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The effects of organophosphates on anxiety-related behavior and neurodevelopment

有机磷酸酯对焦虑相关行为和神经发育的影响

基本信息

批准号：
8551397
负责人：
Holly Richendrfer
金额：
$ 5.39万
依托单位：
BROWN UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
2012
资助国家：
美国
起止时间：
2012-09-01 至 2015-08-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8551397
关键词：
Acetylcholinesterase Acute Address Adherence Adult Affect Afferent Neurons Alternative Therapies Animal Model Anxiety Attention Attention deficit hyperactivity disorder Behavior Behavioral Biological Assay Brain Brain region Breathing Cessation of life Child Chlorpyrifos Chronic Conflict (Psychology)Confocal Microscopy Coupled Data Defect Development Diet Disease Dose Effectiveness Embryo Embryonic Development Environment Environmental Impact Ethology Exposure to Feeling suicidal Goals Growth Guidelines Habenula Human Hyperactive behavior Image In Situ Hybridization Knowledge Laboratories Larva Lead Link Malathion Measures Mental Depression Mission Modeling Molecular Genetics Mus Nervous system structure Neuraxis Neurons Neurotransmitters Organophosphates Pathogenesis Pattern Pest Control Pesticides Play Population Pregnancy Pregnant Women Prevention Guidelines Prevention strategy Public Health Rattus Research Research Project Grants Risk Role Staging Synapses System Techniques Three-Dimensional Image Time Toxic Environmental Substances Transgenic Organisms Zebrafish alternative treatment developmental neurobiology human disease in utero neural patterning neurobehavioral neurobehavioral disorder neurodevelopment neuron development neuronal patterning novel postnatal preference relating to nervous system toxic organophosphate insecticide exposure toxicant visual stimulus

项目摘要

DESCRIPTION (provided by applicant): There is very little known about the neurobehavioral and neurodevelopmental impact of low levels of organophosphate pesticides during early embryonic development. Until more is known about the detrimental effects of early exposure to organophosphates, adherence to risk prevention guidelines are unlikely. The long- term goal of the proposed research is to determine the impact of small doses of Chlorpyrifos and Malathion on brain development and anxiety-related behavior using zebrafish embryos. The objective of the proposed research is to determine the extent to which various concentrations of organophosphates during early development cause changes in anxiety-related behaviors such as a preference to be on an edge and avoidance of a visual stimulus and to identify neural patterning defects in brain regions controlling anxiety- related behavior. Zebrafish make an excellent model for the proposed research because large numbers can be collected daily, they can be directly exposed to the organophosphates, and they are transparent, allowing for easy identification of brain abnormalities during development. The main hypothesis, supported by preliminary data, is that even very low levels of organophosphate pesticides during early embryonic development will decrease anxiety-related behavior and cause changes to occur in neural numbers, growth, and patterning, particularly in brain regions linked to these behaviors, such as the ventral habenula. The rationale for the proposed research is that a better understanding of the behavioral and neurodevelopmental impacts of early and embryonic exposure to certain organophosphates has the potential to drive molecular and genetic studies and to change dietary guidelines and risk prevention strategies for pregnant women and children. The hypothesis will be guided by two specific aims: 1) To assess changes in the development of anxiety-related behaviors after exposure to organophosphates; and 2) To identify developmental neural patterning defects in the brain after exposure to organophosphates. The first aim will be performed using an already established high-throughput imaging system that is a novel system in the applicant's laboratory and is useful for the study anxiety-related behavior. The second aim will be performed using confocal microscopy coupled with in situ hybridization to create 3-D images of larval brain regions using a transgenic line of Zebrafish that express GFP in early developing neurons. The proposed research is significant because it is expected to advance understanding of the potential risks of exposure to organophosphates early in development. The results gathered from the proposed research have the capability to promote the development of alternative treatments for pest control and to augment dietary guidelines for the human population.

描述（由申请人提供）：在早期胚胎发育期间，对低水平有机磷农药对神经行为和神经发育的影响知之甚少。在更多地了解早期接触有机磷的有害影响之前，不太可能遵守风险预防指南。这项研究的长期目标是利用斑马鱼胚胎确定小剂量毒死蜱和马拉硫磷对大脑发育和焦虑相关行为的影响。拟议研究的目的是确定在早期发育过程中各种浓度的有机磷酸盐引起焦虑相关行为变化的程度，例如偏好处于边缘和避免视觉刺激，并确定控制焦虑相关行为的大脑区域中的神经模式缺陷。斑马鱼是这项研究的一个很好的模型，因为每天可以收集大量的斑马鱼，它们可以直接暴露在有机磷中，而且它们是透明的，可以很容易地识别发育过程中的大脑异常。得到初步数据支持的主要假设是，即使在胚胎发育早期使用非常低水平的有机磷农药也会减少与焦虑相关的行为，并导致神经数量、生长和模式发生变化，特别是在与这些相关的大脑区域。行为，例如腹侧缰核。拟议研究的理由是，更好地了解早期和胚胎暴露于某些有机磷对行为和神经发育的影响，有可能推动分子和遗传研究，并改变孕妇和儿童的饮食指南和风险预防策略。该假设将由两个具体目标指导：1）评估暴露于有机磷后焦虑相关行为发展的变化; 2）确定暴露于有机磷后大脑中的发育神经模式缺陷。第一个目标将使用已经建立的高通量成像系统进行，该系统是申请人实验室中的新型系统，并且可用于研究焦虑相关行为。第二个目标将使用共聚焦显微镜结合原位杂交来进行，以使用在早期发育的神经元中表达GFP的斑马鱼转基因系来创建幼虫脑区域的3-D图像。这项拟议的研究意义重大，因为它有望促进对发展早期接触有机磷的潜在风险的理解。从拟议的研究中收集的结果有能力促进害虫控制替代疗法的发展，并增加人类的饮食指南。