The Notch transmembrane receptors play important roles in cell fate decisions during development. Ligand binding initiates the signal through the proteolysis of Notch-1 receptor to generate the Notch-1 intracellular domain (N1IC). The N1IC translocates into the nucleus to target the DNA-binding protein RBP-Jκ. The N1IC/RBP-Jκ complex overcomes the transcriptional repression by replacement of the RBP-Jκ/histone deacetylase complex to activate the target genes. Previously, we used yeast two-hybrid assay to identify proteins which associate with Notch-1 receptor, and βII-tubulin was identified to associate with N1IC. βII-tubulin was detected in the nuclei of C6 glioma cell, MCF-7 breast carcinoma cells, HeLa cervix carcinoma cells, etc (Keliang Xu, 2002). The aim of this paper was to characterize the roles of the nuclear bII-tubulin in the modulation of Notch signaling. Herein, I found that βII-tubulin was localized in the nuclei of HeLa and K562 cells. Furthermore, βII-tubulin associated with N1IC in the nucleus of HeLa cells. The CBF1-mediated transactivation activity of N1IC was modulated by taxol in K562 and HeLa cells, but not by colchicine. The contents of both nuclear βII- and a-tubulins were elevated by taxol in K562 and HeLa cells but not by colchicine. In time course experiment, the induction of nuclear βII-tubulin by taxol was stable in the nucleus of HeLa cell. These results suggested that nuclear βII-tubulin associated with the activated Notch-1 receptor to modulate Notch signaling.