A class-specific effect of dysmyelination on the excitability of hippocampal interneurons

Author:

Pinatel DelphineORCID,Pearlstein EdouardORCID,Bonetto GiuliaORCID,Goutebroze LaurenceORCID,Karagogeos DomnaORCID,Crépel ValérieORCID,Faivre-Sarrailh CatherineORCID

Abstract

AbstractThe role of myelination for axonal conduction is well-established in projection neurons but little is known about its significance in GABAergic interneurons. Myelination is discontinuous along interneuron axons and the mechanisms controlling myelin patterning and segregation of ion channels at the nodes of Ranvier have not been elucidated. Protein 4.1B is implicated in the organization of the nodes of Ranvier as a linker between paranodal and juxtaparanodal membrane proteins to the spectrin cytoskeleton. In the present study, 4.1B KO mice are used as a genetic model to analyze the functional role of myelin in Lhx6-positive parvalbumin and somatostatin neurons, two major classes of GABAergic neurons in the hippocampus. We show that deletion of 4.1B induces disruption of juxtaparanodal K+channel clustering and mislocalization of nodal or heminodal Na+channels. Strikingly, 4.1B-deficiency causes loss of myelin in GABAergic axons in the hippocampus. In particular, stratum oriens O-LM cells display severe axonal dysmyelination and a reduced excitability. This reduced excitability is associated with a decrease in occurrence probability of small amplitude synaptic inhibitory events on pyramidal cells. In contrast, stratum pyramidale fast-spiking basket cells do not appear affected. The aberrant myelination of hippocampal interneurons is also correlated with impairment of spatial memory in 4.1B KO mice. In conclusion, our results indicate a class-specific effect of dysmyelination on the excitability of hippocampal interneurons associated with a functional alteration of inhibitory drive and impairment of spatial memory.

Publisher

Cold Spring Harbor Laboratory

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