Biogenesis of Dense Core Secretory Granules in Tetrahymena

四膜虫致密核心分泌颗粒的生物发生

• 批准号: 7144783
• 负责人: AARON P TURKEWITZ
• 金额: $ 27.86万
• 依托单位: UNIVERSITY OF CHICAGO
• 依托单位国家: 美国
• 财政年份: 2006
• 资助国家: 美国
• 起止时间: 2006-09-01 至 2010-08-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7144783
• 关键词: Golgi apparatus; Tetrahymena; calcium binding protein; exocytosis; flow cytometry; intracellular transport; mass spectrometry; membrane activity; membrane biogenesis; membrane fusion; membrane proteins; membrane structure; protein localization; protein protein interaction; protozoal genetics; vesicle /vacuole

DESCRIPTION (provided by applicant): Dense core secretory granules are vesicles that are responsible for storage and regulated release of a wide variety of polypeptides including hormones, digestive enzymes, and peptide neurotransmitters. Granules store their contents in the cytoplasm of specialized cell types and release these only in graded response to extracellular stimuli. Genetic and environmentally-induced lesions in granule function are connected with serious human diseases, including diabetes and developmental problems. Nonetheless our understanding of the pathway responsible for granule synthesis is still missing important details. The function of secretory granules requires that the specific cargo polypeptides are sorted to vesicles together with membrane proteins that facilitate vesicle docking and fusion. Protein sorting must take place in the trans-Golgi network, but the mechanisms involved are not known. Furthermore, the proteins involved in docking and fusion may be localized to particular regions of the secretory granule membrane. Our aim is to understand the molecular bases for the organization of granule membrane proteins both during sorting and in the fully-formed granule. We will do this using the ciliate Tetrahymena thermophila, a genetically-manipulable single-celled system. We have discovered several proteins within Tetrahymena secretory granules that are strong candidates for components interacting with membrane proteins, and we will use a combination of biochemistry and genetics to dissect their function.

描述（由申请人提供）：致密核心分泌颗粒是负责储存和调节释放多种多肽（包括激素、消化酶和肽类神经递质）的囊泡。颗粒将其内容物储存在专门细胞类型的细胞质中，并且仅在对细胞外刺激的分级反应中释放这些内容物。遗传和环境引起的颗粒功能损害与严重的人类疾病有关，包括糖尿病和发育问题。尽管如此，我们对颗粒合成途径的理解仍然缺少重要的细节。分泌颗粒的功能要求特定的货物多肽与促进囊泡对接和融合的膜蛋白一起被分选到囊泡中。蛋白质分选必须在高尔基体网络中进行，但所涉及的机制尚不清楚。此外，参与对接和融合的蛋白质可能定位于分泌颗粒膜的特定区域。我们的目的是了解在分选过程中和完全形成的颗粒中颗粒膜蛋白组织的分子基础。我们将使用纤毛四膜虫嗜热，一个遗传操纵的单细胞系统。我们已经发现了四膜虫分泌颗粒中的几种蛋白质，它们是与膜蛋白相互作用的组分的强有力的候选者，我们将结合生物化学和遗传学来剖析它们的功能。