# EOR-1/PLZF promotes WAH-1/AIF-dependent compartment-specific corpse clearance

**Authors:** Nathan Rather, Aladin Elkhalil, Melvin Williams, Karen Juanez, Rashna Sharmin, Ginger Clark, Shai Shaham, Piya Ghose

PMC · DOI: 10.1038/s41420-025-02874-2 · Cell Death Discovery · 2025-11-28

## TL;DR

The paper explores how specific genes regulate cell death and clearance in a specialized cell in C. elegans.

## Contribution

It identifies EOR-1/PLZF and WAH-1/AIF as key regulators of compartment-specific corpse clearance during a unique cell death process.

## Key findings

- EOR-1/PLZF regulates WAH-1/AIF during corpse clearance in C. elegans TSC cells.
- WAH-1/AIF is involved in corpse recognition and phagosome maturation.
- SCRM-1 and CPS-6/Endonuclease G are linked to specific stages of corpse clearance.

## Abstract

Programmed cell death (PCD) is a crucial, evolutionarily conserved process required for development and homeostasis. We previously described a genetically non-canonical apoptotic, highly ordered cell death program called Compartmentalized Cell Elimination (CCE) in the C. elegans morphologically complex tail-spike epithelial cell (TSC). Here, we define a role for the transcription factor EOR-1/PLZF as an important, compartment-specific, regulator of CCE. We identify EOR-1 specifically in the dying cell’s own clearance, which can function downstream of CED-3/caspase, which is essential for TSC killing. Whereas prior studies implicate EOR-1 in programmed cell killing, we provide mechanistic detail in a new developmental cell elimination context. Specifically, we find EOR-1/PLZF positively regulates Apoptosis Inducing Factor homolog WAH-1 during CCE. We identify WAH-1 as a new contributor to two steps of soma-specific clearance during CCE, acting in the dying cell: corpse recognition-internalization, and phagosome maturation-corpse resolution following engulfment. In the absence of EOR-1/PLZF as well as WAH-1/AIF, the TSC soma remains uninternalized, persisting with exaggerated nuclei previously undescribed. We suggest a role of the scramblase SCRM-1 in TSC soma internalization by the phagocyte and show spatiotemporal specificity of the presentation of the canonical apoptotic corpse recognition signal phosphatidylserine (PS) on the TSC. We also report that in the absence of CPS-6/Endonuclease G, the internalized TSC soma corpse arrests at the phagolysosomal stage, also yielding exaggerated nuclei. This suggests that WAH-1 also promotes DNA degradation during CCE during phagosome maturation. Our work provides new molecular and cell biological insights into CCE and expands our understanding of the transcriptional regulation of corpse clearance.

## Linked entities

- **Genes:** eor-1 (C2H2-type domain-containing protein;Zinc finger protein) [NCBI Gene 177249], ZBTB16 (zinc finger and BTB domain containing 16) [NCBI Gene 7704], IFT43 (intraflagellar transport 43) [NCBI Gene 112752], wah-1 (Pyr_redox_2 domain-containing protein) [NCBI Gene 176635], AIFM1 (apoptosis inducing factor mitochondria associated 1) [NCBI Gene 9131], scrm-1 (Phospholipid scramblase) [NCBI Gene 173053], cps-6 (Endonuclease G, mitochondrial) [NCBI Gene 172045]

## Full-text entities

- **Genes:** eor-1 (C2H2-type domain-containing protein;Zinc finger protein) [NCBI Gene 177249], scrm-1 (Phospholipid scramblase) [NCBI Gene 173053], csp-2 (Putative inactive caspase subunit p14) [NCBI Gene 177391], cps-6 (Endonuclease G, mitochondrial) [NCBI Gene 172045], wah-1 (Pyr_redox_2 domain-containing protein) [NCBI Gene 176635], ced-3 (Cell death protein 3 subunit p17) [NCBI Gene 178272]
- **Chemicals:** PS (MESH:D010718)
- **Species:** C. elegans [taxon 328850]

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/PMC12808754/full.md

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12808754/full.md

## References

5 references — full list in the complete paper: https://tomesphere.com/paper/PMC12808754/full.md

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Source: https://tomesphere.com/paper/PMC12808754