Author
Listed:
- Ziheng Liu
(Fudan University)
- Ying Yang
(National University of Singapore)
- Aihong Gu
(Fudan University)
- Jiawen Xu
(Fudan University)
- Ying Mao
(Fudan University)
- Haojie Lu
(Fudan University)
- Weiguo Hu
(Fudan University
Fudan University)
- Qun-Ying Lei
(Fudan University)
- Zhouhua Li
(Capital Normal University)
- Mingjie Zhang
(Hong Kong University of Science and Technology)
- Yu Cai
(National University of Singapore)
- Wenyu Wen
(Fudan University)
Abstract
The evolutionarily conserved Par3/Par6/aPKC complex regulates the polarity establishment of diverse cell types and distinct polarity-driven functions. However, how the Par complex is concentrated beneath the membrane to initiate cell polarization remains unclear. Here we show that the Par complex exhibits cell cycle-dependent condensation in Drosophila neuroblasts, driven by liquid–liquid phase separation. The open conformation of Par3 undergoes autonomous phase separation likely due to its NTD-mediated oligomerization. Par6, via C-terminal tail binding to Par3 PDZ3, can be enriched to Par3 condensates and in return dramatically promote Par3 phase separation. aPKC can also be concentrated to the Par3N/Par6 condensates as a client. Interestingly, activated aPKC can disperse the Par3/Par6 condensates via phosphorylation of Par3. Perturbations of Par3/Par6 phase separation impair the establishment of apical–basal polarity during neuroblast asymmetric divisions and lead to defective lineage development. We propose that phase separation may be a common mechanism for localized cortical condensation of cell polarity complexes.
Suggested Citation
Ziheng Liu & Ying Yang & Aihong Gu & Jiawen Xu & Ying Mao & Haojie Lu & Weiguo Hu & Qun-Ying Lei & Zhouhua Li & Mingjie Zhang & Yu Cai & Wenyu Wen, 2020.
"Par complex cluster formation mediated by phase separation,"
Nature Communications, Nature, vol. 11(1), pages 1-18, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16135-6
DOI: 10.1038/s41467-020-16135-6
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