Germ Cell Migration in Drosophila.

果蝇生殖细胞迁移。

• 批准号: 10005906
• 负责人: RUTH LEHMANN
• 金额: $ 2.76万
• 依托单位: NEW YORK UNIVERSITY SCHOOL OF MEDICINE
• 依托单位国家: 美国
• 财政年份: 2017
• 资助国家: 美国
• 起止时间: 2017-09-01 至 2020-12-01
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/10005906
• 关键词: ATP-Binding Cassette Transporters; Abdomen; Address; Adult; Affect; Afferent Neurons; Animals; Behavior; Behavior Control; Biochemical; Biological Assay; Biological Models; Candidate Disease Gene; Cartilage; Cell Culture Techniques; Cell Survival; Cell membrane; Cell physiology; Cells; Cellular biology; Childhood; Complex; Cues; Destinations; Development; Drosophila genus; Ectopic Expression; Embryo; Environment; Enzymes; Face; Fibroblasts; Genes; Genetic; Germ Cells; Germ Lines; Germinoma; Goals; Gonadal structure; Homologous Gene; Human; Hydrolysis; Hydroxymethylglutaryl-CoA reductase; Image; Immune system; In Vitro; Individual; Inflammation; Knowledge; Lipids; Location; Lymphocyte; Mediating; Membrane; Mesoderm; Migration Assay; Modeling; Modification; Morphology; Movement; Mus; Nature; Neoplasm Metastasis; Neural Crest Cell; Neuraxis; Organism; Ovary; Pathway interactions; Phospholipids; Phosphoric Monoester Hydrolases; Phosphotransferases; Pigments; Play; Process; RNA; RNA Interference; Reagent; Role; Route; Signal Pathway; Signal Transduction; Skin; Somatic Cell; Structure of primordial sex cell; System; Systems Analysis; Technology; Testing; Testis; Tissues; Translating; Yeasts; Zebrafish; base; cancer cell; cell behavior; cell motility; cell type; egg; experimental study; extracellular; genetic analysis; genetic approach; genetic testing; in vitro Assay; in vivo; lipid phosphate phosphatase; man; migration; neoplastic cell; neuronal cell body; response; small hairpin RNA; sperm cell; tool; tumor; vertebrate embryos; wound healing

DESCRIPTION (provided by applicant): Many aspects of development require the migration of individual cells through diverse and complex environments. In vertebrate embryos, for example, neural crest cells leave the developing central nervous system and migrate over long distances to give rise to such cell types as sensory neurons, facial cartilage and pigment cells of the skin. In adults, migratory cell types include the cells of the immune system, fibroblasts during wound healing, and cancer cells during metastasis. During directed cell migration, motile cells are guided along a particular path, they recognize guidance cues and translate them into directed movement. Finally, cells must be able to recognize their target tissue and stop migrating and cells that fail to reach their target have to be eliminated. Primordial germ cells provide an excellent model system for the analysis of directed cell migration. Many aspects of germ cell biology, such as their overall morphology and their curious migratory path toward the somatic components of the gonad are conserved throughout the animal kingdom. We have used Drosophila to identify signals produced by the soma that guide migrating germ cells. We find that lipid signaling plays a critical role for migrating primordial germ cells. This proposal aims to understand how lipid signaling and membrane composition affect germ cell migration and survival. The aim is to characterize the signaling processes within the germ cells and to determine the nature and distribution of the extracellular signals that guide germ cells. In the first aim we will use a genetic approach targeted at germline expressed genes to identify new and additional components of the migratory machinery in germ cells. In the second aim, we will characterize the lipid targets of the Drosophila lipidphosphate phosphatases, Wunen and Wunen2 that guide germ cells and analyze the nature of the migratory response in germ cells and its role in germ cell survival. In the third aim, we propose to isolate a germ cell attractant produced by the somatic gonad, which we have shown is lipid modified and exported by the somatic gonad cells by an conserved, unconventional ABC transporter. Mis-migration of germ cells in humans is thought to be the cause of germinomas, tumors of the germ line that develop outside of the testis and ovaries. It remains unclear what causes germ cell mis-migration and why these apparently 'lost' germ cells survive outside of the gonad environment. The mechanisms underlying germ cell migration and survival have been studied in genetically tractable organisms such as Drosophila, mouse and zebrafish. These studies have revealed striking parallels in the behavior of germ cells and in the genes that control this behavior. Findings resulting from this application are likely to contribute to a better understanding of the cues and cellular processes that guide germ cell migration and that physically distinguish germ cells from other cells in the body.

描述（由申请人提供）：发展的许多方面都需要单个细胞在不同和复杂的环境中迁移。例如，在脊椎动物胚胎中，神经嵴细胞离开发育中的中枢神经系统，经过长距离迁移，形成感觉神经元、面部软骨和色素细胞等细胞类型