EOR-1/PLZF-regulated WAH-1/AIF sequentially promotes early and late stages of non-apoptotic corpse removal

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Abstract

Programmed cell death (PCD) is a crucial, genetically-encoded, and evolutionarily-conserved process required for development and homeostasis. We previously identified a genetically non-apoptotic, highly ordered, and stereotyped killing program called Compartmentalized Cell Elimination (CCE) in the C. elegans tail-spike epithelial cell (TSC). Here we identify the transcription factor EOR-1/PLZF as an important coordinator of CCE. Loss of EOR-1 results in a large, persisting, un-engulfed soma with enlarged nuclei. We find that EOR-1 and its partners positively regulate the transcription of the Apoptosis Inducing Factor AIF homolog, WAH-1/AIF. We report stereotyped and sequential spatiotemporal dynamics of WAH-1/AIF1 during phagocytosis, with defined roles acting early and late, within the dying cells. Mitochondria to plasma membrane translocation within the TSC soma is required its internalization by its phagocyte, and plasma membrane to nuclear translocation is required for DNA degradation and ultimately, corpse resolution. Our study suggests that EOR-1 serves as a master regulator for the transcriptional control of DNA degradation is essential for changes in nuclear morphology required for cellular dismantling and infers that tight spatiotemporal regulation of WAH-1/AIF is required for this function.

Summary Statement

This work describes the genetic control and cellular dynamics of a factor linked to cancer, metabolic and degenerative disease acting in developmentally dying cells to instruct their own removal.

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