Nucleoporin PNET1 coordinates mitotic nuclear pore complex dynamics for rapid cell division.

in Nature plants by Yiling Fang, Yu Tang, Peiqiao Xie, Kendall Hsieh, Heejae Nam, Min Jia, Andres V Reyes, Yuchen Liu, Shouling Xu, Xiaosa Xu, Yangnan Gu

TLDR

  • PNET1, a transmembrane nucleoporin, is a key NPC component required for rapid cell growth in highly proliferative tissues and its human homologue is upregulated in cancer cells.

Abstract

The nuclear pore complex (NPC) is a cornerstone of eukaryotic cell functionality, orchestrating the nucleocytoplasmic shuttling of macromolecules. Here we report that Plant Nuclear Envelope Transmembrane 1 (PNET1), a transmembrane nucleoporin, is an adaptable NPC component that is mainly expressed in actively dividing cells. PNET1's selective incorporation into the NPC is required for rapid cell growth in highly proliferative meristem and callus tissues in Arabidopsis. We demonstrate that the cell cycle-dependent phosphorylation of PNET1 coordinates mitotic disassembly and post-mitotic reassembly of NPCs during the cell cycle. PNET1 hyperphosphorylation disrupts its interaction with the NPC scaffold, facilitating NPC dismantling and nuclear membrane breakdown to trigger mitosis. In contrast, nascent, unphosphorylated PNET1 is incorporated into the nuclear pore membrane in the daughter cells, where it restores interactions with scaffolding nucleoporins for NPC reassembly. The expression of the human PNET1 homologue is required for and markedly upregulated during cancer cell growth, suggesting that PNET1 plays a conserved role in facilitating rapid cell division during open mitosis in highly proliferative tissues.

Overview

  • The study investigates the role of Plant Nuclear Envelope Transmembrane 1 (PNET1) in the nuclear pore complex (NPC) of Arabidopsis and its human homologue in cancer cell growth.
  • The study focuses on the selective incorporation of PNET1 into the NPC and its adaptability to cell cycle-dependent phosphorylation.
  • The primary objective is to understand the significance of PNET1 in orchestrating nucleocytoplasmic shuttling and facilitating rapid cell division during mitosis.

Comparative Analysis & Findings

  • The study shows that PNET1 is mainly expressed in actively dividing cells and is required for rapid cell growth in highly proliferative tissues.
  • Cell cycle-dependent phosphorylation of PNET1 coordinates mitotic disassembly and post-mitotic reassembly of NPCs during the cell cycle.
  • The expression of the human PNET1 homologue is required for and markedly upregulated during cancer cell growth, suggesting a conserved role in facilitating rapid cell division.

Implications and Future Directions

  • The study highlights the importance of PNET1 as a key NPC component in facilitating rapid cell division and its possible role in cancer cell growth.
  • Future studies could investigate the potential therapeutic applications of targeting PNET1 in cancer treatment and its implications for other diseases.
  • Further research is needed to understand the specific mechanisms by which PNET1 coordinates NPC assembly and disassembly during the cell cycle.
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