Zincore, an atypical coregulator, binds zinc finger transcription factors to control gene expression
D. W. Bianchi, Razvan Borza, Erica De Zan, Guizela Huelsz‐Prince, Sebastian Gregoricchio, Marleen Dekker, Alexander Fish, Abdelghani Mazouzi, Lona J. Kroese, Simon Linder, Miguel Hernández-Quiles, Michiel Vermeulen, Patrick H. N. Celie, Paul Krimpenfort, Ji‐Ying Song, Wilbert Zwart, Lodewyk F.A. Wessels, Sebastian M.B. Nijman, Anastassis Perrakis, Thijn R. Brummelkamp
Abstract
Zinc finger proteins (ZNFs) are the largest family of transcription factors, yet how they activate gene expression remains unclear. In this study, we identified Zincore, a protein complex consisting of QRICH1 and SEPHS1, as a ZNF-specific coregulator essential for embryonic development in mice and associated with developmental syndromes in humans. We also identified ZFP91 as a representative Zincore client, binding the conserved promoter motif CTTTAAR. Cryo-electron microscopy of a Zincore-ZFP91-DNA complex revealed a SEPHS1 arginine clamp to recognize the DNA-bound zinc finger domains. This mode of binding explains recognition of different ZNFs and stabilizes ZFP91 onto its cognate DNA motif. Thus, our study identified Zincore as a ZNF-specific coregulator essential for development, involving a distinctive mechanism that locks ZNFs onto DNA and regulates transcription.