Authors
Munoz-Barrera, M., Mata-Cabana, A., Moreno-Rivero, A., Piubeli, F. A., Ren-Barroso, B., Al-Refaie, N., Gutierrez, G., Cabianca, D. S., Olmedo, M.
Abstract
Cellular quiescence is a metabolically active, non-proliferative state critical for tissue maintenance and regenerative capacity, with broad implications for aging and age-related diseases. In Caenorhabditis elegans, L1 developmental arrest upon hatching in the absence of food provides a robust in vivo model to study quiescence. Here, we investigate the roles of the transcription factors HLH-30/TFEB and DAF-16/FOXO during L1 arrest. We show that HLH-30 and DAF-16 collaborate to ensure survival under starvation, with reciprocal regulation of their subcellular localization and transcriptional activity. HLH-30 exerts broad transcriptional control during L1 arrest, modulating genes involved in chromosome organization and cell cycle progression. Profiling of chromatin spatial distribution reveals that HLH-30 is required for fasting-induced 3D chromatin reorganization. Loss of HLH-30 disrupts seam cell cycle arrest and leads to overactivation of the pioneer transcription factor BLMP-1, leading to premature initiation of developmental programs under starvation. Our findings uncover previously unrecognized functions of HLH-30 in genome architecture and quiescence regulation, highlighting conserved mechanisms of transcriptional control during nutrient deprivation with implications for aging and disease.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 04 Nov 2025.
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