AbstractWD repeat domain 45 (WDR45) gene has been increasingly found in patients with developmental delay (DD) and epilepsy. Previously, WDR45 de novo mutations were reported in sporadic adult and pediatric patients presenting iron accumulation, while heterozygous mutations were associated with β-propeller protein-associated neurodegeneration (BPAN), a subtype of neurodegeneration with brain iron accumulation disorders, characterized by extrapyramidal movement disorders and abnormal accumulation of iron in the basal ganglia. Overall, people harboring WDR45 mutations have moderate to severe DD and different types of seizures. The phenotype of adult patients is characterized by extrapyramidal movement, dystonia, parkinsonism, language impairment, and involvement of the substantia nigra and in the globus pallidus at brain magnetic resonance imaging. Importantly, there are no findings of brain iron accumulation in brain in BPAN patients in the first decade of life, thus suggesting a progressive course of the disease. Comparatively, the main phenotype of pediatric patients is epilepsy with early onset, most of which present infantile spasms and arrest or regression of psychomotor development. The phenotype of patients with WDR45 mutations is variable, being different if caused by somatic mosaicism or germline mutations, and presenting with a different spectrum of manifestations in males and females. The treatment of affected individuals is symptomatic. Regarding the seizures, specific, gene-based approaches with specific antiepileptic drugs are not currently available. The early diagnosis of BPAN could be useful in some aspects, such as providing families a supportive treatment to their affected children.
A comprehensive phenotypic characterization of a whole-body Wdr45 knock-out mouse
