Activation of human RNA lariat debranching enzyme Dbr1 by binding protein TTDN1 occurs though an intrinsically disordered C-terminal domain

Nathaniel E. Clark, Adam Katolik, Pascal Gallant, Anastasia Welch, Eileen Murphy, Luke Buerer, Christoph Schorl, Nandita Naik, Mandar T. Naik, Stephen P. Holloway, Kristin Cano, Susan T. Weintraub, Katherine M. Howard, P. John Hart, Gerwald Jogl, Masad J. Damha, William G. Fairbrother

Producción científica: Articlerevisión exhaustiva

Resumen

In eukaryotic cells, the introns are excised from pre-mRNA by the spliceosome. These introns typically have a lariat configuration due to the 2′-5′ phosphodiester bond between an internal branched residue and the 5′ terminus of the RNA. The only enzyme known to selectively hydrolyze the 2′-5′ linkage of these lariats is the RNA lariat debranching enzyme Dbr1. In humans, Dbr1 is involved in processes such as class-switch recombination of immunoglobulin genes, and its dysfunction is implicated in viral encephalitis, HIV, ALS, and cancer. However, mechanistic details of precisely how Dbr1 affects these processes are missing. Here we show that human Dbr1 contains a disordered C-terminal domain through sequence analysis and nuclear magnetic resonance. This domain stabilizes Dbr1 in vitro by reducing aggregation but is dispensable for debranching activity. We establish that Dbr1 requires Fe2+ for efficient catalysis and demonstrate that the noncatalytic protein Drn1 and the uncharacterized protein trichothiodystrophy nonphotosensitive 1 directly bind to Dbr1. We demonstrate addition of trichothiodystrophy nonphotosensitive 1 to in vitro debranching reactions increases the catalytic efficiency of human Dbr1 19-fold but has no effect on the activity of Dbr1 from the amoeba Entamoeba histolytica, which lacks a disordered C-terminal domain. Finally, we systematically examine how the identity of the branchpoint nucleotide affects debranching rates. These findings describe new aspects of Dbr1 function in humans and further clarify how Dbr1 contributes to human health and disease.

Idioma originalEnglish (US)
Número de artículo105100
PublicaciónJournal of Biological Chemistry
Volumen299
N.º9
DOI
EstadoPublished - sept 2023

ASJC Scopus subject areas

  • Molecular Biology
  • Biochemistry
  • Cell Biology

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