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TFIIIC Binding to Alu Elements Controls Gene Expression via Chromatin Looping and Histone Acetylation

Autori:

  • Ferrari R.,
  • De Llobet Cucalon L. I.,
  • Di Vona C.,
  • Le Dilly F.,
  • Vidal E.,
  • Lioutas A.,
  • Quilez Oliete J.,
  • Jochem L.,
  • Cutts E.,
  • Dieci G.,
  • Vannini A.,
  • Teichmann M.,
  • De La Luna S.,
  • Beato M.

Sommario:

How repetitive elements, epigenetic modifications, and architectural proteins interact ensuring proper genome expression remains poorly understood.

Here, we report regulatory mechanisms unveiling a central role of Alu elements (AEs) and RNA polymerase III transcription factor C (TFIIIC) in structurally and functionally modulating the genome via chromatin looping and histone acetylation.

Upon serum deprivation, a subset of AEs pre-marked by the activity-dependent neuroprotector homeobox Protein (ADNP) and located near cell-cycle genes recruits TFIIIC, which alters their chromatin accessibility by direct acetylation of histone H3 lysine-18 (H3K18).

This facilitates the contacts of AEs with distant CTCF sites near promoter of other cell-cycle genes, which also become hyperacetylated at H3K18. These changes ensure basal transcription of cell-cycle genes and are critical for their re-activation upon serum re-exposure.

Our study reveals how direct manipulation of the epigenetic state of AEs by a general transcription factor regulates 3D genome folding and expression.

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