Fabrice Ango scite author profile

Distinct classes of GABAergic synapses are segregated into subcellular domains (i.e., dendrite, soma, and axon initial segment-AIS), thereby differentially regulating the input, integration, and output of principal neurons. In cerebellum, for example, basket interneurons make exquisitely precise "pinceau synapses" on AIS of Purkinje neurons, but the underlying mechanism is unknown. Using BAC transgenic reporter mice, we found that basket axons always contacted Purkinje soma before innervating AIS. This synapse targeting process followed the establishment of a subcellular gradient of neurofascin186 (NF186), an L1 family immunoglobulin cell adhesion molecule (L1CAM), along the Purkinje AIS-soma axis. This gradient was dependent on ankyrinG, an AIS-restricted membrane adaptor protein that recruits NF186. In the absence of neurofascin gradient, basket axons lost directional growth along Purkinje neurons and precisely followed NF186 to ectopic locations. Disruption of NF186-ankyrinG interactions at AIS reduced pinceau synapse formation. These results implicate ankyrin-based localization of L1CAMs in subcellular organization of GABAergic synapses.

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Agonist-independent activation of metabotropic glutamate receptors by the intracellular protein Homer

Ango

Prézeau

Müller

et al. 2001

Nature

385

324

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Shank Expression Is Sufficient to Induce Functional Dendritic Spine Synapses in Aspiny Neurons

Roussignol¹,

Ango²,

Romorini³

et al. 2005

J. Neurosci.

270

236

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Development of GABA innervation in the cerebral and cerebellar cortices

2007

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In many areas of the vertebrate brain, such as the cerebral and cerebellar cortices, neural circuits rely on inhibition mediated by GABA (gamma-aminobutyric acid) to shape the spatiotemporal patterns of electrical signalling. The richness and subtlety of inhibition are achieved by diverse classes of interneurons that are endowed with distinct physiological properties. In addition, the axons of interneurons display highly characteristic and class-specific geometry and innervation patterns, and thereby distribute their output to discrete spatial domains, cell types and subcellular compartments in neural networks. The cellular and molecular mechanisms that specify and modify inhibitory innervation patterns are only just beginning to be understood.

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Fabrice Ango

Ankyrin-Based Subcellular Gradient of Neurofascin, an Immunoglobulin Family Protein, Directs GABAergic Innervation at Purkinje Axon Initial Segment

Agonist-independent activation of metabotropic glutamate receptors by the intracellular protein Homer

Shank Expression Is Sufficient to Induce Functional Dendritic Spine Synapses in Aspiny Neurons

Development of GABA innervation in the cerebral and cerebellar cortices

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