iScience (Aug 2021)

Molecular and cellular basis of hyperassembly and protein aggregation driven by a rare pathogenic mutation in DDX3X

  • Matheus de Castro Fonseca,
  • Juliana Ferreira de Oliveira,
  • Bruno Henrique Silva Araujo,
  • Camila Canateli,
  • Paula Favoretti Vital do Prado,
  • Dionísio Pedro Amorim Neto,
  • Beatriz Pelegrini Bosque,
  • Paulla Vieira Rodrigues,
  • João Vitor Pereira de Godoy,
  • Katiane Tostes,
  • Helder Veras Ribeiro Filho,
  • Andrey Fabricio Ziem Nascimento,
  • Angela Saito,
  • Celisa Caldana Costa Tonoli,
  • Fernanda Aparecida Heleno Batista,
  • Paulo Sergio Lopes de Oliveira,
  • Ana Carolina Figueira,
  • Silvia Souza da Costa,
  • Ana Cristina Victorino Krepischi,
  • Carla Rosenberg,
  • Harry Westfahl, Jr.,
  • Antônio José Roque da Silva,
  • Kleber Gomes Franchini

Journal volume & issue
Vol. 24, no. 8
p. 102841

Abstract

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Summary: Current studies estimate that 1–3% of females with unexplained intellectual disability (ID) present de novo splice site, nonsense, frameshift, or missense mutations in the DDX3X protein (DEAD-Box Helicase 3 X-Linked). However, the cellular and molecular mechanisms by which DDX3X mutations impair brain development are not fully comprehended. Here, we show that the ID-linked missense mutation L556S renders DDX3X prone to aggregation. By using a combination of biophysical assays and imaging approaches, we demonstrate that this mutant assembles solid-like condensates and amyloid-like fibrils. Although we observed greatly reduced expression of the mutant allele in a patient who exhibits skewed X inactivation, this appears to be enough to sequestrate healthy proteins into solid-like ectopic granules, compromising cell function. Therefore, our data suggest ID-linked DDX3X L556S mutation as a disorder arising from protein misfolding and aggregation.

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