# SoxB1-mediated chromatin remodeling promotes sensory neuron differentiation in planarians

**Authors:** Mallory L Cathell, Mohamad A Auwal, Sarai Alvarez Zepeda, Kelly G Ross, Ricardo M Zayas

PMC · DOI: 10.1093/genetics/iyag002 · Genetics · 2026-01-08

## TL;DR

This study explores how a gene called soxB1-2 helps planarian worms develop sensory neurons by changing chromatin structure.

## Contribution

The study reveals soxB1-2's role in chromatin remodeling during sensory neuron differentiation in planarians.

## Key findings

- Disrupting soxB1-2 reduces chromatin accessibility and gene expression in neural and epidermal regions.
- 31 candidate downstream targets, including castor and mecom, were identified as influenced by soxB1-2.
- soxB1-2-responsive genes were detected in rare neural subtypes using head tissue sampling.

## Abstract

Understanding how adult stem cells generate neurons is critical for advancing regenerative medicine. However, few in vivo models enable studying how stem cell fates are specified as neurons in an adult body. The planarian Schmidtea mediterranea provides a powerful system for investigating these mechanisms, owing to its abundant adult pluripotent stem cells, termed neoblasts, and its capacity to regenerate a molecularly complex nervous system. The SoxB1 family of transcription factors is broadly implicated in ectodermal lineage commitment. In planarians, the SoxB1 homolog soxB1-2 has been shown to promote neural and epidermal differentiation. However, the mechanisms by which soxB1-2 influences chromatin dynamics and transcriptional programs during adult neurogenesis remain unknown. To address this, we performed ATAC-seq and RNA-seq on neural-rich head tissues to assess how soxB1-2 RNAi knockdown alters chromatin accessibility and gene expression. Disrupting soxB1-2 resulted in reduced chromatin accessibility and transcriptional downregulation at neural and epidermal loci, consistent with a pioneer-like role in chromatin priming. We identified 31 candidate downstream targets with concordant accessibility and expression changes, including the transcription factors castor and mecom, which regulate mechanosensory and ion transport genes. Head tissue sampling enabled the detection of soxB1-2-responsive genes within rare neural subtypes that were missed in our previous whole-body RNA-seq experiments. These findings offer mechanistic insight into adult ectodermal lineage specification and establish a framework for understanding chromatin-mediated neurogenesis in regenerative systems.

## Linked entities

- **Genes:** csta (castor-alpha) [NCBI Gene 100126658], MECOM (MDS1 and EVI1 complex locus) [NCBI Gene 2122]
- **Species:** Schmidtea mediterranea (taxon 79327)

## Full-text entities

- **Species:** Schmidtea mediterranea (freshwater planarian, species) [taxon 79327]

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13017442/full.md

## References

78 references — full list in the complete paper: https://tomesphere.com/paper/PMC13017442/full.md

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Source: https://tomesphere.com/paper/PMC13017442