Clinical and genetic spectrum of AMPD2-related pontocerebellar hypoplasia type 9.
Fanny KortümRami Abou JamraMalik AlawiSusan A BerryGuntram BorckKatherine L HelbigSha TangDagmar HuhleGeorg Christoph KorenkeMalavika HebbarAnju ShuklaKatta M GirishaMaja SteinlinSandra Waldmeier-WilhelmMartino MontomoliRenzo GuerriniJohannes R LemkeKerstin KutschePublished in: European journal of human genetics : EJHG (2018)
Pontocerebellar hypoplasia (PCH) represents a group of autosomal-recessive progressive neurodegenerative disorders of prenatal onset. Eleven PCH subtypes are classified according to clinical, neuroimaging and genetic findings. Individuals with PCH type 9 (PCH9) have a unique combination of postnatal microcephaly, hypoplastic cerebellum and pons, and hypoplastic or absent corpus callosum. PCH9 is caused by biallelic variants in AMPD2 encoding adenosine monophosphate deaminase 2; however, a homozygous AMPD2 frameshift variant has recently been reported in two family members with spastic paraplegia type 63 (SPG63). We identified homozygous or compound heterozygous AMPD2 variants in eight PCH-affected individuals from six families. The eight variants likely affect function and comprise one frameshift, one nonsense and six missense variants; seven of which were novel. The main clinical manifestations in the eight new patients and 17 previously reported individuals with biallelic AMPD2 variants were postnatal microcephaly, severe global developmental delay, spasticity, and central visual impairment. Brain imaging data identified hypomyelination, hypoplasia of the cerebellum and pons, atrophy of the cerebral cortex, complete or partial agenesis of the corpus callosum and the "figure 8" shape of the hypoplastic midbrain as consistent features. We broaden the AMPD2-related clinical spectrum by describing one individual without microcephaly and absence of the characteristic "figure 8" shape of the midbrain. The existence of various AMPD2 isoforms with different functions possibly explains the variability in phenotypes associated with AMPD2 variants: variants leaving some of the isoforms intact may cause SPG63, while those affecting all isoforms may result in the severe and early-onset PCH9.
Keyphrases
- copy number
- early onset
- intellectual disability
- zika virus
- late onset
- genome wide
- autism spectrum disorder
- multiple sclerosis
- pregnant women
- newly diagnosed
- spinal cord injury
- high resolution
- artificial intelligence
- machine learning
- white matter
- photodynamic therapy
- mass spectrometry
- deep learning
- big data
- brain injury
- prognostic factors
- patient reported
- resting state
- cerebral palsy