RESUMO
The solute carrier (SLC) superfamily encompasses >400 transmembrane transporters involved in the exchange of amino acids, nutrients, ions, metals, neurotransmitters and metabolites across biological membranes. SLCs are highly expressed in the mammalian brain; defects in nearly 100 unique SLC-encoding genes (OMIM: https://www.omim.org) are associated with rare Mendelian disorders including developmental and epileptic encephalopathy and severe neurodevelopmental disorders. Exome sequencing and family-based rare variant analyses on a cohort with neurodevelopmental disorders identified two siblings with developmental and epileptic encephalopathy and a shared deleterious homozygous splicing variant in SLC38A3. The gene encodes SNAT3, a sodium-coupled neutral amino acid transporter and a principal transporter of the amino acids asparagine, histidine, and glutamine, the latter being the precursor for the neurotransmitters GABA and glutamate. Additional subjects with a similar developmental and epileptic encephalopathy phenotype and biallelic predicted-damaging SLC38A3 variants were ascertained through GeneMatcher and collaborations with research and clinical molecular diagnostic laboratories. Untargeted metabolomic analysis was performed to identify novel metabolic biomarkers. Ten individuals from seven unrelated families from six different countries with deleterious biallelic variants in SLC38A3 were identified. Global developmental delay, intellectual disability, hypotonia, and absent speech were common features while microcephaly, epilepsy, and visual impairment were present in the majority. Epilepsy was drug-resistant in half. Metabolomic analysis revealed perturbations of glutamate, histidine, and nitrogen metabolism in plasma, urine, and CSF of selected subjects, potentially representing biomarkers of disease. Our data support the contention that SLC38A3 is a novel disease gene for developmental and epileptic encephalopathy and illuminate the likely pathophysiology of the disease as perturbations in glutamine homeostasis.
Assuntos
Epilepsia Generalizada , Trocador de Sódio e Cálcio , Epilepsia Generalizada/diagnóstico , Epilepsia Generalizada/genética , Glutamina/metabolismo , Histidina/metabolismo , Humanos , Metaboloma , Nitrogênio/metabolismo , Trocador de Sódio e Cálcio/genéticaRESUMO
Background and Objectives: The endoplasmic reticulum (ER) membrane protein complex is a conserved multisubunit transmembrane complex that enables energy-independent insertion of newly synthesized membrane proteins into ER membranes, mediating protein folding, phospholipid transfer from ER to mitochondria, and elimination of misfolded proteins. The first subunit of EMC (EMC1) is encoded by EMC1. Both monoallelic de novo and biallelic EMC1 variants have been identified to cause cerebellar atrophy, visual impairment, and psychomotor retardation (CAVIPMR) [OMIM #616875]. Eight families with biallelic EMC1 variants and CAVIPMR have been reported. Here, we describe 8 individuals from 5 Kuwaiti families from the same tribe, with the previously reported homozygous pathogenic missense EMC1 variant [c.245C>T:p.(Thr82Met)] and CAVIPMR. Methods: Proband exome sequencing was performed in 3 families, while targeted molecular testing for EMC1 [c.245C>T:p.(Thr82Met)] variant was performed in the other 2 families based on strong clinical suspicion and tribal origin. Sanger sequencing confirmed variant segregation with disease in all families. Results: We identified 8 individuals from 5 Kuwaiti families with the homozygous pathogenic EMC1 variant [c.245C>T:p.(Thr82Met)] previously reported in a Turkish family with CAVIPMR. The variant was absent from Kuwait Medical Genetic Center database, thus unlikely to represent a population founder allelic variant. The average age at symptom onset was 11 weeks, with all families reporting either visual abnormalities, hypotonia, and/or global developmental delay (GDD) as the presenting features. Shared clinical features included GDD (8/8), microcephaly (8/8), truncal hypotonia (8/8), visual impairment (7/7), and failure to thrive (7/7). Other common features included hyperreflexia (5/6; 83%), peripheral hypertonia (3/5; 60%), dysmorphism (3/6; 50%), epilepsy (4/8; 50%), and chorea (3/8; 36%). Brain imaging showed cerebellar atrophy in 4/7 (57%) and cerebral atrophy in 3/6 (50%) individuals. Discussion: The presence of exact biallelic homozygous EMC1 variant in 5 Kuwaiti families from the same tribe suggests a tribal founder allelic variant. The clinical features in this study are consistent with the phenotypic spectrum of EMC1-associated CAVIPMR in previous reports. The presence of chorea, first noted in this study, further expands the phenotypic spectrum. Our findings emphasize the importance of targeted EMC1 variant [c.245C>T:p.(Thr82Met)] testing for infants from affected tribe who present with visual impairment, GDD, and hypotonia.