Alternative splicing of tau exon 10 generates tau isoforms with three or four microtubule-binding repeats, 3R-tau or 4R-tau, which are under developmental regulation. Dysregulation of tau exon 10 splicing is sufficient to cause neurodegenerative disorders. The RNA-binding Fox3 (Rbfox3), identified as NeuN, regulates RNA processing. However, whether Rbfox3/NeuN regulates tau exon 10 splicing is unknown. In the present study, we found that the developmental expression of 4R-tau coincided with the expression of Rbfox3 in rat brains. Rbfox3 enhanced tau exon 10 inclusion. Tau intron 10 contains UGCAUG, the conservative binding sequence of Rbfox3. Intron 10 of tau pre-mRNA was co-immunoprecipitated by Rbfox3/NeuN. Deletion mutants of the RNA recognition motif (RRM) or three RNA-binding sites of the RRM in Rbfox3/NeuN failed to enhance tau exon 10 inclusion. Rbfox3, specifically expressed in the fetal brain, did not affect tau exon 10 splicing. The level of Rbfox3/NeuN was reduced and was associated with the ratio of 4R-tau/3R-tau in the excitotoxic mouse brains induced by kainic acid. These findings suggest that Rbfox3/NeuN regulates the alternative splicing of tau exon 10 and that decreased Rbfox3/NeuN may lower the ratio of 4R-tau/3R-tau.
Keywords: Alternative splicing; alzheimer’s disease; rbfox3/NeuN; tau.