The role of SMF 1, SMF-2, SMF-3 in metal-induced whole animal vulnerability and dopamine neuron degeneration in Caenorhabditis elegans

dc.contributor.advisorNass, Richard M.
dc.contributor.authorLeVora, Jennifer K.
dc.contributor.otherNicol, Grant D.
dc.contributor.otherHingtgen, Cynthia M., 1966-
dc.date.accessioned2012-12-04T16:21:05Z
dc.date.available2012-12-04T16:21:05Z
dc.date.issued2012-12-04
dc.degree.date2012en_US
dc.degree.disciplineDepartment of Medical Neuroscienceen
dc.degree.grantorIndiana Universityen_US
dc.degree.levelM.S.en_US
dc.descriptionIndiana University-Purdue University Indianapolis (IUPUI)en_US
dc.description.abstractThe etiology of many neurodegenerative diseases is unknown, but a number of studies indicate that a combination of both genetic and environmental factors contribute to the progression of disease. Exposure to environmental metals, such as Mn2+, Fe2+, Cu2+, and Al3+, has been shown to increase cell death that is characteristic of neurodegenerative disorders such as AD, PD, Wilson’s disease and Menkes disease. These metals are important in numerous biological processes in the brain and their homeostasis is regulated through multiple mechanisms of transport, storage, and secretion. The vertebrate divalent metal transporter-1 (DMT-1) has been implicated in transport and homeostasis of these divalent cations. In these studies I utilize Caenorhabditis elegans (C. elegans) to show that long term exposure to Mn2+ decreases animal viability in a dose-dependent manner, and I demonstrate that C. elegans homologues to DMT-1, SMF-1, SMF-2, and SMF-3, play specific roles in divalent metal ion-induced DA neurodegeneration. I show that SMF-1 contributes to Fe2+-induced DA neuron degeneration, SMF-3 contributes to Al3+-induced DA neuron degeneration, and both SMF-2 and DAT-1 contribute to Cu2+-induced DA neuron cell death. These studies utilize C. elegans as a powerful model to characterize molecules and pathways involved in metal toxicity and metal-induced DA neuron degeneration.en_US
dc.identifier.urihttps://hdl.handle.net/1805/3177
dc.identifier.urihttp://dx.doi.org/10.7912/C2/2048
dc.language.isoen_USen_US
dc.subjectdopamineen_US
dc.subjectC. elegansen_US
dc.subjectSMFen_US
dc.subjectaluminumen_US
dc.subjectcopperen_US
dc.subjectParkinson's Diseaseen_US
dc.subject.lcshDopamineen_US
dc.subject.lcshNeurotoxicologyen_US
dc.subject.lcshCell deathen_US
dc.subject.lcshParkinson's diseaseen_US
dc.subject.lcshMetal ions -- Physiological effecten_US
dc.subject.lcshNervous system -- Degeneration -- Molecular aspectsen_US
dc.subject.lcshOxidative stressen_US
dc.subject.lcshMetals -- Toxicologyen_US
dc.subject.lcshHomeostasisen_US
dc.subject.lcshCaenorhabditis elegansen_US
dc.subject.lcshMitochondrial pathologyen_US
dc.subject.lcshCopper -- Physiological effecten_US
dc.subject.lcshHepatolenticular degenerationen_US
dc.subject.lcshAlzheimer's diseaseen_US
dc.titleThe role of SMF 1, SMF-2, SMF-3 in metal-induced whole animal vulnerability and dopamine neuron degeneration in Caenorhabditis elegansen_US
dc.typeThesisen
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