Leucine-rich glioma inactivated 1 is a ganglioside-binding protein
Debreux, K.; Leveque, C.; Azzaz, F.; Sangiardi, M.; Irani, S. R.; Seagar, M.; Fantini, J.; El Far, O.
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In LGI1-linked animal models of inherited autosomal dominant lateral temporal lobe epilepsy, increased neuronal excitability is accompanied by modifications in the AMPA/NMDA receptor ratio and a large decrease in Kv1 type potassium channels. However, the mechanism which links the absence of LGI1 to reduced expression of key neuronal ion channels is unknown. We observed multiple conserved canonical ganglioside-binding domains (GBDs) within human LGI1, mainly located in the EPTP domain. We show that GT1b is co-captured from native rat brain extracts by human LGI1 antibodies and, using SPR analysis, that recombinant full length LGI1 interacted with liposomes containing GT1b and GM1, but not GM3, lyso-lactosylceramide, phosphatidylserine or phosphatidylcholine. The ganglioside binding capacity of GBD peptide sequences exposed at the surface of LGI1 were confirmed using SPR and Langmuir film balance. Our data suggest that LGI1 interacts with gangliosides and may be involved in organizing lipid membrane platforms accommodating functional protein complexes. The loss of LGI1 could destabilize these platforms and contribute to reduced expression of key ion channels in Lgi1-/- mice.
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