Proteasomal regulation of proliferation in the C. elegans germ line

蛋白酶体对秀丽隐杆线虫种系增殖的调节

• 批准号: 288154-2009
• 负责人: Hansen, David
• 金额: $ 1.82万
• 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: 2012
• 资助国家: 加拿大
• 起止时间: 2012-01-01 至 2013-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=498012
• 关键词: Proteasomal; regulation; proliferation; C.; elegans

The reproductive fitness of many animals relies upon the production of large numbers of gametes over an extended period of time. The number of gametes produced over the life of the animal often far exceeds the number of cells that exist in the gonad at any given time. This is possible due to the existence of germline stem cells, which divide to give rise to two types of daughter cells. One daughter cell becomes the gamete (differentiation), while the other daughter cell retains the same characteristics as the parent (self-renewal), which can then give rise to both types of daughter cells. Therefore, a population of cells is always maintained from which future gametes can be generated. A tight balance must be maintained between the number of daughter cells that become gametes and the number of daughter cells that self-renew because a shift towards either fate will eventually result in sterility. The molecular mechanisms involved in maintaining this balance are not well understood in any system. We are using the germ line of the model organism, C. elegans, as a model to understand how the balance between stem cell differentiation and self-renewal is maintained. We have previously found that the proteasome, which degrades proteins in the cell, is needed for this balance to be maintained properly. We have performed genetic analysis that has helped in our understanding of the possible mechanisms by which the proteasome functions to help control this balance. We found that at least part of this mechanism is to control the Notch signaling pathway; this signaling pathway is highly utilized in virtually all multicellular animals during development. We have identified a potentially novel mechanism by which the proteasome controls Notch signaling. Our current proposal aims to identify the specific proteins that are targeted by the proteasome and understand how their degradation is necessary for the balance between differentiation and self-renewal to be maintained in the C. elegans germ line, which will help in our general understanding of how this balance is maintained in all stem cell systems. Additionally, it will also help in our understanding of the regulation of the highly conserved Notch signaling pathway.

许多动物的生殖适应性依赖于在较长时间内产生大量配子。 在动物的一生中产生的配子的数量往往远远超过在任何给定时间存在于性腺中的细胞的数量。 这是可能的，因为生殖系干细胞的存在，生殖系干细胞分裂产生两种类型的子细胞。 一个子细胞成为配子（分化），而另一个子细胞保留与亲本相同的特征（自我更新），然后可以产生两种类型的子细胞。 因此，细胞群体总是保持从未来的配子可以产生。 在成为配子的子细胞数量和自我更新的子细胞数量之间必须保持严格的平衡，因为向任何一种命运的转变最终都会导致不育。 维持这种平衡的分子机制在任何系统中都没有得到很好的理解。 我们使用的是模式生物C. elegans，作为了解干细胞分化和自我更新之间如何保持平衡的模型。 我们以前已经发现，蛋白酶体，降解细胞中的蛋白质，是需要这种平衡得到适当的维持。 我们已经进行了遗传分析，这有助于我们理解蛋白酶体发挥作用以帮助控制这种平衡的可能机制。 我们发现，这种机制至少有一部分是控制Notch信号通路;这种信号通路在几乎所有多细胞动物的发育过程中都得到了高度利用。 我们已经确定了一个潜在的新机制，蛋白酶体控制Notch信号。 我们目前的建议旨在确定蛋白酶体靶向的特定蛋白质，并了解它们的降解如何在C. elegans生殖细胞系，这将有助于我们全面了解这种平衡是如何在所有干细胞系统中维持的。 此外，它也将有助于我们理解高度保守的Notch信号通路的调控。