Functional roles of the DNA-binding HMGB domain in the histone chaperone FACT in nucleosome reorganization

Laura L. McCullough, Zaily Connell, Hua Xin, Vasily M. Studitsky, Alexey V. Feofanov, Maria E. Valieva, Tim Formosa

Research output: Contribution to journalArticlepeer-review

33 Scopus citations

Abstract

The essential histone chaperone FACT (facilitates chromatin transcription) promotes both nucleosome assembly and disas-sembly. FACT is a heterodimer of Spt16 with either SSRP1 or Pob3, differing primarily by the presence of a high-mobility group B (HMGB) DNA-binding domain furnished only by SSRP1. Yeast FACT lacks the intrinsic HMGB domain found in SSRP1-based homologs such as human FACT, but yeast FACT activity is supported by Nhp6, which is a freestanding, single HMGB-domain protein. The importance of histone binding by FACT domains has been established, but the roles of DNA-binding activity remain poorly understood. Here, we examined these roles by fusing single or multiple HMGB modules to Pob3 to mimic SSRP1 or to test the effects of extended DNA-binding capacity. Human FACT and a yeast mimic both required Nhp6 to support nucleosome reorganization in vitro, indicating that a single intrinsic DNA-binding HMGB module is insufficient for full FACT activity. Three fused HMGB modules supported activity without Nhp6 assistance, but this FACT variant did not efficiently release from nucleosomes and was toxic in vivo. Notably, intrinsic DNA-binding HMGB modules reduced the DNA accessibility and histone H2A-H2B dimer loss normally associated with nucleosome reorganization. We propose that DNA bending by HMGB domains promotes nucleosome destabilization and reorganization by exposing FACT’s histone-binding sites, but DNA bending also produces DNA curvature needed to accommodate nucleosome assembly. Intrinsic DNA-bending activity therefore favors nucleosome assembly by FACT over nucleosome reorganization, but excessive activity impairs FACT release, suggesting a quality control checkpoint during nucleosome assembly.

Original languageEnglish
Pages (from-to)6121-6133
Number of pages13
JournalJournal of Biological Chemistry
Volume293
Issue number16
DOIs
StatePublished - Apr 20 2018

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