In vitro modelling of pregastrulation embryogenesis using pluripotent stem cells

使用多能干细胞进行原肠胚形成前胚胎发生的体外建模

• 批准号: RGPIN-2014-04874
• 负责人: Ungrin, Mark
• 金额: $ 2.91万
• 依托单位: University of Calgary
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2016
• 资助国家: 加拿大
• 起止时间: 2016-01-01 至 2017-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=611300
• 关键词: vitro; modelling; pregastrulation; embryogenesis; using

At the beginning of mammalian development, pluripotent cells expand, differentiate and self-organize, laying the foundations of the developing organism. A pivotal step is the formation of the bilaminar disc, with its two constituent layers the epiblast and the hypoblast. The epiblast is a pluripotent tissue which subsequently gives rise to the tissues and organs of the developing organism. The hypoblast contributes primarily to extraembryonic tissues, but plays a key role in axis formation and the differentiation of the epiblast. The molecular mechanisms that underlie this stage of embryogenesis are therefore of great importance to the field of developmental biology. As the quintessential example of the transformation from individual pluripotent cells to the organized collective structures of tissues and organs, this process is also of great interest to the field of tissue engineering. Much of our existing understanding of this stage of development has been obtained using mouse embryos. While a powerful approach, it can be labor intensive and expensive, and for both ethical and practical reasons its application to many other species – including humans – is limited. In my proposed research program, I will develop new technologies to recapitulate these processes in vitro, and employ them to resolve unanswered questions about mechanisms of bilaminar disc formation. I hypothesize that the formation of the bilaminar disc can be recapitulated in microfluidic cultures of pluripotent stem cells. In Objective One, I will establish these culture systems. In Objective Two, I will determine the mechanisms by which the cells destined to form the epiblast and hypoblast segregate themselves from one another. The present proposal focuses on the use of mouse pluripotent stem cells, to allow comparison with the large existing data set on mouse development. In the future, my research program will extend this research to model other species and subsequent stages of embryogenesis. My research program will result in new knowledge about the process of hypoblast formation in early development; provide a unique interdisciplinary training environment spanning microfluidics, developmental biology, tissue engineering and entrepreneurship; and generate technologies that provide new research capabilities to the scientific community. The successful translation of my AggreWell system to StemCell Technologies Inc, a Canadian company based in Vancouver which has now made the technology available around the world, will serve as the model for making the systems I develop here widely available. I thank the panel for its substantive review of a previous proposal in the Fall 2012 competition, which allowed me to make significant improvements in the present submission: Excellence of the Researcher(s) (Strong): Since the previous application I have an additional second-authorship in Nature Communications, a book chapter as corresponding author, and the first peer-reviewed publication from my laboratory is in press with trainee GR as first author. My H-index has climbed from 10 to 11. For Merit of the Proposal (Moderate): As recommended, I have focussed the proposal specifically on mouse development; included experiments to take full advantage of the screening potential of this system; proposed detailed biological studies to test my working hypotheses; will provide training directly, rather than via training facilities; and have provided more details on the materials and supplies in the Budget Justification. For Training of Highly Qualified Personnel (Moderate): I am now training two Ph.D. students (who have co-authored an in-press publication), one newly arrived M.Sc. student, and also trained three undergraduate summer students (two full- and one co-supervised).

在哺乳动物发育之初，多能细胞增殖、分化和自组织，为生物发育奠定了基础。一个关键的步骤是双层椎间盘的形成，它有两个组成层：外胚层和下胚层。外胚层是一种多能性组织，随后产生发育中的生物体的组织和器官。下胚层主要形成胚外组织，但在轴的形成和外胚层的分化中起关键作用。因此，胚胎发生这一阶段的分子机制对发育生物学领域具有重要意义。作为个体多能细胞向组织和器官有组织的集体结构转化的典型例子，这一过程也引起了组织工程领域的极大兴趣。我们对这一发育阶段的现有认识大多是通过小鼠胚胎获得的。虽然这是一种强大的方法，但它可能是劳动密集型和昂贵的，并且出于道德和实际原因，它在许多其他物种（包括人类）上的应用是有限的。