Abstract
IntroductionThe AP4B1 gene encodes a subunit of adaptor protein complex-4 (AP4), a component of intracellular transportation of proteins which plays important roles in neurons. Bi-allelic mutations in AP4B1 cause autosomal recessive spastic paraplegia-47(SPG47).Case presentationHere we present a Chinese patient with spastic tetraplegia, moderate psychomotor development delay and febrile seizures plus. Brain MRIs showed dilated supratentorial ventricle, thin posterior and splenium part of corpus callosum. The patient had little progress through medical treatments and rehabilitating regimens. Whole exome sequencing identified novel compound heterozygous truncating variants c.1207C > T (p.Gln403*) and c.52_53delAC (p.Cys18Glnfs*7) in AP4B1 gene. Causal mutations in AP4B1 have been reported in 29 individuals from 22 families so far, most of which are homozygous mutations.ConclusionsOur study enriched the genetic and phenotypic spectrum of SPG47. Early discovery, diagnosis and proper treatment on the conditions generally increase chances of improvement on the quality of life for patients.
Highlights
The AP4B1 gene encodes a subunit of adaptor protein complex-4 (AP4), a component of intracellular transportation of proteins which plays important roles in neurons
The AP4B1 gene encodes a subunit of adaptor protein complex-4(AP4), which is a component of intracellular transportation
Four subunits of AP4 (AP4M1, AP4E1, AP4S1, and AP4B1) have been associated with similar autosomal recessive-Hereditary spastic paraplegias (HSPs) characterized by progressive spastic paraplegia and severe mental retardation with poor or absent speech development
Summary
The AP4B1 gene encodes a subunit of adaptor protein complex-4 (AP4), a component of intracellular transportation of proteins which plays important roles in neurons. Four subunits of AP4 (AP4M1, AP4E1, AP4S1, and AP4B1) have been associated with similar autosomal recessive-HSP characterized by progressive spastic paraplegia and severe mental retardation with poor or absent speech development. We report novel compound heterozygous truncating variants in AP4B1 in a nine years-old Chinese boy with clinical features including spastic tetraplegia, moderate
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