Tom Bland, Nisha Hirani, David C Briggs, Riccardo Rossetto, KangBo Ng, Ian A Taylor, Neil Q McDonald, David Zwicker, Nathan W Goehring
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引用次数: 0
摘要
细胞极性网络是由其组成的反馈回路的定量特征定义的,这些反馈回路必须经过调整才能实现稳健而稳定的极性化,同时还要确保网络在发育过程中对动态变化的细胞状态和/或空间线索保持响应。我们以 PAR 极性网络为模型,证明了极性蛋白 PAR-2 通过其 N 端 RING 结构域的二聚化可以实现这些特征。结合理论和实验,我们发现二聚体的亲和力得到了优化,从而在极化过程中实现了 PAR-2 与质膜的动态、选择性和合作性结合。减少二聚化会损害极化的正反馈和稳健性。相反,由于 PAR-2 在内部膜上的动力学捕获以及 PAR-2 对前极性激酶 aPKC/PKC-3 的敏感性降低,二聚化增强会降低网络的反应能力。因此,我们的数据揭示了动态寡聚的 RING 结构域在优化相互作用亲和力以支持稳健且反应灵敏的细胞极性网络中的关键作用,并强调了寡聚动力学的优化如何作为一种动态、合作的细胞内靶向策略。
Optimized PAR-2 RING dimerization mediates cooperative and selective membrane binding for robust cell polarity.
Cell polarity networks are defined by quantitative features of their constituent feedback circuits, which must be tuned to enable robust and stable polarization, while also ensuring that networks remain responsive to dynamically changing cellular states and/or spatial cues during development. Using the PAR polarity network as a model, we demonstrate that these features are enabled by the dimerization of the polarity protein PAR-2 via its N-terminal RING domain. Combining theory and experiment, we show that dimer affinity is optimized to achieve dynamic, selective, and cooperative binding of PAR-2 to the plasma membrane during polarization. Reducing dimerization compromises positive feedback and robustness of polarization. Conversely, enhanced dimerization renders the network less responsive due to kinetic trapping of PAR-2 on internal membranes and reduced sensitivity of PAR-2 to the anterior polarity kinase, aPKC/PKC-3. Thus, our data reveal a key role for a dynamically oligomeric RING domain in optimizing interaction affinities to support a robust and responsive cell polarity network, and highlight how optimization of oligomerization kinetics can serve as a strategy for dynamic and cooperative intracellular targeting.
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