1. Phenotypic and genetic analysis of the cerebellar mutant tmgc26, a new ENU-induced ROR-alpha allele
- Author
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Douglas J. Swanson, Ekaterina Y. Steshina, Paul Wakenight, Kimberly A. Aldinger, Victor V. Chizhikov, Dan Goldowitz, and Kathleen J. Millen
- Subjects
Cerebellum ,General Neuroscience ,Cellular differentiation ,Purkinje cell ,Nonsense mutation ,Mutant ,Biology ,Granule cell ,Molecular biology ,Exon ,medicine.anatomical_structure ,nervous system ,medicine ,Cerebellar Degeneration - Abstract
ROR-alpha is an orphan nuclear receptor, inactivation of which cell-autonomously blocks differentiation of cerebellar Purkinje cells with a secondary loss of granule neurons. As part of our ENU mutagenesis screen we isolated the recessive tmgc26 mouse mutant, characterized by early-onset progressive ataxia, cerebellar degeneration and juvenile lethality. Detailed analysis of the tmgc26-/- cerebella revealed Purkinje cell and granule cell abnormalities, and defects in molecular layer interneurons and radial glia. Chimera studies suggested a cell-autonomous effect of the tmgc26 mutation in Purkinje cells and molecular layer interneurons, and a non-cell-autonomous effect in granule cells. The mutation was mapped to a 13-Mb interval on chromosome 9, a region that contains the ROR-alpha gene. Sequencing of genomic DNA revealed a T-to-A transition in exon 5 of the ROR-alpha gene, resulting in a nonsense mutation C257X and severe truncation of the ROR-alpha protein. Together, our data identify new roles for ROR-alpha in molecular layer interneurons and radial glia development and suggest tmgc26 as a novel ROR-alpha allele that may be used to further delineate the molecular mechanisms of ROR-alpha action.
- Published
- 2010