6533b82cfe1ef96bd128ffda
RESEARCH PRODUCT
Mutant Plasticity Related Gene 1 (PRG1) acts as a potential modifier in SCN1A related epilepsy
Andrew EscaygAlexey PonomarenkoDietmar SchmitzRobert NitschEllen KnierimUlrich StephaniMarkus SchuelkeMichael KintscherKorotkova TPrateep BeedJan BaumgartPanzer AJohannes VogtHolger LercheThorsten Trimbuchsubject
EpilepsyMutationGlutamatergicMutantWild typemedicineHippocampal formationBiologymedicine.diseasemedicine.disease_causePhenotypeMolecular biologyExome sequencingdescription
ABSTRACTPlasticity related gene 1 encodes a cerebral neuron-specific synaptic transmembrane protein that modulates hippocampal excitatory transmission on glutamatergic neurons. In mice, homozygous Prg1-deficiency results in juvenile epilepsy. Screening a cohort of 18 patients with infantile spasms (West syndrome), we identified one patient with a heterozygous mutation in the highly conserved third extracellular phosphatase domain (p.T299S). The functional relevance of this mutation was verified by in-utero electroporation of a mutant Prg1 construct into neurons of Prg1-knockout embryos, and the subsequent inability of hippocampal neurons to rescue the knockout phenotype on the single cell level. Whole exome sequencing revealed the index patient to additionally harbor a novel heterozygous SCN1A variant (p.N541S) that was inherited from her healthy mother. Only the affected child carried both heterozygous PRG1 and SCN1A mutations. The aggravating effect of Prg1-haploinsufficiency on the epileptic phenotype was verified using the kainate-model of epilepsy. Double heterozygous Prg1-/+|Scn1awt/p.R1648Hmice exhibited higher seizure susceptibility than either wildtype, Prg1-/+, or Scn1awt/p.R1648H littermates. Our study provides evidence that PRG1-mutations have a potential modifying influence on SCN1A-related epilepsy in humans.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-03-15 |