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Cell cycle perturbation uncouples mitotic progression and invasive behavior in a post-mitotic cell.

Michael A Q MartinezChris Z ZhaoFrances E Q MooreCallista YeeWan ZhangKang ShenBenjamin L MartinDavid Q Matus
Published in: bioRxiv : the preprint server for biology (2024)
The acquisition of the post-mitotic state is crucial for the execution of many terminally differentiated cell behaviors during organismal development. However, the mechanisms that maintain the post-mitotic state in this context remain poorly understood. To gain insight into these mechanisms, we used the genetically and visually accessible model of C. elegans anchor cell (AC) invasion into the vulval epithelium. The AC is a terminally differentiated uterine cell that normally exits the cell cycle and enters a post-mitotic state, initiating contact between the uterus and vulva through a cell invasion event. Here, we set out to identify the set of negative cell cycle regulators that maintain the AC in this post-mitotic, invasive state. Our findings revealed a critical role for CKI-1 (p21 CIP1 /p27 KIP1 ) in redundantly maintaining the post-mitotic state of the AC, as loss of CKI-1 in combination with other negative cell cycle regulators-including CKI-2 (p21 CIP1 /p27 KIP1 ), LIN-35 (pRb/p107/p130), FZR-1 (Cdh1/Hct1), and LIN-23 (β-TrCP)-resulted in proliferating ACs. Remarkably, time-lapse imaging revealed that these ACs retain their ability to invade. Upon examination of a node in the gene regulatory network controlling AC invasion, we determined that proliferating, invasive ACs do so by maintaining aspects of pro-invasive gene expression. We therefore report that the requirement for a post-mitotic state for invasive cell behavior can be bypassed following direct cell cycle perturbation.
Keyphrases
  • cell cycle
  • cell proliferation
  • single cell
  • gene expression
  • cell therapy
  • acute coronary syndrome
  • stem cells
  • high resolution
  • transcription factor
  • cell death
  • lymph node
  • bone marrow
  • fluorescence imaging