权益分类	功能权益	普通用户	{{item.name}}会员
{{category.name}}	{{benefitItem.name}}

NEUROENDO SIGNAL TRANSDUCTION--REPRODUCTIVE PHYSIOLOGY

神经内信号转导——生殖生理学

基本信息

批准号：
6329430
负责人：
KAREN Ann GREGERSON
金额：
$ 18.86万
依托单位：
UNIVERSITY OF MARYLAND BALTIMORE
依托单位国家：
美国
项目类别：
财政年份：
1999
资助国家：
美国
起止时间：
1999-01-01 至 2001-06-30
项目状态：
已结题

项目摘要

Prolactin (PRL), an anterior pituitary hormone, has profound effects on female fertility. In fact, hypersecretion of PRL is the major neuroendocrine-related pathology associated with female infertility. Unfortunately, the underlying defects which lead to the hypersecretion of PRL remain ill-defined. To provide a rational framework for understanding these defects and treating associated pathologies, it is essential to elucidate the cellular and molecular mechanisms of PRL secretion regulation. Normally PRL secretion is under tonic inhibition by hypothalamic dopamine (DA). Periodic, physiological surges of PRL in females require a withdrawal from this dopaminergic inhibition. Since reduced responsiveness to DA is a hallmark of hyperprolactinemic syndromes, our attention has focused on the cellular and molecular basis of DA action on the lactotrope. We have discovered and extensively characterized a DA-activated inwardly-rectifying potassium channel (KDA) in normal lactotropes. KDA activation by DA leads to hyperpolarization of the lactotrope membrane and cessation of calcium-dependent action potentials, the driving force for tonic PRL secretion. In vitro studies have demonstrated a critical role for this KDA channel in the regulation PRL release by DA. Furthermore, the functional expression of KDA is dependent upon estrogen, which may explain a long-recognized modulatory action of estrogen on this system. In these regards, the KDA channel lies at the top of a hierarchy of events in dopaminergic regulation of PRL secretion. As an initial step in elucidating the molecular basis for the physiological role of KDA in lactotropes, we have cloned three different K channel gene products from female anterior pituitary tissue. Based on functional similarities between the native channel and recombinant channels expressed in Xenopus oocytes, two of the gene products are excellent candidate subunits encoding a heteromultimeric KDA. As a logical extension of these studies, we propose to evaluate the role of this effector K channel within its physiological context- the whole animal-through transgenic technology. To this end, we will design and construct "dominant-negative" mutants, capable of inhibiting wild-type KDA function in lactotropes. We will then create a transgenic mouse model in which expression of this mutant is directed to pituitary lactotropes using the PRL promoter. These studies represent a timely and important extension of the P.I.'s work and will ultimately provide insight into the basis of disorders in PRL secretion and their impact on female fertility.

催乳素（PRL）是一种垂体前叶激素，女性生育能力事实上，PRL分泌过多是主要的与女性不孕症相关的神经内分泌相关病理学。不幸的是，导致分泌过多的潜在缺陷 PRL的定义仍然不明确。提供一个合理的框架，了解这些缺陷和治疗相关的病理，对于阐明PRL的细胞和分子机制至关重要分泌调节正常情况下，PRL分泌处于紧张性抑制状态下丘脑多巴胺（DA）。 PRL的周期性生理激增需要从这种多巴胺能抑制中退出。由于对DA的反应性降低是高催乳素血症的标志，综合征，我们的注意力集中在细胞和分子基础上 DA对催乳素的作用。我们已经发现并广泛表征了DA激活的内向整流钾通道（KDA）。 kDa DA激活导致催乳素膜超极化和钙依赖性动作电位的停止，促进催乳素分泌体外研究表明，该KDA通道在调节DA释放PRL中的作用。此外，KDA的功能表达依赖于雌激素，这可能解释了长期公认的调节作用，雌激素的作用在这些方面，KDA通道位于在多巴胺能调节PRL的事件层级中处于顶端分泌物作为阐明该分子基础的第一步， KDA在催乳素中的生理作用，我们克隆了三种不同的女性垂体前叶组织中钾通道基因产物。基于天然通道和重组通道之间的功能相似性在非洲爪蟾卵母细胞中表达的通道中，两种基因产物是编码异源多聚体KDA的优秀候选亚基。作为这些研究的逻辑延伸，我们建议评估的作用，这个效应K通道在其生理背景下-整个动物--通过转基因技术。为此，我们将设计和构建“显性阴性”突变体，能够抑制野生型 KDA在催乳素中的功能。然后我们将创造一个转基因小鼠该突变体的表达被导向垂体的模型使用PRL启动子的催乳素。这些研究代表了一个及时的是私家侦探的重要延伸的工作，并将最终提供了解PRL分泌紊乱的基础及其影响关于女性生育力。