Gustatory neural coding in mice: connecting taste receptors to the brain

小鼠的味觉神经编码：将味觉受体与大脑连接起来

• 批准号: 7639158
• 负责人: CHRISTIAN H LEMON
• 金额: $ 4.38万
• 依托单位: SAINT LOUIS UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2006
• 资助国家: 美国
• 起止时间: 2006-04-01 至 2010-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7639158
• 关键词: Acids; Affect; Alleles; Amino Acids; Behavior; Brain; Brain Stem; Categories; Cells; Code; Detection; Diabetes Mellitus; Engineering; Epithelium; Family; G-Protein-Coupled Receptors; Genes; Genetic; Genetic Variation; Genomics; Health; Human; Inbred Strains Mice; Knock-out; Knockout Mice; Knowledge; Label; Ligands; Link; Localized; Logic; Malignant Neoplasms; Mammals; Maps; Measurement; Measures; Mediating; Molecular; Mouse Strains; Mus; Nervous system structure; Neuraxis; Neurons; Obesity; Paper; Pattern; Process; Property; Proteins; Quinine; Receptor Gene; Salts; Son; Specificity; Stimulus; Strychnine; Sucrose; Sweetening Agents; Taste Bud Cell; Taste Perception; Testing; To specify; Ursidae Family; Variant; Wild Type Mouse; base; behavior influence; brucine; cell type; congenic; genetic manipulation; insight; interest; neurobiological mechanism; preference; receptor; relating to nervous system; research study; response; sweet receptor; sweet taste perception

DESCRIPTION (provided by applicant): Molecular studies have recently identified two families of taste receptors. The T1r receptors recognize some sweet or amino acid stimuli, whereas T2r receptors are implicated for the detection of bitter-tasting ligands. The expression patterns of these receptors have invigorated interest in the idea that sweet and bitter taste are represent by dedicated coding channels in the nervous system; however, sweet- or bitter-responsive central gustatory neurons vary in their sensitivities to stimuli of other taste qualities, which questions whether input from T1r or T2r receptors is segregated to specifically-tuned cells in the brain. Experiments in this application involve electrophysiological measurement of taste responses in single neurons in the brain stem in mice with targeted manipulation of the gene Sac or Soa. Sac influences preference for sweets in mammals and encodes the sweet taste receptor T1r3. In Aim 1, we will measure differences in neural responding to sweet-tasting stimuli between mice engineered to carry a non-functional Sac allele (T1r3 knockout mice) and wild-type mice. Soa regulates sensitivity to bitter-tasting stimuli and co-localizes with the T2r bitter taste receptor genes. In Aim 2, neural responses to bitter-tasting stimuli will be compared between two strains of mice that genetically differ at only the gene Soa. These studies will identify categories of neurons in which taste responses to sweet or bitter stimuli are influenced by the manipulation of these genes, revealing cell types that receive input from the receptor products of Sac or Soa. The specificity of these identified cell types will be evaluated to determine if they could function as coding channels for the taste qualities of sweet or bitter or if their response properties are conducive to a different coding strategy. Results will bear on how taste information mediated by the receptors encoded by Sac and Soa is represented by neural activity. These experiments will test the hypothesis that genetic variation at Sac or Soa influences central gustatory neurons that are variably sensitive to stimuli of different taste qualities. Moreover, these experiments will identify categories of gustatory neurons in the brain that are fundamental to the neural substrates by which Sac and Soa influence behavioral responding towards taste stimuli, which will provide insight into the neurobiological mechanisms by which these genes control taste preference. Taste preferences guide dietary choices leading to many health problems in humans, such as cancer, obesity, and diabetes.

描述(申请人提供)：分子研究最近确定了两个味觉受体家族。T1R受体识别一些甜味或氨基酸刺激，而T2R受体与苦味配体的检测有关。这些受体的表达模式激起了人们的兴趣，即甜味和苦味是通过神经系统中专门的编码通道来代表的；然而，对甜味或苦味有反应的中枢味觉神经元对其他口味的刺激的敏感度不同，这就质疑来自T1R或T2R受体的输入是否被分离到大脑中特定调谐的细胞。在这一应用中的实验涉及到通过靶向操纵SAC或SoA基因来测量小鼠脑干单个神经元的味觉反应。SAC影响哺乳动物对甜食的偏好，并编码甜味受体T1R3。在目标1中，我们将测量携带非功能性SAC等位基因的小鼠(T1R3基因敲除小鼠)和野生型小鼠对甜味刺激的神经反应的差异。SOA调节对苦味刺激的敏感性，并与T2R苦味受体基因共定位。在目标2中，将比较两种品系的小鼠对苦味刺激的神经反应，这两种品系的小鼠只有SoA基因不同。这些研究将确定对甜味或苦味刺激的味觉反应受到这些基因操纵影响的神经元类别，揭示接受SAC或SoA受体产物输入的细胞类型。这些识别的细胞类型的特异性将被评估，以确定它们是否可以作为甜味或苦味味道的编码通道，或者它们的反应特性是否有助于不同的编码策略。结果将与SAC和SoA编码的受体介导的味觉信息如何通过神经活动来表示有关。这些实验将检验这样一种假设，即SAC或SOA的遗传变异会影响中枢味觉神经元，这些神经元对不同口味的刺激具有不同的敏感性。此外，这些实验将识别大脑中味觉神经元的类别，这些神经元是SAC和SOA影响对味觉刺激的行为反应的神经底物的基础，这将为深入了解这些基因控制味觉偏好的神经生物学机制提供依据。口味偏好指导饮食选择，导致人类许多健康问题，如癌症、肥胖症和糖尿病。

项目成果

Influence of response variability on the coding performance of central gustatory neurons.

反应变异性对中枢味觉神经元编码性能的影响。

• DOI: 10.1523/jneurosci.0106-06.2006
• 发表时间: 2006
• 期刊: The Journal of neuroscience : the official journal of the Society for Neuroscience
• 作者: Lemon,ChristianH;Smith,DavidV
• 通讯作者: Smith,DavidV