Two HIRA-dependent pathways mediate H3.3 de novo deposition and recycling during transcription
- PMID: 32895554
- DOI: 10.1038/s41594-020-0492-7
Two HIRA-dependent pathways mediate H3.3 de novo deposition and recycling during transcription
Abstract
Nucleosomes represent a challenge in regard to transcription. Histone eviction enables RNA polymerase II (RNAPII) progression through DNA, but compromises chromatin integrity. Here, we used the SNAP-tag system to distinguish new and old histones and monitor chromatin reassembly coupled to transcription in human cells. We uncovered a transcription-dependent loss of old histone variants H3.1 and H3.3. At transcriptionally active domains, H3.3 enrichment reflected both old H3.3 retention and new deposition. Mechanistically, we found that the histone regulator A (HIRA) chaperone is critical to processing both new and old H3.3 via different pathways. De novo H3.3 deposition is totally dependent on HIRA trimerization as well as on its partner ubinuclein 1 (UBN1), while antisilencing function 1 (ASF1) interaction with HIRA can be bypassed. By contrast, recycling of H3.3 requires HIRA but proceeds independently of UBN1 or HIRA trimerization and shows absolute dependency on ASF1-HIRA interaction. We propose a model whereby HIRA coordinates these distinct pathways during transcription to fine-tune chromatin states.
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