Browsing by keyword "NuRD complex"

Now showing items 1-2 of 2

    • PIE-1 SUMOylation promotes germline fates and piRNA-dependent silencing in C. elegans
      Kim, Heesun; Ding, Yue-He; Lu, Shan; Zuo, Mei-Qing; Tan, Wendy; Conte, Darryl Jr.; Dong, Meng-Qiu; Mello, Craig C. (2021-05-18)
      Germlines shape and balance heredity, integrating and regulating information from both parental and foreign sources. Insights into how germlines handle information have come from the study of factors that specify or maintain the germline fate. In early Caenorhabditis elegans embryos, the CCCH zinc finger protein PIE-1 localizes to the germline where it prevents somatic differentiation programs. Here, we show that PIE-1 also functions in the meiotic ovary where it becomes SUMOylated and engages the small ubiquitin-like modifier (SUMO)-conjugating machinery. Using whole-SUMO-proteome mass spectrometry, we identify HDAC SUMOylation as a target of PIE-1. Our analyses of genetic interactions between pie-1 and SUMO pathway mutants suggest that PIE-1 engages the SUMO machinery both to preserve the germline fate in the embryo and to promote Argonaute-mediated surveillance in the adult germline.

    • PIE-1, SUMOylation, and Epigenetic Regulation of Germline Specification in Caenorhabditis elegans
      Kim, Heesun (2018-07-10)
      In many organisms, the most fundamental event during embryogenesis is differentiating between germline cells and specialized somatic cells. In C. elegans, PIE-1 functions to protect the germline from somatic differentiation and appears to do so by blocking transcription and by preventing chromatin remodeling in the germline during early embryogenesis. Yet the molecular mechanisms by which PIE-1 specifies germline remain poorly understood. Our work shows that SUMOylation facilitates PIE-1-dependent germline maintenance and specification. In vivo SUMO purification in various CRISPR strains revealed that PIE-1 is SUMOylated at lysine 68 in the germline and that this SUMOylation is essential for forming NuRD complex and preserving HDA-1 activity. Moreover, HDA-1 SUMOylation is dependent on PIE-1 and enhanced by PIE-1 SUMOylation, which is required for protecting germline integrity. Our results suggest the importance of SUMOylation in the germline maintenance and exemplify simultaneous SUMOylation of proteins in the same functional pathway.