Alf S. Landsend scite author profile

The delta 2 glutamate receptors are prominently expressed in Purkinje cells and are thought to play a key role in the induction of cerebellar long-term depression. The synaptic and subsynaptic localization of delta receptors in rat cerebellar cortex was investigated with sensitive and high-resolution immunogold procedures. After postembedding incubation with an antibody raised to a C-terminal peptide of delta 2, high gold particle densities occurred in all parallel fiber synapses with Purkinje cell dendritic spines, whereas other synapses were consistently devoid of labeling. Among the types of immunonegative synapse were climbing fiber synapses with spines and parallel fiber synapses with dendritic stems of interneurons. At the parallel fiber-spine synapse, gold particles signaling delta receptors were restricted to the postsynaptic specialization. By the use of double labeling with two different gold particle sizes, it was shown that delta and AMPA GluR2/3 receptors were colocalized along the entire extent of the postsynaptic specialization without forming separate domains. The distribution of gold particles representing delta receptors was consistent with a cytoplasmic localization of the C terminus and an absence of a significant presynaptic pool of receptor molecules. The present data suggest that the delta 2 receptors are targeted selectively to a subset of Purkinje cell spines and that they are coexpressed with ionotropic receptors in the postsynaptic specialization. This arrangement could allow for a direct interaction between the two classes of receptor.

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Organization of Glutamate Receptors at the Synapse

Ottersen¹,

Landsend²

1997

Eur J of Neuroscience

132

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Glutamate receptors can be divided in several groups with distinct functional properties. An additional level of complexity has emerged from recent high resolution immunogold analyses which have provided evidence for a differential targeting of glutamate receptors to specific subsynaptic membrane domains. Notably, different types of glutamate receptor may differ in their distance to the release site and in their spatial relation to glutamate transporters. These data imply that the subsynaptic expression of a given glutamate receptor may bias its response to a released quantum of transmitter and suggest that receptor targeting may be implicated in the modulation of glutamatergic neurotransmission.

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Molecular organization of a type of peripheral glutamate synapse: the afferent synapses of hair cells in the inner ear

Ottersen¹,

Takumi

Matsubara

et al. 1998

Progress in Neurobiology

104

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High resolution immunogold analysis reveals distinct subcellular compartmentation of protein kinase Cγ and δ in rat Purkinje cells

et al. 1997

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Chapter 8 Synaptic arrangement of glutamate receptors

Takumi

Bergersen

Landsend

et al. 1998

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Alf S. Landsend

Differential Localization of δ Glutamate Receptors in the Rat Cerebellum: Coexpression with AMPA Receptors in Parallel Fiber–Spine Synapses and Absence from Climbing Fiber–Spine Synapses

Organization of Glutamate Receptors at the Synapse

Molecular organization of a type of peripheral glutamate synapse: the afferent synapses of hair cells in the inner ear

High resolution immunogold analysis reveals distinct subcellular compartmentation of protein kinase Cγ and δ in rat Purkinje cells

Chapter 8 Synaptic arrangement of glutamate receptors

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