Loss of ap4s1 in zebrafish leads to neurodevelopmental defects resembling spastic paraplegia 52.
Angelica D'AmoreAlessandra TessaValentina NaefMaria Teresa BassiAndrea CitterioRomina RomanielloGianluca FichiDaniele GalatoloSerena MeroRoberta BattiniGiulia BertocciJacopo BaldacciFederico SiccaFederica GemignaniIvana RiccaAnna RubegniJennifer HirstMaria MarcheseMustafa SahinDarius Ebrahimi-FakhariFilippo Maria SantorelliPublished in: Annals of clinical and translational neurology (2020)
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.
Keyphrases
- transcription factor
- cerebral palsy
- end stage renal disease
- chronic kidney disease
- newly diagnosed
- traumatic brain injury
- ejection fraction
- spinal cord injury
- intellectual disability
- gene expression
- prognostic factors
- blood brain barrier
- small molecule
- botulinum toxin
- genome wide
- transcranial direct current stimulation
- extracellular matrix