Xist nucleates local protein gradients to propagate silencing across the X chromosome

Creators: Markaki, Yolanda; Chong, Johnny Gan; Wang, Yuying; Jacobson, Elsie C.; Luong, Christy; Tan, Shawn Y. X.; Jachowicz, Joanna W.; Strehle, Mackenzie; Maestrini, Davide; Banerjee, Abhik K.; Mistry, Bhaven A.; Dror, Iris; Dossin, Francois; Schöneberg, Johannes; Heard, Edith; Guttman, Mitchell; Chou, Tom; Plath, Kathrin

Abstract

The lncRNA Xist forms ∼50 diffraction-limited foci to transcriptionally silence one X chromosome. How this small number of RNA foci and interacting proteins regulate a much larger number of X-linked genes is unknown. We show that Xist foci are locally confined, contain ∼2 RNA molecules, and nucleate supramolecular complexes (SMACs) that include many copies of the critical silencing protein SPEN. Aggregation and exchange of SMAC proteins generate local protein gradients that regulate broad, proximal chromatin regions. Partitioning of numerous SPEN molecules into SMACs is mediated by their intrinsically disordered regions and essential for transcriptional repression. Polycomb deposition via SMACs induces chromatin compaction and the increase in SMACs density around genes, which propagates silencing across the X chromosome. Our findings introduce a mechanism for functional nuclear compartmentalization whereby crowding of transcriptional and architectural regulators enables the silencing of many target genes by few RNA molecules.

Additional Information

© 2021 Elsevier Inc. Received 15 December 2020, Revised 29 July 2021, Accepted 11 October 2021, Available online 4 November 2021. We thank David Baker for sharing the ct-60 gene and Yi-Yun Ho, Tsotne Chitiashvili, Amy Pandya-Jones, and Mario Blanco for help with the study. We thank Lars Dreier, Douglas Black, Emilie Marcus, and Plath lab members for critical discussions. We thank the DGSOM at UCLA, David Williams, and the Department of Biological Chemistry for support. The imaging was supported by the NIH (R01GM115233 and P30EY000331); Y.M. by NIH (R03HD095086); K.P. by an Innovation Award from the BSCRC at UCLA, NIH (R01GM115233, 1R01MH109166, R21HD094172), the Keck Foundation, and a HHMI Faculty Scholar grant; D.M. and T.C. by the NSF (DMS-1814364) and NIH (R01HL146552); and A.B. by NIH (F30HL136080). Data and code availability: All genomic data (bulk mRNA-seq, scRNA-seq, CLAP-seq, RAP-seq) generated in this study have been deposited in the Gene Expression Omnibus (GEO) database. The accession number is listed in the key resources table. Accession numbers of reanalyzed publicly available data are also listed in the key resources table. Super-resolution microscopy image data, segmented masks and derived features of nuclear particles will be shared by the lead contact upon request. This study did not generate original code. All computational approaches and software used are described in the STAR Methods and listed in the key resources table. Any additional information required to reanalyze the data reported in this paper is available from the lead contact upon request. Author contributions: Conceptualization, Y.M., M.G., and K.P.; methodology, Y.M. and T.C.; software, J.G.C., E.C.J, Y.M., Y.W., D.M., I.D., B.A.M., and J.S.; validation, Y.M.; formal analysis, Y.M., J.G.C., Y.W., E.C.J., D.M., B.A.M, I.D., and C.L.; investigation, Y.M., J.G.C., Y.W., C.L., S.Y.X.T., K.P. A.K.B., and F.D.; contribution of initial IDR-dependent silencing observation, J.W.J. and M.S.; data curation, Y.M., J.G.C., Y.W., and E.C.J.; writing – original draft, Y.M., K.P., and T.C.; writing – review & editing, Y.M., K.P., and T.C.; visualization, Y.M., J.C.G., Y.W., and E.C.J.; supervision, K.P., Y.M., T.C., M.G., and E.H.; project administration, Y.M. and K.P.; funding acquisition, K.P., Y.M. and T.C. Declaration of interests: K.P. is a member of Cell's advisory board. The authors have a patent pending related to this work.

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