Yea Kyungmoo, Xie Jia, Zhang Hongkai, Zhang Wei, Lerner Richard A
Shanghai Institute for Advanced Immunological Studies, ShanghaiTech University, Shanghai 200031, China.
Department of Cell and Molecular Biology, The Scripps Research Institute, La Jolla, CA 92037, USA.
Curr Opin Chem Biol. 2015 Jun;26:1-7. doi: 10.1016/j.cbpa.2015.01.002. Epub 2015 Jan 23.
The main purpose of this perspective is to build on the unexpected outcomes of previous laboratory experiments using antibody agonists to raise questions concerning how activation of a given receptor can be involved in inducing differentiation of cells along different pathways some of which may even derive from different lineages. While not yet answered, the question illustrates how the advent of agonists not present in nature may give a different dimension to the important problem of signal transduction. Thus, if one studies a natural agonist-receptor system one can learn details about its signal transduction pathway. However, if one has a set of orthogonal agonists, one may learn about the yet undiscovered potential of the system that, in the end, may necessitate refinements to the currently used models. Thus, we wonder why receptors conventionally linked to a given pathway induce a different pattern of differentiation when agonized in another way.
这一观点的主要目的是基于先前使用抗体激动剂的实验室实验的意外结果,提出一些问题,即给定受体的激活如何参与诱导细胞沿不同途径分化,其中一些途径甚至可能源自不同的细胞谱系。虽然这个问题尚未得到解答,但它说明了天然不存在的激动剂的出现如何可能为信号转导这一重要问题带来不同的维度。因此,如果研究天然激动剂-受体系统,人们可以了解其信号转导途径的细节。然而,如果有一组正交激动剂,人们可能会了解到该系统尚未被发现的潜力,最终可能需要对当前使用的模型进行完善。因此,我们想知道为什么传统上与给定途径相关联的受体在以另一种方式激动时会诱导出不同的分化模式。