochemical research 38:2616-2624.
Jenner P, Olanow CW (2006) The pathogenesis of cell death in Parkinson`s disease. Neurology 66:S24-36.
Jimenez-Del-Rio M, Daza-Restrepo A, Velez-Pardo C (2008) The cannabinoid CP55,940 prolongs survival and improves locomotor activity in Drosophila melanogaster against paraquat: implications in Parkinson`s disease. Neuroscience research 61:404-411.
Jimenez-Del-Rio M, Guzman-Martinez C, Velez-Pardo C (2010a) The effects of polyphenols on survival and locomotor activity in Drosophila melanogaster exposed to iron and paraquat. Neurochemical research 35:227-238.
Jimenez-Del-Rio M, Suarez-Cedeno G, Velez-Pardo C (2010b) Using paraquat to generate anion free radicals and hydrogen peroxide in in vitro: Antioxidant effect of vitamin E: A procedure to teach theoretical and experimental principles of reactive oxygen species biochemistry. Biochemistry and molecular biology education : a bimonthly publication of the International Union of Biochemistry and Molecular Biology 38:104-109.
Johnson WM, Wilson-Delfosse AL, Mieyal JJ (2012) Dysregulation of glutathione homeostasis in neurodegenerative diseases. Nutrients 4:1399-1440.
Kamel F (2013) Epidemiology. Paths from pesticides to Parkinson`s. Science 341:722-723.
Kare P, Bhat J, Sobhia ME (2013) Structure-based design and analysis of MAO-B inhibitors for Parkinson`s disease: using in silico approaches. Molecular diversity 17:111-122.
Kassubek J (2006) [Parkinson`s disease dementia]. MMW Fortschritte der Medizin 148:36-37.
Kavitha M, Nataraj J, Essa MM, Memon MA, Manivasagam T (2013) Mangiferin attenuates MPTP induced dopaminergic neurodegeneration and improves motor impairment, redox balance and Bcl-2/Bax expression in experimental Parkinson`s disease mice. Chemico-biological interactions 206:239-247.
Keane PC, Kurzawa M, Blain PG, Morris CM (2011) Mitochondrial dysfunction in Parkinson`s disease. Parkinson`s disease 2011:716871.
Keeney PM, Xie J, Capaldi RA, Bennett JP, Jr. (2006) Parkinson`s disease brain mitochondrial complex I has oxidatively damaged subunits and is functionally impaired and misassembled. The Journal of neuroscience : the official journal of the Society for Neuroscience 26:5256-5264.
Kesner RP (2007) Behavioral functions of the CA3 subregion of the hippocampus. Learning & memory 14:771-781.
Kim HG, Park G, Piao Y, Kang MS, Pak YK, Hong SP, Oh MS (2014) Effects of the root bark of Paeonia suffruticosa on mitochondria-mediated neuroprotection in an MPTP-induced model of Parkinson`s disease. Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.
Kuribara H, Stavinoha WB, Maruyama Y (1998) Behavioural pharmacological characteristics of honokiol, an anxiolytic agent present in extracts of Magnolia bark, evaluated by an elevated plus-maze test in mice. The Journal of pharmacy and pharmacology 50:819-826.
Kuter K, Smialowska M, Wieronska J, Zieba B, Wardas J, Pietraszek M, Nowak P, Biedka I, Roczniak W, Konieczny J, Wolfarth S, Ossowska K (2007) Toxic influence of subchronic paraquat administration on dopaminergic neurons in rats. Brain research 1155:196-207.
Langston JW, Ballard PA, Jr. (1983) Parkinson`s disease in a chemist working with 1-methyl-4-phenyl-1,2,5,6-tetrahydropyridine. The New England journal of medicine 309:310.
Langston JW, Forno LS, Tetrud J, Reeves AG, Kaplan JA, Karluk D (1999) Evidence of active nerve cell degeneration in the substantia nigra of humans years after 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine exposure. Annals of neurology 46:598-605.
Langston JW, Irwin I, Langston EB, Forno LS (1984) 1-Methyl-4-phenylpyridinium ion (MPP+): identification of a metabolite of MPTP, a toxin selective to the substantia nigra. Neuroscience letters 48:87-92.
Lesemann A, Reinel C, Huhnchen P, Pilhatsch M, Hellweg R, Klaissle P, Winter C, Steiner B (2012) MPTP-induced hippocampal effects on serotonin, dopamine, neurotrophins, adult neurogenesis and depression-like behavior are partially influenced by fluoxetine in adult mice. Brain research 1457:51-69.
Li XH, Li CY, Lu JM, Tian RB, Wei J (2012) Allicin ameliorates cognitive deficits ageing-induced learning and memory deficits through enhancing of Nrf2 antioxidant signaling pathways. Neuroscience letters 514:46-50.
Lin YR, Chen HH, Ko CH, Chan MH (2006) Neuroprotective activity of honokiol and magnolol in cerebellar granule cell damage. European journal of pharmacology 537:64-69.
Lin YR, Chen HH, Ko CH, Chan MH (2007) Effects of honokiol and magnolol on acute and inflammatory pain models in mice. Life sciences 81:1071-1078.
Liou HH, Tsai MC, Chen CJ, Jeng JS, Chang YC, Chen SY, Chen RC (1997) Environmental risk factors and Parkinson`s disease: a case-control study in Taiwan. Neurology 48:1583-1588.
Liu X, Yamada N, Maruyama W, Osawa T (2008) Formation of dopamine adducts derived from brain polyunsaturated fatty acids: mechanism for Parkinson disease. The Journal of biological chemistry 283:34887-34895.
Llumiguano C, Doczi T, Baths I (2006) [Microeletrode guided stereotactic pallidotomy and pallido-thalamotomy for treatment of Parkinson`s disease]. Neurocirugia 17:420-432.
Lou H, Jing X, Wei X, Shi H, Ren D, Zhang X (2013) Naringenin protects against 6-OHDA-induced neurotoxicity via activation of the Nrf2/ARE signaling pathway. Neuropharmacology 79C:380-388.
Manev H, Dimitrijevic N, Dzitoyeva S (2003) Techniques: fruit flies as models for neuropharmacological research. Trends in pharmacological sciences 24:41-43.
Marin C, Bonastre M, Mengod G, Cortes R, Giralt A, Obeso JA, Schapira AH (2013) Early L-dopa, but not pramipexole, restores basal ganglia activity in partially 6-OHDA-lesioned rats. Neurobiology of disease.
Matsui N, Takahashi K, Takeichi M, Kuroshita T, Noguchi K, Yamazaki K, Tagashira H, Tsutsui K, Okada H, Kido Y, Yasui Y, Fukuishi N, Fukuyama Y, Akagi M (2009) Magnolol and honokiol prevent learning and memory impairment and cholinergic deficit in SAMP8 mice. Brain research 1305:108-117.
McGeer PL, McGeer EG (1998) Glial cell reactions in neurodegenerative diseases: pathophysiology and therapeutic interventions. Alzheimer disease and associated disorders 12 Suppl 2:S1-6.
Miller GW, Erickson JD, Perez JT, Penland SN, Mash DC, Rye DB, Levey AI (1999a) Immunochemical analysis of vesicular monoamine transporter (VMAT2) protein in Parkinson`s disease. Experimental neurology 156:138-148.
Miller GW, Gainetdinov RR, Levey AI, Caron MG (1999b) Dopamine transporters and neuronal injury. Trends in pharmacological sciences 20:424-429.
Mockett RJ, Orr WC, Rahmandar JJ, Sohal BH, Sohal RS (2001) Antioxidant status and stress resistance in long- and short-lived lines of Drosophila melanogaster. Experimental gerontology 36:441-463.
Montgomery EB, Jr. (1995) Heavy metals and the etiology of Parkinson`s disease and other movement disorders. Toxicology 97:3-9.
Moriguchi S, Yabuki Y, Fukunaga K (2012) Reduced calcium/calmodulin-dependent protein kinase II activity in the hippocampus is associated with impaired cognitive function in MPTP-treated mice. Journal of neurochemistry 120:541-551.
Muroyama A, Fujita A, Lv C, Kobayashi S, Fukuyama Y, Mitsumoto Y (2012) Magnolol Protects against MPTP/MPP(+)-Induced Toxicity via Inhibition of Oxidative Stress in In Vivo and In Vitro Models of Parkinson`s Disease. Parkinson`s disease 2012:985157.
Nakabeppu Y, Tsuchimoto D, Yamaguchi H, Sakumi K (2007) Oxidative damage in nucleic acids and Parkinson`s disease. Journal of neuroscience research 85:919-934.
Nichols CD (2006) Drosophila melanogaster neurobiology, neuropharmacology, and how the fly can inform central nervous system drug discovery. Pharmacology & therapeutics 112:677-700.
Nissbrandt H, Sundstrom E, Jonsson G, Hjorth S, Carlsson A (1989) Synthesis and release of dopamine in rat brain: comparison between substantia nigra pars compacts, pars reticulata, and striatum. Journal of neurochemistry 52:1170-1182.
Niznik HB, Fogel EF, Fassos FF, Seeman P (1991) The dopamine transporter is absent in parkinsonian putamen and reduced in the caudate nucleus. Journal of neurochemistry 56:192-198.
Nussbaum RL, Ellis CE (2003) Alzheimer`s disease and Parkinson`s disease. The New England journal of medicine 348:1356-1364.
Olanow CW, Tatton WG (1999) Etiology and pathogenesis of Parkinson`s disease. Annual review of neuroscience 22:123-144.
Pain S, Gochard A, Bodard S, Gulhan Z, Prunier-Aesch C, Chalon S (2013) Toxicity of MPTP on neurotransmission in three mouse models of Parkinson`s disease. Experimental and toxicologic pathology : official journal of the Gesellschaft fur Toxikologische Pathologie 65:689-694.
Peng C, Zuo Y, Kwan KM, Liang Y, Ma KY, Chan HY, Huang Y, Yu H, Chen ZY (2012) Blueberry extract prolongs lifespan of Drosophila melanogaster. Experimental gerontology 47:170-178.
Perez-Lloret S, Rascol O (2010) Dopamine receptor agonists for the treatment of early or advanced Parkinson`s disease. CNS drugs 24:941-968.
Prust M, Wang J, Morizono H, Messing A, Brenner M, Gordon E, Hartka T, Sokohl A, Schiffmann R, Gordish-Dressman H, Albin R, Amartino H, Brockman K, Dinopoulos A, Dotti MT, Fain D, Fernandez R, Ferreira J, Fleming J, Gill D, Griebel M, Heilstedt H, Kaplan P, Lewis D, Nakagawa M, Pedersen R, Reddy A, Sawaishi Y, Schneider M, Sherr E, Takiyama Y, Wakabayashi K, Gorospe JR, Vanderver A (2011) GFAP mutations, age at onset, and clinical subtypes in Alexander disease. Neurology 77:1287-1294.
Przedborski S, Jackson-Lewis V, Naini AB, Jakowec M, Petzinger G, Miller R, Akram M (2001) The parkinsonian toxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP): a technical review of its utility and safety. Journal of neurochemistry 76:1265-1274.
Qi Z, Miller GW, Voit EO (2014) Rotenone and paraquat perturb dopamine metabolism: A computational analysis of pesticide toxicity. Toxicology 315:92-101.
Reis J, Encarnacao I, Gaspar A, Morales A, Milhazes N, Borges F (2012) Parkinson`s disease management. Part II- discovery of MAO-B inhibitors based on nitrogen heterocycles and analogues. Current topics in medicinal chemistry 12:2116-2130.
Rekha KR, Selvakumar GP, Sethupathy S, Santha K, Sivakamasundari RI (2013) Geraniol ameliorates the motor behavior and neurotrophic factors inadequacy in MPTP-induced mice model of Parkinson`s disease. Journal of molecular neuroscience : MN 51:851-862.
Ricaurte GA, Irwin I, Forno LS, DeLanney LE, Langston E, Langston JW (1987) Aging and 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-induced degeneration of dopaminergic neurons in the substantia nigra. Brain research 403:43-51.
Rolls ET (1996) A theory of hippocampal function in memory. Hippocampus 6:601-620.
Santtila P, Sandnabba NK, Alison L, Nordling N (2002) Investigating the underlying structure in sadomasochistically oriented behavior. Archives of sexual behavior 31:185-196.
Sathiya S, Ranju V, Kalaivani P, Priya RJ, Sumathy H, Sunil AG, Babu CS (2013) Telmisartan attenuates MPTP induced dopaminergic degeneration and motor dysfunction through regulation of alpha-synuclein and neurotrophic factors (BDNF and GDNF) expression in C57BL/6J mice. Neuropharmacology 73:98-110.
Schneider JS, Markham CH (1986) Neurotoxic effects of N-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) in the cat. Tyrosine hydroxylase immunohistochemistry. Brain research 373:258-267.
Scotcher KP, Irwin I, DeLanney LE, Langston JW, Di Monte D (1990) Effects of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine and 1-methyl-4-phenylpyridinium ion on ATP levels of mouse brain synaptosomes. Journal of neurochemistry 54:1295-1301.
Shimizu K, Ohtaki K, Matsubara K, Aoyama K, Uezono T, Saito O, Suno M, Ogawa K, Hayase N, Kimura K, Shiono H (2001) Carrier-mediated processes in blood--brain barrier penetration and neural uptake of paraquat. Brain research 906:135-142.
Sinclair CF, Gurey LE, Brin MF, Stewart C, Blitzer A (2013) Surgical management of airway dysfunction in Parkinson`s disease compared with Parkinson-plus syndromes. The Annals of otology, rhinology, and laryngology 122:294-298.
Song MC, Ogishima T, Ito A (1998) Importance of residues carboxyl terminal relative to the cleavage site in substrates of mitochondrial processing peptidase for their specific recognition and cleavage. Journal of biochemistry 124:1045-1049.
Su W, Chen HB, Li SH, Wu DY (2012) Correlational study of the serum levels of the glial fibrillary acidic protein and neurofilament proteins in Parkinson`s disease patients. Clinical neurology and neurosurgery 114:372-375.
Sunkaria A, Sharma DR, Wani WY, Gill KD (2014) 4-Hydroxy TEMPO Attenuates Dichlorvos Induced Microglial Activation and Apoptosis. ACS chemical neuroscience.
Tereshchenko J, Maddalena A, Bahr M, Kugler S (2014) Pharmacologically controlled, discontinuous GDNF gene therapy restores motor function in a rat model of Parkinson`s disease. Neurobiology of disease 65:35-42.
Tipton KF, Singer TP (1993) Advances in our understanding of the mechanisms of the neurotoxicity of MPTP and related compounds. Journal of neurochemistry 61:1191-1206.
Tsai CH, Lo SK, See LC, Chen HZ, Chen RS, Weng YH, Chang FC, Lu CS (2002) Environmental risk factors of young onset Parkinson`s disease: a case-control study. Clinical neurology and neurosurgery 104:328-333.
Tufekci KU, Civi Bayin E, Genc S, Genc K (2011) The Nrf2/ARE Pathway: A Promising Target to Counteract Mitochondrial Dysfunction in Parkinson`s Disease. Parkinson`s disease 2011:314082.
Uhl GR, Li S, Takahashi N, Itokawa K, Lin Z, Hazama M, Sora I (2000) The VMAT2 gene in mice and humans: amphetamine responses, locomotion, cardiac arrhythmias, aging, and vulnerability to dopaminergic toxins. FASEB journal : official publication of the Federation of American Societies for Experimental Biology 14:2459-2465.
Utsumi H, Okuma Y, Kano O, Suzuki Y, Iijima M, Tomimitsu H, Hashida H, Kubo S, Suzuki M, Nanri K, Matsumura M, Murakami H, Hattori N, Tokyo Parkinson`s Disease Study G (2013) Evaluation of the efficacy of pramipexole for treating levodopa-induced dyskinesia in patients with Parkinson`s disease. Internal medicine 52:325-332.
Vila M, Przedborski S (2003) Targeting programmed cell death in neurodegenerative diseases. Nature reviews Neuroscience 4:365-375.
Vyas I, Heikkila RE, Nicklas WJ (1986) Studies on the neurotoxicity of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine: inhibition of NAD-linked substrate oxidation by its metabolite, 1-methyl-4-phenylpyridinium. Journal of neurochemistry 46:1501-1507.
Wang A, Costello S, Cockburn M, Zhang X, Bronstein J, Ritz B (2011) Parkinson`s disease risk from ambient exposure to pesticides. European journal of epidemiology 26:547-555.
Wang W, Wang WP, Zhang GL, Wu YF, Xie T, Kan MC, Fang HB, Wang HC (2013) Activation of Nrf2-ARE signal pathway in hippocampus of amygdala kindling rats. Neuroscience letters 543:58-63.
Watanabe Y, Himeda T, Araki T (2005) Mechanisms of MPTP toxicity and their implications for therapy of Parkinson`s disease. Medical science monitor : international medical journal of experimental and clinical research 11:RA17-23.
Weihe E, Depboylu C, Schutz B, Schafer MK, Eiden LE (2006) Three types of tyrosine hydroxylase-positive CNS neurons distinguished by dopa decarboxylase and VMAT2 co-expression. Cellular and molecular neurobiology 26:659-678.
Wesseling C, Roman N, Quiros I, Paez L, Garcia V, Mora AM, Juncos JL, Steenland KN (2013) Parkinson`s and Alzheimer`s diseases in Costa Rica: a feasibility study toward a national screening program. Global health action 6:23061.
Wong JC, Hazrati LN (2013) Parkinson`s disease, parkinsonism, and traumatic brain injury. Critical reviews in clinical laboratory sciences 50:103-106.
Woodbury A, Yu SP, Wei L, Garcia P (2013) Neuro-modulating effects of honokiol: a review. Frontiers in neurology 4:130.
Wyss-Coray T, Mucke L (2002) Inflammation in neurodegenerative disease--a double-edged sword. Neuron 35:419-432.
Xu Q, Yi LT, Pan Y, Wang X, Li YC, Li JM, Wang CP, Kong LD (2008) Antidepressant-like effects of the mixture of honokiol and magnolol from the barks of Magnolia officinalis in stressed rodents. Progress in neuro-psychopharmacology & biological psychiatry 32:715-725.
Yeh CB, Lee CS, Ma KH, Lee MS, Chang CJ, Huang WS (2007) Phasic dysfunction of dopamine transmission in Tourette`s syndrome evaluated with 99mTc TRODAT-1 imaging. Psychiatry research 156:75-82.
Yokoyama H, Kuroiwa H, Kasahara J, Araki T (2011) Neuropharmacological approach against MPTP (1-methyl-4-phenyl-1,2,3,6- tetrahydropyridine)-induced mouse model of Parkinson`s disease. Acta neurobiologiae experimentalis 71:269-280.
Zeevalk GD, Razmpour R, Bernard LP (2008) Glutathione and Parkinson`s disease: is this the elephant in the room? Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie 62:236-249.
Zhai H, Nakade K, Oda M, Mitsumoto Y, Akagi M, Sakurai J, Fukuyama Y (2005) Honokiol-induced neurite outgrowth promotion depends on activation of extracellular signal-regulated kinases (ERK1/2). European journal of pharmacology 516:112-117.
Zhao P, Zhang B, Gao S (2012) 18F-FDG PET study on the idiopathic Parkinson`s disease from several parkinsonian-plus syndromes. Parkinsonism & related disorders 18 Suppl 1:S60-62.
Zhou CQ, Lou JH, Zhang YP, Zhong L, Chen YL, Lu FJ, Peng GG (2014) Long-acting versus standard non-ergot dopamine agonists in Parkinson`s disease: a meta-analysis of randomized controlled trials. CNS neuroscience & therapeutics 20:368-376.
Zuo Y, Peng C, Liang Y, Ma KY, Yu H, Edwin Chan HY, Chen ZY (2012) Black rice extract extends the lifespan of fruit flies. Food & function 3:1271-1279. |
| Description: | 碩士
國立政治大學
神經科學研究所
100754005
102 |
| Source URI: | http://thesis.lib.nccu.edu.tw/record/#G0100754005 |
| Data Type: | thesis |
| Appears in Collections: | [神經科學研究所] 學位論文
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