Annals of Clinical and Translational Neurology (Apr 2020)

Loss of ap4s1 in zebrafish leads to neurodevelopmental defects resembling spastic paraplegia 52

  • Angelica D’Amore,
  • Alessandra Tessa,
  • Valentina Naef,
  • Maria Teresa Bassi,
  • Andrea Citterio,
  • Romina Romaniello,
  • Gianluca Fichi,
  • Daniele Galatolo,
  • Serena Mero,
  • Roberta Battini,
  • Giulia Bertocci,
  • Jacopo Baldacci,
  • Federico Sicca,
  • Federica Gemignani,
  • Ivana Ricca,
  • Anna Rubegni,
  • Jennifer Hirst,
  • Maria Marchese,
  • Mustafa Sahin,
  • Darius Ebrahimi‐Fakhari,
  • Filippo M. Santorelli

DOI
https://doi.org/10.1002/acn3.51018
Journal volume & issue
Vol. 7, no. 4
pp. 584 – 589

Abstract

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Abstract Autosomal recessive spastic paraplegia 52 is caused by biallelic mutations in AP4S1 which encodes a subunit of the adaptor protein complex 4 (AP‐4). Using next‐generation sequencing, we identified three novel unrelated SPG52 patients from a cohort of patients with cerebral palsy. The discovered variants in AP4S1 lead to reduced AP‐4 complex formation in patient‐derived fibroblasts. To further understand the role of AP4S1 in neuronal development and homeostasis, we engineered the first zebrafish model of AP‐4 deficiency using morpholino‐mediated knockdown of ap4s1. In this model, we discovered several phenotypes mimicking SPG52, including altered CNS development, locomotor deficits, and abnormal neuronal excitability.