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LYSOSOMAL MECHANISMS OF BLASTOCYST IMPLANTATION

囊胚植入的溶酶体机制

基本信息

批准号：
3311374
负责人：
BRUCE C MOULTON
金额：
$ 13.34万
依托单位：
UNIVERSITY OF CINCINNATI
依托单位国家：
美国
项目类别：
财政年份：
1980
资助国家：
美国
起止时间：
1980-09-01 至 1990-03-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/3311374
关键词：
early embryonic stage embryo implantation endometrium epithelium estradiol gel electrophoresis hormone regulation /control mechanism lysosomes messenger RNA ovariectomy peptidases progesterone progestins

项目摘要

ln response to the ovarian secretion of progesterone and estrogen during early pregnancy, the mammalian uterus develops the capacity to perform complex cellular activities required for blastocyst implantation. Luminal epithelial cells maintain the intrauterine environment of the blastocyst by secretion and endocytosis, provide an appropriate matrix for the adhesion of the blastocyst, and appear to transmit information from the blastocyst to the underlying stroma to initiate decidualization. As implantation proceeds, luminal epithelial cells undergo autolysis within the implantation chamber and extensive restructuring peripherally. These cellular functions require the active participation of lysosomes and precise hormonal control of the synthesis and compartmentalization of lysosomal enzymes. Our past studies have shown that progesterone increases lysosomal cathepsin D activity and rates of synthesis of this enzyme in luminal epithelial cells. Following progestin pretreatment, estradiol alters the capacity of these cells to respond to deciduogenic stimuli. Epithelial cell functions during early pregnancy may depend upon the content of lysosomal proteases as well as changes in the intracellular function of lysosomes within these cells. To elucidate the biochemical mechanisms by which progesterone and estradiol control the enzyme content and intracellular activity of epithelial lysosomes, the following specific aims are proposed: (1) Changes in the activity of uterine mRNA coding for cathepsin D will be measured after progestin and estrogen treatment. (2) Precursor- product relationships between the various molecular weight forms of uterine cathepsin D will be established so that the hormonal control of cathepsin D processing and activation can be determined. (3) The glycosylated forms of cathepsin D will be identified and the hormonal control of their glycosylation determined. (4) We will examine the intracellular function of cathepsin D in protein degradation. These studies of the control of lysosomal enzyme synthesis and intracellular activity during early pregnancy should provide further elucidation of the biochemical mechanisms by which progesterone and estrogen control epithelial function and the development of the endometrial capacity for response to the implanting blastocyst. Better understanding of cellular control mechanisms in the endometrium should contribute to our fundamental knowledge of the earliest stages of pregnancy and to the development of means by which to limit population growth.

响应卵巢分泌的孕激素和雌激素在怀孕早期，哺乳动物的子宫发展出进行胚泡发育所需的复杂细胞活动置入腔上皮细胞维持子宫内通过分泌和内吞作用，用于胚泡粘附的适当基质，和似乎将信息从胚泡传递到下层基质启动蜕膜化。作为注入进行时，管腔上皮细胞在细胞内进行自溶。植入腔和周围广泛的重组。这些细胞功能需要细胞的积极参与溶酶体和合成的精确激素控制，溶酶体酶的区室化。我们过去的研究显示孕酮增加溶酶体组织蛋白酶D活性，和该酶在腔上皮细胞中的合成速率。经曲马多蛋白预处理后，雌二醇改变了这些细胞对蜕膜刺激作出反应。上皮细胞怀孕早期的功能可能取决于溶酶体蛋白酶以及细胞内这些细胞内的溶酶体的功能。阐明本孕酮和雌二醇控制的生化机制上皮细胞酶含量和细胞内活性溶酶体，提出了以下具体目标：（1）改变子宫组织蛋白酶D的mRNA编码的活性，测量后的雌激素和雌激素治疗。 (2)前体- 各种分子量形式之间的乘积关系将建立子宫组织蛋白酶D，可以确定组织蛋白酶D加工和活化的控制。 (3)将鉴定组织蛋白酶D的糖基化形式，确定其糖基化的激素控制。 (4)我们将检查蛋白质中组织蛋白酶D的细胞内功能降解这些关于控制溶酶体酶的研究在怀孕早期合成和细胞内活动应进一步阐明了生物化学机制，孕激素和雌激素控制上皮功能，发展子宫内膜的反应能力，植入囊胚更好地理解细胞控制子宫内膜中的机制应该有助于我们的基本妊娠早期的知识，发展限制人口增长的手段。