Seasonal and Hormonal Effects on Auditory Processing

季节和荷尔蒙对听觉处理的影响

• 批准号: 7997001
• 负责人: Melissa Lynne Caras
• 金额: $ 3.43万
• 依托单位: UNIVERSITY OF WASHINGTON
• 依托单位国家: 美国
• 财政年份: 2010
• 资助国家: 美国
• 起止时间: 2010-06-16 至 2013-06-15
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7997001
• 关键词: Auditory; Auditory Brainstem Responses; Auditory system; Behavior; Birds; Brain Stem; Breeding; Communication; Data; Dental crowns; Exhibits; Gonadal Steroid Hormones; Hearing; Hormonal; Hormone Receptor; Hormones; Human; Immunohistochemistry; Link; Literature; Mediating; Methods; Mission; Modeling; Morphology; National Institute on Deafness and Other Communication Disorders; Nature; Peripheral; Physiology; Process; Production; Prosencephalon; Research; Signal Transduction; Songbirds; Sparrows; Work; extracellular; neural circuit; public health relevance; steroid hormone

DESCRIPTION (provided by applicant): Gambel's white-crowned sparrows are songbirds that breed seasonally. Like many other songbirds, they exhibit dramatic seasonal differences in song behavior, and in the morphology and physiology of the neural circuit underlying song production. Androgenic and estrogenic steroid sex hormones mediate these seasonal changes. While much work has focused on the hormonal mechanisms underlying seasonal plasticity in songbird vocal production, comparatively little work has investigated seasonal and hormonal effects on songbird auditory processing. Preliminary auditory brainstem response (ABR) data demonstrate that breeding condition white-crowned sparrows have significantly increased thresholds and latencies than non-breeding birds; however, a detailed assessment of these effects remains to be accomplished. The focus of my research is to use white-crowned sparrows as a model for further characterizing seasonal and hormonal influences on auditory function. Using extracellular single-unit recording methods, Specific Aim 1 will determine where in the auditory system seasonal differences originate. Specific Aim 2 will identify which hormone receptors mediate these changes by utilizing a variety of hormone treatments, immunohistochemistry and ABR recording. Finally, Specific Aim 3 will determine if seasonal differences observed in the peripheral/brainstem auditory system are conserved in forebrain processing regions. PUBLIC HEALTH RELEVANCE: A growing body of literature links human hearing and steroid hormones, but the nature and mechanism of these interactions remain unknown. To better understand the extrinsic and intrinsic conditions that regulate the sensitivity and selectivity of hearing as related to communication signals, I have chosen to study the peripheral and central auditory system of songbirds. The research I propose here will use white-crowned sparrows as a model to better understand the hormonal mechanisms that influence and underlie normal hearing function, and is thus directly relevant to the mission of NIDCD.

描述（由申请人提供）：甘贝尔白冠麻雀是季节性繁殖的鸣禽。与许多其他鸣禽一样，它们在鸣叫行为以及鸣叫神经回路的形态和生理学方面表现出显着的季节性差异。雄激素和雌激素类固醇性激素介导这些季节性变化。虽然很多工作都集中在鸣禽发声季节性可塑性背后的激素机制上，但相对较少的工作研究了季节性和激素对鸣禽听觉处理的影响。初步听觉脑干反应（ABR）数据表明，繁殖状态的白冠麻雀比非繁殖状态的鸟类阈值和潜伏期显着增加；然而，对这些影响的详细评估仍有待完成。我研究的重点是使用白冠麻雀作为模型，进一步表征季节和荷尔蒙对听觉功能的影响。使用细胞外单单元记录方法，特定目标 1 将确定听觉系统季节性差异的起源。具体目标 2 将通过利用各种激素治疗、免疫组织化学和 ABR 记录来确定哪些激素受体介导这些变化。最后，具体目标 3 将确定在外周/脑干听觉系统中观察到的季节性差异是否在前脑处理区域中得到保留。 公共卫生相关性：越来越多的文献将人类听力和类固醇激素联系起来，但这些相互作用的性质和机制仍然未知。为了更好地了解调节与通信信号相关的听力敏感性和选择性的外在和内在条件，我选择研究鸣禽的外周和中枢听觉系统。我在此提出的研究将使用白冠麻雀作为模型，以更好地了解影响和维持正常听力功能的荷尔蒙机制，因此与 NIDCD 的使命直接相关。