TrpM5 characterizes a main olfactory projection to the medial amygdala

TrpM5 表征了内侧杏仁核的主要嗅觉投射

• 批准号: 8262708
• 负责人: Shane H Rolen
• 金额: $ 5.39万
• 依托单位: UNIVERSITY OF COLORADO DENVER
• 依托单位国家: 美国
• 财政年份: 2011
• 资助国家: 美国
• 起止时间: 2011-03-01 至 2014-02-28
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8262708
• 关键词: Accessory Olfactory Bulbs; Afferent Neurons; Amygdaloid structure; Animals; Anterior; Axon; Behavior; Behavioral; Belief; Binding; Biochemical; Biochemical Markers; Brain; Cell Line; Cell Nucleus; Cells; Classification; Collection; Cues; Cyclic AMP; Data; Detection; Dorsal; Environment; Food; Gene Expression; Goals; Hormonal; Human; Hypothalamic structure; Individual; Information Systems; Investigation; Knowledge; Laboratories; Mammals; Mate Selections; Measures; Medial; Mediating; Modality; Molecular; Mus; Neural Pathways; Neurons; Odors; Olfactory Epithelium; Olfactory Pathways; Parent-Child Relations; Pathway interactions; Pheromone; Phospholipase C; Physiological; Process; Prosencephalon; Semiochemicals; Signal Transduction; Smell Perception; Stimulus; Stream; Structure; System; Techniques; Temporal Lobe; Testing; Urine; Vertebrates; Virus; Work; base; cyclic-nucleotide gated ion channels; information gathering; male; neuronal cell body; olfactory bulb; olfactory receptor; public health relevance; receptor; research study; response; segregation; social; transmission process

DESCRIPTION (provided by applicant): Olfaction is a critical chemosensory modality used by animals to gather information concerning the external environment. The olfactory system mediates behaviors such as food localization, mate selection, predator avoidance and parent-offspring interactions. Initially, it was believed that the main olfactory system (MOS) conveyed information regarding 'general' odorants while the accessory olfactory system (AOS) responded to 'socially related' ones (semiochemicals). However, recent discoveries suggest that this classification is no longer appropriate. In most terrestrial vertebrates including mice, a portion of the MOS works in parallel with the AOS to convey odorant information regarding semiochemicals to the medial amygdala (MeA). The MeA is a collection of nuclei located in the medial temporal lobe previously shown to be essential in many socially relevant behaviors. The MeA has extensive interconnections with the hypothalamus and therefore exerts significant influence upon the hormonal state of the animal. Knowledge of the mechanisms that both MOS and AOS pathways employ to process/transmit semiochemical odorants is key to understanding how these streams of information are integrated by higher brain structures (i.e. MeA) which drive the resulting behavior. Recent investigations suggest that semiochemical information is detected by those ciliated OSNs that express the transient receptor potential channel (TrpM5) and which project to the ventral MOB. A subpopulation of mitral cells in the ventral main olfactory bulb (MOB) sends axons to the MeA. The current project is aimed at characterizing TrpM5-expressing receptor neurons as the initial components of a neural pathway projecting from the MOS to the MeA in male mice. The proposed project will utilize molecular and biochemical techniques to test whether TrpM5-expressing OSNs transmit information regarding semiochemicals to the subset of mitral cells in the MOB that project to the MeA. The functional contribution of TrpM5 to this pathway will also be measured. The Specific Aims are the following: 1) to test whether those Mitral cells of the MOB that project to the medial amygdala, preferentially receive input from TrpM5-positive glomeruli, and 2) to test whether TrpM5 is both sufficient and necessary for functionality of the MOS neural pathway involved in transmission of semiochemical odorant information to the MeA. The results obtained from the proposed experiments will aid in understanding how the MOS processes socially-related odors. These findings will be important in understanding how species (e.g. humans) that lack a functional AOS can still detect and respond to social odor cues. PUBLIC HEALTH RELEVANCE: The proposed project will elucidate how the main olfactory system processes socially-related odor signals important for mate selection and identification of individuals.

描述（由申请人提供）：嗅觉是动物用于收集有关外部环境信息的关键化学感觉方式。嗅觉系统介导的行为，如食物定位，配偶选择，捕食者回避和亲子互动。最初，人们认为，主要嗅觉系统（MOS）传达有关“一般”气味的信息，而辅助嗅觉系统（AOS）则对“社会相关”气味（化学信息素）做出反应。然而，最近的发现表明，这种分类不再合适。在包括小鼠在内的大多数陆生脊椎动物中，MOS的一部分与AOS并行工作，将有关化学信息素的气味信息传递到内侧杏仁核（MeA）。MeA是位于内侧颞叶的核团的集合，以前被证明在许多社会相关行为中是必不可少的。MeA与下丘脑有广泛的相互联系，因此对动物的激素状态产生重大影响。了解MOS和AOS通路用于处理/传输信息化学气味剂的机制是理解这些信息流如何被更高的大脑结构（即MeA）整合的关键，这些结构驱动了最终的行为。最近的研究表明，信息化学信息是由那些纤毛OSNs检测的，这些OSNs表达瞬时受体电位通道（TrpM 5），并投射到腹侧MOB。腹主嗅球（MOB）中的二尖瓣细胞亚群向MeA发送轴突。目前的项目的目的是在表征TrpM 5表达受体神经元的神经通路的初始组件投射从MOS的MeA在雄性小鼠。拟议的项目将利用分子和生物化学技术来测试TrpM 5表达OSN是否将有关化学信息素的信息传递给MOB中投射到MeA的二尖瓣细胞亚群。还将测量TrpM 5对该途径的功能贡献。具体目的如下：1）测试投射到内侧杏仁核的MOB的那些二尖瓣细胞是否优先接收来自TrpM 5阳性肾小球的输入，以及2）测试TrpM 5对于参与将化学信息素气味信息传递到MeA的MOS神经通路的功能性是否是足够的和必需的。从拟议的实验中获得的结果将有助于了解MOS如何处理社会相关的气味。这些发现对于理解缺乏功能性AOS的物种（例如人类）如何仍然能够检测和响应社会气味线索非常重要。 公共卫生相关性：该项目将阐明主要的嗅觉系统如何处理与社会相关的气味信号，这些信号对个体的择偶和识别至关重要。