Abstract

Glutamate receptor delta 2 (GluRδ2) is selectively expressed in the cerebellum, exclusively in the spines of the Purkinje cells (PCs) that are in contact with parallel fibers (PFs). Although its structure is similar to ionotropic glutamate receptors, it has no channel function and its ligand is unknown. The GluRδ2-null mice, such as knockout and hotfoot have profoundly altered cerebellar circuitry, which causes ataxia and impaired motor learning. Notably, GluRδ2 in PC-PF synapses regulates their maturation and strengthening and induces long term depression (LTD). In addition, GluRδ2 participates in the highly territorial competition between the two excitatory inputs to the PC; the climbing fiber (CF), which innervates the proximal dendritic compartment, and the PF, which is connected to spiny distal branchlets. Recently, studies have suggested that GluRδ2 acts as an adhesion molecule in PF synaptogenesis. Here, we provide in vivo and in vitro evidence that supports this hypothesis. Through lentiviral rescue in hotfoot mice, we noted a recovery of PC-PF contacts in the distal dendritic domain. In the proximal domain, we observed the formation of new spines that were innervated by PFs and a reduction in contact with the CF; ie, the pattern of innervation in the PC shifted to favor the PF input. Moreover, ectopic expression of GluRδ2 in HEK293 cells that were cocultured with granule cells or in cerebellar Golgi cells in the mature brain induced the formation of new PF contacts. Collectively, our observations show that GluRδ2 is an adhesion molecule that induces the formation of PF contacts independently of its cellular localization and promotes heterosynaptic competition in the PC proximal dendritic domain.

Highlights

  • The Glutamate receptor delta 2 (GluRd2) subunit is selectively expressed in the cerebellum, and at the mature stage it is targeted to the Purkinje cells (PCs) spines of the distal dendritic domain that is innervated by the parallel fibers (PFs) input [1,2]

  • The GluRd2 subunit is selectively expressed in the cerebellum, and at the mature stage it is targeted to the PC spines of the distal dendritic domain that is innervated by the PF input [1,2]

  • We provide novel evidence that such plastic events occur in mature cerebellar circuitry through changes in GluRd2 levels in a hotfoot background

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Summary

Introduction

The GluRd2 subunit is selectively expressed in the cerebellum, and at the mature stage it is targeted to the PC spines of the distal dendritic domain that is innervated by the PF input [1,2]. GluRd2 is transiently expressed in these spines during development [2] and reappears in the mature stage after electrical activity block [5,6], during which the cerebellar cortex is reversibly rewired. In the GluRd2 knockout mouse, CFs extend to the distal dendrites, ‘‘invading’’ the PF territory, where nearly half of the spines are not innervated [7]. It has been suggested that in the distal domain, GluRd2 stabilizes PF synapses and limits CF innervation to the PC proximal dendritic domain [7]

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