Spinocerebellar ataxia type 8 (SCA8) is an autosomal dominant late-onset neurodegenerative disease. The cause of SCA8 was originally proposed associated with CTG trinucleotide repeat at 3’UTR (untranslated region) of ATXN8OS gene, lying on chromosome 13q21. However, recent studies suggest that bidirectional transcription of ATXN8OS occurs, with its anti-strand, ataxin8 (ATXN8), which encodes a polyQ protein in the CAG orientation, and ATXN8OS transcribed into potentially pathogenic CUG transcripts. SCA8 may thus has both RNA and protein gain of function mechanisms. To understand the molecular pathogenic mechanism of SCA8, we have established inducible PC12 cells with ATXN8OS-22R (normal 22 CTG repeats) or -150R (expanded 150 CTG repeats). Our results show that the viability and neurite outgrowth were significantly reduced in cells with ATXN8OS-150R after induction. Furthermore, the proliferation rate of the cells with ATXN8OS-150R (clones 1 and 4) was obviously decreased by flow cytometry. In addition, the presence of RNA foci was identified in cells with ATXN8OS-22R and -150R. Further investigation in impairment of neurite outgrowth revealed that the neuron differenciation signal transduction pathways of PC12 cells might not be the major targets directly affected by ATXN8OS gene. Whether the mechanism of ATXN8OS gene resulted in hypoplasia of neurite outgrowth related to RNA level associated with alternative splicing needs further investigation.