Membrane-based signalling pathways controlling sperm capacitation and fertility

控制精子获能和生育力的膜信号通路

• 批准号: 105823-2013
• 负责人: Buhr, Mary
• 金额: $ 2.11万
• 依托单位: University of Saskatchewan
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2014
• 资助国家: 加拿大
• 起止时间: 2014-01-01 至 2015-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=545217
• 关键词: Membrane; based; signalling; pathways; controlling

The molecules in mammalian sperm must reorganise just prior to meeting the egg, in order to fertilise it. This reorganisation is started by signals that the sperm receives which cause the sperm to change its membrane and start specific internal reactions that enable it to bind to and penetrate the egg. The exact nature of the signal(s), and how they are received, is unknown, making it difficult to improve the fertility of the male, or to preserve sperm for artificial insemination. One molecule, Na/K-ATPase, is well known as an enzyme that moves ions across the membranes of many cell types, and recently has been recognised as a membrane-bound signal receptor in some body cells. We showed that it also acts this way in the sperm, reacting as a membrane receptor does to the presence of a specific hormone. The hormone which stimulates it on other cells is the steroid molecule ouabain. Na/K-ATPase is made of subunits, each of which has several isoforms. Think of the one subunit as a computer, with isoforms of desktop, laptop or ipad, each requiring somewhat different methods to turn them on. The other subunit is a peripheral device, either a printer, scanner or webcam. Pairing any one computer isoform with any one peripheral isoform affects the function of the paired devices, and certainly changes its output. Similarly, isoforms and subunits in sperm Na/K-ATPase affect how it functions (as an enzyme or receptor), and whether it can transport ions or start an intracellular signal. We propose to identify the specific subunits that, when paired together, are an active signal-receptor. We will determine the specific amino acid structure of those subunits. Since both ouabain and progesterone are steroids present in the female at fertilization, we will determine if and how they interact to control Na/K-ATPase actions. We will also determine how other membrane molecules surrounding ATPase affect its function (is your computer in an office or airplane?). This knowledge will help us to protect, predict and improve ATPase function and sperm fertility for domestic and endangered species, and potentially in human reproduction.

为了使卵子受精，哺乳动物精子中的分子必须在与卵子相遇之前重组。这种重组是由精子接收到的信号开始的，这些信号导致精子改变其膜，并开始特定的内部反应，使其能够结合并穿透卵子。这些信号的确切性质以及它们是如何被接收的都是未知的，这使得提高男性的生育能力或为人工授精保存精子变得困难。一种分子，Na/ k - atp酶，是一种众所周知的酶，它可以使离子穿过许多细胞类型的膜，最近被认为是一些身体细胞的膜结合信号受体。我们发现它在精子中也以这种方式起作用，就像膜受体对特定激素的反应一样。在其他细胞上刺激它的激素是类固醇分子瓦巴因。Na/ k - atp酶由亚基组成，每个亚基都有几个同工异构体。把一个亚单元想象成一台计算机，它有台式机、笔记本电脑或ipad的同型，每一种都需要不同的方法来打开它们。另一个子单元是外围设备，可以是打印机、扫描仪或网络摄像头。将任何一个计算机同位异构体与任何一个外设同位异构体配对都会影响配对设备的功能，并且肯定会改变其输出。同样，精子中Na/ k - atp酶的同工型和亚基影响其功能（作为酶或受体），以及它是否可以运输离子或启动细胞内信号。我们建议确定特定的亚基，当配对在一起时，是一个活跃的信号受体。我们将确定这些亚基的特定氨基酸结构。由于妊娠素和黄体酮都是雌性受精时存在的类固醇，我们将确定它们是否以及如何相互作用来控制Na/ k - atp酶的作用。我们还将确定围绕atp酶的其他膜分子如何影响它的功能（你的电脑是在办公室还是飞机上？）这些知识将有助于我们保护、预测和改善国内和濒危物种的atp酶功能和精子生育能力，并可能在人类生殖中发挥作用。