Unknown

Dataset Information

0

Retrograde BDNF to TrkB signaling promotes synapse elimination in the developing cerebellum.

ABSTRACT: Elimination of early-formed redundant synapses during postnatal development is essential for functional neural circuit formation. Purkinje cells (PCs) in the neonatal cerebellum are innervated by multiple climbing fibers (CFs). A single CF is strengthened whereas the other CFs are eliminated in each PC dependent on postsynaptic activity in PC, but the underlying mechanisms are largely unknown. Here, we report that brain-derived neurotrophic factor (BDNF) from PC facilitates CF synapse elimination. By PC-specific deletion of BDNF combined with knockdown of BDNF receptors in CF, we show that BDNF acts retrogradely on TrkB in CFs, and facilitates elimination of CF synapses from PC somata during the third postnatal week. We also show that BDNF shares signaling pathway with metabotropic glutamate receptor 1, a key molecule that triggers a canonical pathway for CF synapse elimination. These results indicate that unlike other synapses, BDNF mediates punishment signal for synapse elimination in the developing cerebellum.During development, synapses are selectively strengthened or eliminated by activity-dependent competition. Here, the authors show that BDNF-TrkB retrograde signaling is a "punishment" signal that leads to elimination of climbing fiber-onto-Purkinje cell synapses in the developing cerebellum.

SUBMITTER: Choo M 

PROVIDER: S-EPMC5543168 | biostudies-other | 2017 Aug

REPOSITORIES: biostudies-other

Json Xml
altmetric image

Publications

Retrograde BDNF to TrkB signaling promotes synapse elimination in the developing cerebellum.

Choo Myeongjeong M   Miyazaki Taisuke T   Yamazaki Maya M   Kawamura Meiko M   Nakazawa Takanobu T   Zhang Jianling J   Tanimura Asami A   Uesaka Naofumi N   Watanabe Masahiko M   Sakimura Kenji K   Kano Masanobu M  

Nature communications 20170804 1

Elimination of early-formed redundant synapses during postnatal development is essential for functional neural circuit formation. Purkinje cells (PCs) in the neonatal cerebellum are innervated by multiple climbing fibers (CFs). A single CF is strengthened whereas the other CFs are eliminated in each PC dependent on postsynaptic activity in PC, but the underlying mechanisms are largely unknown. Here, we report that brain-derived neurotrophic factor (BDNF) from PC facilitates CF synapse eliminatio  ...[more]

Similar Datasets

Unknown Requirement of TrkB for synapse elimination in developing cerebellar Purkinje cells.
| S-EPMC3303929 | biostudies-literature
Unknown Genetic perturbation of postsynaptic activity regulates synapse elimination in developing cerebellum.
| S-EPMC2752512 | biostudies-literature
Unknown Arc/Arg3.1 is a postsynaptic mediator of activity-dependent synapse elimination in the developing cerebellum.
| S-EPMC3773328 | biostudies-literature
Transcriptomics Stat3-Bdnf-TrkB axis promotes alveolar regeneration
2020-06-01 | GSE132535 | GEO
Unknown Dynein efficiently navigates the dendritic cytoskeleton to drive the retrograde trafficking of BDNF/TrkB signaling endosomes.
| S-EPMC5597326 | biostudies-literature
Unknown Peroxisome biogenesis deficiency attenuates the BDNF-TrkB pathway-mediated development of the cerebellum.
| S-EPMC6277683 | biostudies-literature
Transcriptomics Stat3-Bdnf-TrkB axis promotes alveolar regeneration [scRNA-seq]
2020-06-01 | GSE132533 | GEO
Genomics Stat3-Bdnf-TrkB axis promotes alveolar regeneration [ATAC-seq]
2020-06-01 | GSE132534 | GEO
Unknown Snapin recruits dynein to BDNF-TrkB signaling endosomes for retrograde axonal transport and is essential for dendrite growth of cortical neurons.
| S-EPMC3408618 | biostudies-literature
Unknown An Autism-Associated Neuroligin-3 Mutation Affects Developmental Synapse Elimination in the Cerebellum.
| S-EPMC8273702 | biostudies-literature