Author
Listed:
- Dick Jaarsma
(Erasmus Medical Center)
- Robert van den Berg
(Erasmus Medical Center
Cell Biology, Faculty of Science, Utrecht University)
- Phebe S. Wulf
(Erasmus Medical Center
Cell Biology, Faculty of Science, Utrecht University)
- Susan van Erp
(Netherlands Institute for Neuroscience, Royal Dutch Academy of Arts & Sciences)
- Nanda Keijzer
(Erasmus Medical Center)
- Max A. Schlager
(Erasmus Medical Center)
- Esther de Graaff
(Erasmus Medical Center
Cell Biology, Faculty of Science, Utrecht University)
- Chris I. De Zeeuw
(Erasmus Medical Center
Netherlands Institute for Neuroscience, Royal Dutch Academy of Arts & Sciences)
- R. Jeroen Pasterkamp
(Brain Center Rudolf Magnus, University Medical Center Utrecht)
- Anna Akhmanova
(Cell Biology, Faculty of Science, Utrecht University
Erasmus Medical Center)
- Casper C. Hoogenraad
(Erasmus Medical Center
Cell Biology, Faculty of Science, Utrecht University)
Abstract
Bicaudal-D (BICD) belongs to an evolutionary conserved family of dynein adaptor proteins. It was first described in Drosophila as an essential factor in fly oogenesis and embryogenesis. Missense mutations in a human BICD homologue, BICD2, have been linked to a dominant mild early onset form of spinal muscular atrophy. Here we further examine the in vivo function of BICD2 in Bicd2 knockout mice. BICD2-deficient mice develop disrupted laminar organization of cerebral cortex and the cerebellum, pointing to impaired radial neuronal migration. Using astrocyte and granule cell specific inactivation of BICD2, we show that the cerebellar migration defect is entirely dependent upon BICD2 expression in Bergmann glia cells. Proteomics analysis reveals that Bicd2 mutant mice have an altered composition of extracellular matrix proteins produced by glia cells. These findings demonstrate an essential non-cell-autonomous role of BICD2 in neuronal cell migration, which might be connected to cargo trafficking pathways in glia cells.
Suggested Citation
Dick Jaarsma & Robert van den Berg & Phebe S. Wulf & Susan van Erp & Nanda Keijzer & Max A. Schlager & Esther de Graaff & Chris I. De Zeeuw & R. Jeroen Pasterkamp & Anna Akhmanova & Casper C. Hoogenra, 2014.
"A role for Bicaudal-D2 in radial cerebellar granule cell migration,"
Nature Communications, Nature, vol. 5(1), pages 1-13, May.
Handle:
RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms4411
DOI: 10.1038/ncomms4411
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