Abstract
Histone recognition by “reader” modules serves as a fundamental mechanism in epigenetic regulation. Previous studies have shown that Spindlin1 is a reader of histone H3K4me3 as well as “K4me3-R8me2a” and promotes transcription of rDNA or Wnt/TCF4 target genes. Here we show that Spindlin1 also acts as a potent reader of histone H3 “K4me3-K9me3/2” bivalent methylation pattern. Calorimetric titration revealed a binding affinity of 16 nm between Spindlin1 and H3 “K4me3-K9me3” peptide, which is one to three orders of magnitude stronger than most other histone readout events at peptide level. Structural studies revealed concurrent recognition of H3K4me3 and H3K9me3/2 by aromatic pockets 2 and 1 of Spindlin1, respectively. Epigenomic profiling studies showed that Spindlin1 colocalizes with both H3K4me3 and H3K9me3 peaks in a subset of genes enriched in biological processes of transcription and its regulation. Moreover, the distribution of Spindlin1 peaks is primarily associated with H3K4me3 but not H3K9me3, which suggests that Spindlin1 is a downstream effector of H3K4me3 generated in heterochromatic regions. Collectively, our work calls attention to an intriguing function of Spindlin1 as a potent H3 “K4me3-K9me3/2” bivalent mark reader, thereby balancing gene expression and silencing in H3K9me3/2-enriched regions.
Highlights
Histone posttranslational modifications (PTMs), referred to as the histone codes, are essential for gene regulation and chromatin organization
Considering that Spindlin1 has a high correlation with H3K4me3 in genomic distribution and nanomolar-level binding affinity for histone H3 “K4me3-K9me3/2” methylation pattern, we believe that Spindlin1 is likely a downstream effector of H3K4me3 created in H3K9me3/2enriched regions, and the H3 “K4me3-K9me3/2” pattern enables a stable engagement of Spindlin1 with chromatin to regulate target gene expression
Our structural studies revealed that H3K4me3 and H3K9me3/2 are concurrently recognized by the aromatic cages of Tudors 2 and 1 of Spindlin1, respectively
Summary
Histone posttranslational modifications (PTMs), referred to as the histone codes, are essential for gene regulation and chromatin organization. Previous studies reported that Spindlin1 recognizes histone H3K4me3 and H3 “K4me3-R8me2a” (R8me2a, asymmetric dimethylation of arginine 8) methylation patterns, which promotes gene expression of rDNA, Wnt/TCF4 target genes, and MAZ (Myc-associated zinc finger protein) regulated genes [20, 25, 26]. Spindlin1 is a potent histone reader for bivalent H3 “K4me3-K9me” methylation pattern
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
