Expanding the clinical spectrum of biallelic ZNF335 variants.
K StouffsA B StergachisT VanderhasseltA DicaS JanssensL VandervoreA GheldofO BodamerK KeymolenS SenecaI LiebaersD JayaramanH E HillJ N PartlowC A WalshAnna C JansenPublished in: Clinical genetics (2018)
ZNF335 plays an essential role in neurogenesis and biallelic variants in ZNF335 have been identified as the cause of severe primary autosomal recessive microcephaly in 2 unrelated families. We describe, herein, 2 additional affected individuals with biallelic ZNF335 variants, 1 individual with a homozygous c.1399 T > C, p.(Cys467Arg) variant, and a second individual with compound heterozygous c.2171_2173delTCT, p.(Phe724del) and c.3998A > G, p.(Glu1333Gly) variants with the latter variant predicted to affect splicing. Whereas the first case presented with early death and a severe phenotype characterized by anterior agyria with prominent extra-axial spaces, absent basal ganglia, and hypoplasia of the brainstem and cerebellum, the second case had a milder clinical presentation with hypomyelination and otherwise preserved brain structures on MRI. Our findings expand the clinical spectrum of ZNF335-associated microcephaly.
Keyphrases
- intellectual disability
- copy number
- autism spectrum disorder
- zika virus
- early onset
- magnetic resonance imaging
- cerebral ischemia
- computed tomography
- high resolution
- magnetic resonance
- contrast enhanced
- genome wide
- dna methylation
- brain injury
- functional connectivity
- mass spectrometry
- drug induced
- blood brain barrier
- diffusion weighted imaging