Highlights d CEP-1/p53 arrests primordial germ cell (PGC) proliferation in response to DNA damage d IFE-4 in somatic gonad precursor (PGC) niche cells controls CEP-1/p53 activity in PGCs d FGF-like signaling mediates somatic control of PGC arrest d eIF4E2 in niche cells controls p53 induction in hair follicle stem cells
The genome integrity control in primordial germ cells (PGCs) is prerequisite for the inheritance of stable genomes. The PGCs in C. elegans are embedded in a somatic niche that regulates its DNA damage response (DDR). Here, we show that the AMPK-like kinases KIN-29 and AAK-2 are required for arresting PGCs carrying persistent DNA damage. We determined that the ASI neurons, which sense environmental conditions such as nutrient availability, secrete the TGF-beta-like ligand DAF-7 that is recognized by the DAF-1 receptor in PGCs. ASI-dependent DAF-7 signaling regulates the induction of CEP-1/p53 in the PGCs amid persistent DNA damage. Using single worm whole genome sequencing, we establish that defective ASI control of the CEP-1/p53-regulated DDR in PGCs ultimately results in the inheritance of de novo germline mutations. Our results indicate that sensory neurons safeguard from the inheritance of germline mutations suggesting the possibility that perception of the environment could direct genetic inheritance.One sentence summaryThe ASI sensory neurons regulate the CEP-1/p53-dependent DNA damage response of primordial germ cells via TGF-beta signaling and influence inherited mutational burden.
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