Debopam Samanta1, Murat Gokden2, Erin Willis3. 1. Neurology Divison, Department of Pediatrics, University of Arkansas for Medical Sciences, Little Rock, Arkansas. Electronic address: dsamanta@uams.edu. 2. Department of Pathology, University of Arkansas for Medical Sciences, Little Rock, Arkansas. 3. Neurology Divison, Department of Pediatrics, University of Arkansas for Medical Sciences, Little Rock, Arkansas.
Abstract
OBJECTIVES: We describe a 13-year-old girl with a past medical history of epilepsy, intellectual impairment, dysphagia with gastric tube dependence, and autism spectrum disorder who presented with focal status epilepticus. METHODS: Video-electroencephalography revealed left occipital pseudoperiodic epileptiform discharges and frequent seizures originating from the left hemisphere. The seizure was refractory to antiepileptic medications and pharmacologic coma. Subsequently, left occipital lobectomy was done. Extensive evaluation including whole exome sequencing, histopathologic examination of brain and muscle samples, mitochondrial DNA content analysis of tissue sample was completed to detect the etiology. RESULTS: Skeletal muscle mitochondrial DNA content (qPCR) analysis showed approximately 37% of the mean value of age and tissue matched control group consistent with a mitochondrial depletion syndrome. Microscopic examination of the brain showed cortical abnormalities that largely consisted of infarct-like pathology in a laminar manner, abnormalities of neuronal distribution, and white matter changes. Compound heterozygous mutations of the CARS2 gene were identified by whole exome sequencing; V52G variant [p.Val52Gly (GTG>GGG):c.155 T>G in exon 1] was inherited from the mother and T188M variant[p.Thr188Met (ACG>ATG): c.563 C>T in exon 5] was inherited from the father. CONCLUSION: This is the first detailed clinicopathologic description of the Alpers-Huttenlocher syndrome phenotype from CARS mutations.
OBJECTIVES: We describe a 13-year-old girl with a past medical history of epilepsy, intellectual impairment, dysphagia with gastric tube dependence, and autism spectrum disorder who presented with focal status epilepticus. METHODS: Video-electroencephalography revealed left occipital pseudoperiodic epileptiform discharges and frequent seizures originating from the left hemisphere. The seizure was refractory to antiepileptic medications and pharmacologic coma. Subsequently, left occipital lobectomy was done. Extensive evaluation including whole exome sequencing, histopathologic examination of brain and muscle samples, mitochondrial DNA content analysis of tissue sample was completed to detect the etiology. RESULTS: Skeletal muscle mitochondrial DNA content (qPCR) analysis showed approximately 37% of the mean value of age and tissue matched control group consistent with a mitochondrial depletion syndrome. Microscopic examination of the brain showed cortical abnormalities that largely consisted of infarct-like pathology in a laminar manner, abnormalities of neuronal distribution, and white matter changes. Compound heterozygous mutations of the CARS2 gene were identified by whole exome sequencing; V52G variant [p.Val52Gly (GTG>GGG):c.155 T>G in exon 1] was inherited from the mother and T188M variant[p.Thr188Met (ACG>ATG): c.563 C>T in exon 5] was inherited from the father. CONCLUSION: This is the first detailed clinicopathologic description of the Alpers-Huttenlocher syndrome phenotype from CARS mutations.