Cellular Localization of Dieldrin and Structure–Activity Relationship of Dieldrin Analogues in Dopaminergic Cells
Autor: | Laurie L. Davenport, Jonathan A. Doorn, Erin M. G. Allen, Virginia R. Florang, Yunden Jinsmaa |
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Rok vydání: | 2013 |
Předmět: |
Toxicophore
Cell Membrane Permeability Membrane permeability Cell Survival Dopamine Toxicology Article Structure-Activity Relationship Dieldrin chemistry.chemical_compound Humans Aldrin Viability assay Cells Cultured Cellular localization Dose-Response Relationship Drug Molecular Structure Dopaminergic Neurons Stereoisomerism General Medicine Environmental exposure Biochemistry chemistry Toxicity Reactive Oxygen Species |
Zdroj: | Chemical Research in Toxicology. 26:1043-1054 |
ISSN: | 1520-5010 0893-228X |
DOI: | 10.1021/tx300458b |
Popis: | The incidence of Parkinson's disease (PD) correlates with environmental exposure to pesticides, such as the organochlorine insecticide, dieldrin. Previous studies found an increased concentration of the pesticide in the striatal region of the brains of PD patients and also that dieldrin adversely affects cellular processes associated with PD. These processes include mitochondrial function and reactive oxygen species production. However, the mechanism and specific cellular targets responsible for dieldrin-mediated cellular dysfunction and the structural components of dieldrin contributing to its toxicity (toxicophore) have not been fully defined. In order to identify the toxicophore of dieldrin, a structure-activity approach was used, with the toxicity profiles of numerous analogues of dieldrin (including aldrin, endrin, and cis-aldrin diol) assessed in PC6-3 cells. The MTT and lactate dehydrogenase (LDH) assays were used to monitor cell viability and membrane permeability after treatment with each compound. Cellular assays monitoring ROS production and extracellular dopamine metabolite levels were also used. Structure and stereochemistry for dieldrin were found to be very important for toxicity and other end points measured. Small changes in structure for dieldrin (e.g., comparison to the stereoisomer endrin) yielded significant differences in toxicity. Interestingly, the cis-diol metabolite of dieldrin was found to be significantly more toxic than the parent compound. Disruption of dopamine catabolism yielded elevated levels of the neurotoxin, 3,4-dihydroxyphenylacetaldehyde, for many organochlorines. Comparisons of the toxicity profiles for each dieldrin analogue indicated a structure-specific effect important for elucidating the mechanisms of dieldrin neurotoxicity. |
Databáze: | OpenAIRE |
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