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  • Progressive myoclonus epilepsies-Residual unsolved cases have marked genetic heterogeneity including dolichol-dependent protein glycosylation pathway genes.

Progressive myoclonus epilepsies-Residual unsolved cases have marked genetic heterogeneity including dolichol-dependent protein glycosylation pathway genes.

American journal of human genetics (2021-04-03)
Carolina Courage, Karen L Oliver, Eon Joo Park, Jillian M Cameron, Kariona A Grabińska, Mikko Muona, Laura Canafoglia, Antonio Gambardella, Edith Said, Zaid Afawi, Betul Baykan, Christian Brandt, Carlo di Bonaventura, Hui Bein Chew, Chiara Criscuolo, Leanne M Dibbens, Barbara Castellotti, Patrizia Riguzzi, Angelo Labate, Alessandro Filla, Anna T Giallonardo, Geza Berecki, Christopher B Jackson, Tarja Joensuu, John A Damiano, Sara Kivity, Amos Korczyn, Aarno Palotie, Pasquale Striano, Davide Uccellini, Loretta Giuliano, Eva Andermann, Ingrid E Scheffer, Roberto Michelucci, Melanie Bahlo, Silvana Franceschetti, William C Sessa, Samuel F Berkovic, Anna-Elina Lehesjoki
ABSTRACT

Progressive myoclonus epilepsies (PMEs) comprise a group of clinically and genetically heterogeneous rare diseases. Over 70% of PME cases can now be molecularly solved. Known PME genes encode a variety of proteins, many involved in lysosomal and endosomal function. We performed whole-exome sequencing (WES) in 84 (78 unrelated) unsolved PME-affected individuals, with or without additional family members, to discover novel causes. We identified likely disease-causing variants in 24 out of 78 (31%) unrelated individuals, despite previous genetic analyses. The diagnostic yield was significantly higher for individuals studied as trios or families (14/28) versus singletons (10/50) (OR = 3.9, p value = 0.01, Fisher's exact test). The 24 likely solved cases of PME involved 18 genes. First, we found and functionally validated five heterozygous variants in NUS1 and DHDDS and a homozygous variant in ALG10, with no previous disease associations. All three genes are involved in dolichol-dependent protein glycosylation, a pathway not previously implicated in PME. Second, we independently validate SEMA6B as a dominant PME gene in two unrelated individuals. Third, in five families, we identified variants in established PME genes; three with intronic or copy-number changes (CLN6, GBA, NEU1) and two very rare causes (ASAH1, CERS1). Fourth, we found a group of genes usually associated with developmental and epileptic encephalopathies, but here, remarkably, presenting as PME, with or without prior developmental delay. Our systematic analysis of these cases suggests that the small residuum of unsolved cases will most likely be a collection of very rare, genetically heterogeneous etiologies.

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Filipin III from Streptomyces filipinensis, ≥85% (HPLC)