Somatic
            <i>SLC35A2</i>
            mosaicism correlates with clinical findings in epilepsy brain tissue

Miller, Katherine E.; Koboldt, Daniel C.; Schieffer, Kathleen M.; Bedrosian, Tracy A.; Crist, Erin; Sheline, Adrienne; Leraas, Kristen; Magrini, Vincent; Zhong, Huachun; Brennan, Patrick McKinley; Bush, Jocelyn M.; Fitch, James; Bir, Natalie; Miller, Anthony R.; Cottrell, Catherine E.; Leonard, Jeffrey R.; Pindrik, Jonathan; Rusin, Jerome; Shah, Summit; White, Peter; Wilson, Richard K.; Mardis, Elaine R.; Pierson, Christopher R.; Ostendorf, Adam P.

doi:10.1212/nxg.0000000000000460

Cited by 27 publications

(38 citation statements)

References 34 publications

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“…Missense variants (30%) and in-frame insertions/deletions (4%) were considered as likely pathogenic based on in silico pathogenicity prediction, protein domain localization, amino acid conservation among species, absence from the gnomAD database and their presence at mosaic state in the lesional tissue. The variants p.Ser212Leu fs *9, p.Leu120His fs *7 and p.Gln185* were recurrent somatic variants; p.Ser212Leu fs *9 was previously reported in two other sporadic cases with focal epilepsy related to MCD [ 25 , 41 ]. SLC35A2 variant allele frequencies (VAFs) ranged from 1.4 to 52% among the cases.…”

Section: Resultsmentioning

confidence: 97%

“…Brain mosaic variants in genes belonging to the mechanistic Target of Rapamycin (mTOR) pathway have been discovered as underlying cause of FCD type 2 [ 2 , 8 , 21 , 26 , 39 ]. Recently, mosaic variants in the SLC35A2 gene, encoding the major Golgi‐localized UDP‐galactose transporter required for protein and sphingolipid glycosylation, have been identified in various forms of non-lesional focal epilepsies, as well as FCD type 1 and mMCD [ 2 , 25 , 38 , 39 , 41 ]. Moreover, germline de novo variants of SLC35A2 cause a rare X-linked dominant form of congenital disorder of glycosylation (CDG) type IIm (MIM #300896), primarily presenting with epileptic encephalopathy, seizures, severe psychomotor developmental delay and delayed myelination [ 30 , 40 ].…”

Section: Introductionmentioning

confidence: 99%

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Frequent SLC35A2 brain mosaicism in mild malformation of cortical development with oligodendroglial hyperplasia in epilepsy (MOGHE)

Bonduelle

Hartlieb

Baldassari

et al. 2021

acta neuropathol commun

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Focal malformations of cortical development (MCD) are linked to somatic brain mutations occurring during neurodevelopment. Mild malformation of cortical development with oligodendroglial hyperplasia in epilepsy (MOGHE) is a newly recognized clinico-pathological entity associated with pediatric drug-resistant focal epilepsy, and amenable to neurosurgical treatment. MOGHE is histopathologically characterized by clusters of increased oligodendroglial cell densities, patchy zones of hypomyelination, and heterotopic neurons in the white matter. The molecular etiology of MOGHE remained unknown so far. We hypothesized a contribution of mosaic brain variants and performed deep targeted gene sequencing on 20 surgical MOGHE brain samples from a single-center cohort of pediatric patients. We identified somatic pathogenic SLC35A2 variants in 9/20 (45%) patients with mosaic rates ranging from 7 to 52%. SLC35A2 encodes a UDP-galactose transporter, previously implicated in other malformations of cortical development (MCD) and a rare type of congenital disorder of glycosylation. To further clarify the histological features of SLC35A2-brain tissues, we then collected 17 samples with pathogenic SLC35A2 variants from a multicenter cohort of MCD cases. Histopathological reassessment including anti-Olig2 staining confirmed a MOGHE diagnosis in all cases. Analysis by droplet digital PCR of pools of microdissected cells from one MOGHE tissue revealed a variant enrichment in clustered oligodendroglial cells and heterotopic neurons. Through an international consortium, we assembled an unprecedented series of 26 SLC35A2-MOGHE cases providing evidence that mosaic SLC35A2 variants, likely occurred in a neuroglial progenitor cell during brain development, are a genetic marker for MOGHE.

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Section: Resultsmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

Frequent SLC35A2 brain mosaicism in mild malformation of cortical development with oligodendroglial hyperplasia in epilepsy (MOGHE)

Bonduelle

Hartlieb

Baldassari

et al. 2021

acta neuropathol commun

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“…This lends some explanation for the surprisingly low (15%) yield of genetic testing of a peripheral DNA in this patient population. 9 A report by Miller et al 8 further validates the SLC35A2 gene as causal in FCD type 1 and lends support to experimental data linking disordered N-glycosylation to FCD type 1 and neuronal hyperexcitability and seizures. 10 It also attempts to link clinical markers of neuronal hyperexcitability to the burden of SLC35A2 variation.…”

mentioning

confidence: 60%

“…Rather, it poses a research opportunity for the future. In summary, the case report by Miller et al 8 adds to the growing recognition of brain-restricted somatic mosaicism as causal to infantile spasms and NAFE. It provides additional evidence connecting the SLC35A2 gene to FCD type 1, thus opening opportunities to study glycosylation pathways in relationship to malformations of cortical development.…”

mentioning

confidence: 83%

“…A defect in the UGT results in a reduced galactosylation of N-glycosylated proteins, glycosphingolipids, and proteoglycans, which affects neuronal migration, axon guidance, and synaptic physiology. 7 In this issue of Neurology ® Genetics, Miller et al,8 attempted to explore the impact of SLC35A2 gene insufficiency on neuronal excitability. Evaluation of a 3-year-old boy with West syndrome and generalized spasms showed that the ictal electrographic correlates demonstrated a consistent emphasis over the left posterior head quadrant, a region further implicated by a subtle signal abnormality on brain MRI and a hypometabolism on a fluorodeoxyglucose positron emission tomography.…”

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confidence: 99%

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What does a defect in N-glycosylation mean for neuronal migration and function?

Goldman

2020

Neurol Genet

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Go to Neurology.org/NG for full disclosures. Funding information is provided at the end of the article. This is an open access article distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND), which permits downloading and sharing the work provided it is properly cited. The work cannot be changed in any way or used commercially without permission from the journal.

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Frontal lobe epilepsy and mild malformation with oligodendroglial hyperplasia: Further observations on electroclinical and imaging phenotypes, and surgical perspectives

Garganis

Gkiatis

Maletić

et al. 2023

Epileptic Disorders

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Objective Mild malformation with oligodendroglial hyperplasia (MOGHE) is a recently described clinicopathologic entity, associated with drug‐resistant epilepsy and extensive epileptogenic networks. Knowledge is accumulating about particular electroclinical phenotypes, correlations with imaging, and potential prognostic significance for surgical outcomes. The study adds relevant information by documenting the presence of a hyperkinetic frontal lobe seizure phenotype in adolescents and an epileptic encephalopathy phenotype in young children. Methods Five cases were subjected to a structured presurgical evaluation protocol, including EEG‐FMRI, chronic and acute invasive EEG, subjected to frontal lobe surgery with postoperative follow‐up between 15 months and 7 years. Results In the two adult cases, surface EEG demonstrated lateralized widespread frontal lobe epileptogenicity and hyperkinetic semiological features. MRI demonstrated cortical white matter blurring and deeper white matter abnormalities. EEG‐FMRI suggested concordant frontal lobe involvement. iEEG demonstrated a widespread frontal lobe epilepsy network. The three young children demonstrated a diffuse epileptic encephalopathy phenotype, with nonlocalizing, nonlateralizing surface EEG, and “spasms” as the main seizure type. MRI demonstrated extensive frontal lobe subcortical gray and white matter abnormalities, consistent with MOGHE literature for this age, while EEG‐FMRI, in 2/3, demonstrated concordant frontal lobe involvement. They did not undergo chronic iEEG, and the resection was assisted by acute intraoperative ECoG. All cases were subjected to extensive frontal lobectomies with Engel class IA (2/5), IB (1/5), and IIB (2/5) outcomes. Significance The study confirms the presence of frontal lobe epilepsy and epileptic encephalopathy phenotypes, in accordance with epilepsy phenotypes already described in MOGHE literature. Presurgical evaluation studies, including EEG‐FMRI, can provide strong lateralizing and localizing evidence of the epileptogenic networks involved. All responded favorably to extensive frontal lobe resections, despite widespread epileptic activity recorded by surface and intracranial EEG pre‐ and postoperatively; an epileptic encephalopathy phenotype, in the first years of life, should not discourage such a resection.

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Somatic SLC35A2 mosaicism correlates with clinical findings in epilepsy brain tissue

Cited by 27 publications

References 34 publications

Frequent SLC35A2 brain mosaicism in mild malformation of cortical development with oligodendroglial hyperplasia in epilepsy (MOGHE)

Frequent SLC35A2 brain mosaicism in mild malformation of cortical development with oligodendroglial hyperplasia in epilepsy (MOGHE)

What does a defect in N-glycosylation mean for neuronal migration and function?

Frontal lobe epilepsy and mild malformation with oligodendroglial hyperplasia: Further observations on electroclinical and imaging phenotypes, and surgical perspectives

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