Mechanism of Xenopus Cranial Neural Crest Cell Migration

非洲爪蟾颅神经嵴细胞迁移机制

• 批准号: 7178522
• 负责人: DOMINIQUE R ALFANDARI
• 金额: $ 32.69万
• 依托单位: UNIVERSITY OF MASSACHUSETTS AMHERST
• 依托单位国家: 美国
• 财政年份: 2006
• 资助国家: 美国
• 起止时间: 2006-03-01 至 2011-02-28
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7178522
• 关键词: Anterior; Antisense Oligonucleotides; Asthma; Cell Adhesion; Cell Death; Cell Proliferation; Cell surface; Cells; Cephalic; Cleaved cell; Condition; Data; Development; Diagnosis; Disintegrins; Dominant-Negative Mutation; Drug usage; Embryo; Embryonic Development; Endopeptidases; Environment; Epidermis; Event; Extracellular Matrix; Face; Facility Construction Funding Category; Fibronectins; Histone H3; Human; Immigration; In Situ Hybridization; In Situ Nick-End Labeling; In Vitro; Injection of therapeutic agent; Jaw; Label; Lateral; Lead; Light; Link; MCC protocol; Measures; Mesoderm; Messenger RNA; Metalloproteases; Modeling; Neoplasm Metastasis; Neural Crest; Neural Crest Cell; Oligonucleotides; Pathway interactions; Peptide Hydrolases; Peripheral Nervous System; Phenotype; Phosphorylation; Positioning Attribute; Protein Overexpression; Proteins; Relative (related person); Research Personnel; Signal Transduction; Site; Structure; Testing; Tissues; Translations; Work; Xenopus; adhesion receptor; base; cell motility; craniofacial; in vivo; inhibitor/antagonist; migration; neural plate; novel; prevent; programs; protein function; research study; tumor

DESCRIPTION (provided by applicant): Proper cranial neural crest (CNC) cell migration is essential for the construction of the face, jaws and their peripheral nervous system connections. Despite this importance, little is known about how neural crest cell migration is regulated. During Xenopus embryo development the expression of ADAM 13 (a protein containing A Disintegrin And Metalloprotease) correlates with the migration of the cranial neural crest cells from the lateral border of the neural plate to the ventral anterior station where they eventually form facial structures (Alfandari et al., 1997). Our on-going analyses of cranial neural crest cells expressing a dominant negative form of ADAM13 suggest that ADAM13 promotes and/or directs their migration in two of the three possible pathways. Our working hypothesis is that ADAM13 cleaves a protein that normally restricts cranial neural crest cell migration. This protein may either be inserted in the migration path as a stop signal to prevent cell passage or be expressed at the cranial neural crest cell surface to hold the cells in place as an anchor. To test these hypotheses and analyze whether other ADAM and related metalloproteases may also be involved in cranial neural crest cell migration we propose the following specific Aims. This proposal has three Aims to understand 1) if cells missing ADAM13 protein can use other ADAM and related metalloprotease to migrate, 2) if ADAM13 functions as a "drill" to open migration pathways, 3) if ADAM13 cuts an anchor that attaches cranial neural crest cells to their environment. Using specific morpholino oligonucleotides, we can prevent translation of ADAM proteins including ADAM13 in embryos and test how cranial neural crest cells migrate. This can be compared to the migration of cells in which ADAM 13 function is blocked (using drug inhibitor). Using grafts we will test whether cranial neural crest cells missing ADAM13 activity can follow cells that have ADAM13. Finally, we will test if ADAM13 can cleave proteins that are known to anchor cells down. The proposed studies will increase our understanding of events that govern normal formation of the face, an essential step towards diagnosing and treating conditions that lead to abnormal development. Furthermore, information about ADAM contributions to cell migration could lead to new understanding of the function of these proteins in various cancer and metastasis. In particular these protein (ADAM) are likely to be involved in the escape of cells from the original tumor to new sites.

描述（由申请人提供）：适当的颅神经嵴（CNC）细胞迁移对于面部、颌骨及其周围神经系统连接的构建至关重要。尽管如此重要，很少有人知道神经嵴细胞迁移是如何调节的。在非洲爪蟾胚胎发育期间，ADAM 13（一种含有A去整合素和金属蛋白酶的蛋白质）的表达与颅神经嵴细胞从神经板的外侧边缘向腹前站的迁移相关，在腹前站它们最终形成面部结构（Alfandari et al.，1997年）。我们正在进行的颅神经嵴细胞表达的ADAM 13的显性负性形式的分析表明，ADAM 13促进和/或指导其迁移的三个可能的途径中的两个。我们的工作假设是，ADAM 13切割蛋白质，通常限制颅神经嵴细胞迁移。该蛋白质可以作为停止信号插入迁移路径中以阻止细胞通过，或者在颅神经嵴细胞表面表达以作为锚将细胞保持在适当位置。为了验证这些假设，并分析其他ADAM和相关金属蛋白酶是否也可能参与颅神经嵴细胞迁移，我们提出了以下具体目标。该提案有三个目的来理解1）如果细胞缺失ADAM 13蛋白可以使用其他ADAM和相关金属蛋白酶迁移，2）如果ADAM 13作为“钻头”打开迁移途径，3）如果ADAM 13切断将颅神经嵴细胞附着到其环境的锚。使用特定的吗啉代寡核苷酸，我们可以阻止胚胎中包括ADAM 13在内的ADAM蛋白的翻译，并测试颅神经嵴细胞如何迁移。这可以与其中ADAM 13功能被阻断（使用药物抑制剂）的细胞的迁移进行比较。使用移植物，我们将测试缺失ADAM 13活性的颅神经嵴细胞是否可以跟随具有ADAM 13的细胞。最后，我们将测试ADAM 13是否可以切割已知的锚细胞的蛋白质。拟议中的研究将增加我们对控制面部正常形成的事件的理解，这是诊断和治疗导致异常发育的条件的重要一步。此外，关于ADAM对细胞迁移的贡献的信息可能会导致对这些蛋白质在各种癌症和转移中的功能的新理解。特别是这些蛋白质（ADAM）可能参与细胞从原始肿瘤逃逸到新部位。