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Mechanism of assembly, activation and lysine selection by the SIN3B histone deacetylase complex

Author

Listed:
  • Mandy S. M. Wan

    (Chester Beatty Laboratories, The Institute of Cancer Research)

  • Reyhan Muhammad

    (Chester Beatty Laboratories, The Institute of Cancer Research)

  • Marios G. Koliopoulos

    (Chester Beatty Laboratories, The Institute of Cancer Research)

  • Theodoros I. Roumeliotis

    (Chester Beatty Laboratories, Cancer Biology Division, The Institute of Cancer Research)

  • Jyoti S. Choudhary

    (Chester Beatty Laboratories, Cancer Biology Division, The Institute of Cancer Research)

  • Claudio Alfieri

    (Chester Beatty Laboratories, The Institute of Cancer Research)

Abstract

Lysine acetylation in histone tails is a key post-translational modification that controls transcription activation. Histone deacetylase complexes remove histone acetylation, thereby repressing transcription and regulating the transcriptional output of each gene. Although these complexes are drug targets and crucial regulators of organismal physiology, their structure and mechanisms of action are largely unclear. Here, we present the structure of a complete human SIN3B histone deacetylase holo-complex with and without a substrate mimic. Remarkably, SIN3B encircles the deacetylase and contacts its allosteric basic patch thereby stimulating catalysis. A SIN3B loop inserts into the catalytic tunnel, rearranges to accommodate the acetyl-lysine moiety, and stabilises the substrate for specific deacetylation, which is guided by a substrate receptor subunit. Our findings provide a model of specificity for a main transcriptional regulator conserved from yeast to human and a resource of protein-protein interactions for future drug designs.

Suggested Citation

  • Mandy S. M. Wan & Reyhan Muhammad & Marios G. Koliopoulos & Theodoros I. Roumeliotis & Jyoti S. Choudhary & Claudio Alfieri, 2023. "Mechanism of assembly, activation and lysine selection by the SIN3B histone deacetylase complex," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-38276-0
    DOI: 10.1038/s41467-023-38276-0
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