Abstract
Parental stress can be encoded into altered epigenetic information to influence their offspring. Concurrently, it is vital for the preservation of a parent's epigenetic information, despite environmental challenges, to ensure accurate inheritance by the next generation. Nevertheless, the complexities of this process and the specific molecular mechanisms involved are not yet fully understood. Here we report that Argonaute CSR-1A potentiates the recovery of histone H3 lysine 9 trimethylation (H3K9me3) in spermatocyte to secure the developmental competence of male offspring. CSR-1A employs its repetitive RG motif to engage with putative histone 3 lysine 9 (H3K9) methyltransferases SET-25 and -32, and helps to restore repressive H3K9me3 chromatin marks following heat-stress, protecting the late development of somatic cells in the progeny. Finally, among the genes regulated by CSR-1A, we identified dim-1, at which decreased H3K9me3 persists in the progeny, and RNAi of dim-1 mitigates the somatic defects associated with csr-1a loss under stress. Thus, CSR-1A coordinates a paternal epigenetic program that shields development from the influences of the paternal environment. We speculate that, driven by both natural environmental stressors and the unique characteristics of spermatogenic chromatin, the emergence of multiple RG motif-featured and spermatogenesis-specific CSR-1A and small RNA serves as a protective strategy to safeguard against variability in the orchestration of inherited developmental programs from the paternal lineage.