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NEUROPEPTIDE CONTROL OF THYROID SECRETION AND BLOOD FLOW

神经肽控制甲状腺分泌和血流

基本信息

批准号：
3153626
负责人：
GEORGE A HEDGE
金额：
$ 10.92万
依托单位：
WEST VIRGINIA UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
1985
资助国家：
美国
起止时间：
1985-09-01 至 1989-08-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/3153626
关键词：
anesthetics biological models cholecystokinin gastrins nerve neuroendocrine system passive immunization pituitary thyroid axis radioimmunoassay secretion thyroid function thyrotropin triiodothyronine vasoactive intestinal peptide

项目摘要

This project emanates from recent collaborative studies by the Principal Investigator which provided immunohistochemical evidence for the presence of several neuropeptides (NP's) within thyroid nerves which innervate both follicle cells and blood vessels. The objectives of the study are to characterize the effects of certain NP's on thyroid hormone secretion and blood flow, and to study the functional relationship between these. These NP's have recently been found to occur in many different tissues and they are often associated with tumors or disease states. However, studies of the functional importance of the NP's have not kept pace with the more descriptive studies of their distribution. This research proposal consists primarily of in vivo experiments in which thyroid hormone secretion and blood flow are determined in the same rats by radiommunoassay and by an adaptation of the radioactive microsphere technique, respectively. The NP's of primary interest are vasoactive-intestinal peptide (VIP), substance P, neuropeptide Y, and peptide HI, but other NP's will also be tested. Test substances are to be administered into a tail vein, carotid artery, or topically applied to one thyroid lobe. All NP's will be tested for interactions with TSH regarding effects on both secretion and blood flow. The possible involvement of endogenous NP's in regulating thyroid secretion and/or blood flow, will be investigated by pharmacological manipulation of endogenous pools, passive immunization, and the use of an animal model with increased VIP innervation of the thyroid. In the case of NP's which affect both secretion and flow, attempts will be made to determine whether either of these effects is a result of the other, rather than being a direct effect of the NP. Most of the in vivo experiments will be performed using anesthetized rats, but some will also be done in unanesthetized animals with chronic vascular catheters. Experiments in hypophysectomized rats will be carried out to determine whether the observed effects of systemic NP infusions are due to direct thyroid effects or secondary to effects on pituitary TSH secretion. Finally, for those NP's found to affect the thyroid in vivo, additional studies will be done using thyroids in vitro.

该项目源于校长最近的合作研究，提供免疫组织化学证据的研究者甲状腺神经内的几种神经肽（NP），毛囊细胞和血管。研究的目的是表征某些NP对甲状腺激素分泌的影响，血流量，并研究它们之间的功能关系。这些 NP最近被发现发生在许多不同的组织中，通常与肿瘤或疾病状态有关。然而，研究 NP的功能重要性没有跟上更多的对其分布的描述性研究。该研究计划包括主要是体内实验，其中甲状腺激素分泌和通过放射免疫测定和通过放射免疫分析测定相同大鼠的血流量。放射性微球技术的适应，分别。的主要感兴趣的NP是血管活性肠肽（VIP）、物质 P、神经肽Y和肽HI，但也将测试其它NP。试验物质将通过尾静脉、颈动脉或局部应用于一个甲状腺叶。将对所有NP进行检测，与促甲状腺激素的相互作用对分泌和血液流动的影响。内源性NP可能参与调节甲状腺分泌和/或血流，将通过药理学操作进行研究，内源性库、被动免疫和使用具有以下特征的动物模型：增加甲状腺的VIP神经支配。在NP的情况下，分泌和流动，将尝试确定是否这些影响是另一种影响的结果，而不是直接的结果。 NP的影响。大多数体内实验将使用麻醉大鼠，但有些也将在未麻醉的动物中进行慢性血管导管。垂体切除大鼠实验将进行，以确定是否观察到的影响，全身 NP输注是由于直接甲状腺效应或继发于对垂体促甲状腺激素分泌。最后，对于那些被发现影响在体内甲状腺中，将使用体外甲状腺进行额外的研究。