Abstract Notch receptors are evolutionally highly conserved and play important roles in modulating cell fate decisions throughout the development from invertebrate to vertebrate species. Four homologues of Notch receptors have been identified in human and aberrant Notch signaling is associated with a number of human diseases. There is a consensus model of Notch signaling pathway containing multiple proteolytic steps. After ligand binding, Notch receptors are cleaved to release the intracellular domains of Notch receptors. The intracellular domains, the activated form of Notch receptors, are then translocated into nuclei and interact with other transcriptional machineries to regulate the expression of cellular genes. To dissect the molecular mechanisms of Notch signaling, the cellular targets interact with Notch 1 receptor intracellular domain (N1IC) were screened. In this study, we found that endogenous transcription factor Ying Yang 1 (YY1) was associated with exogenous N1IC in human K562 erythroleukemic cells. The ankyrin domain of N1IC and zinc finger domains of YY1 were essential for the association of N1IC and YY1 by the pull-down assay of GST fusion proteins. Furthermore, both YY1 and N1IC were present in a large complex of the nucleus to suppress the luciferase reporter activity trans-activated by Notch signaling. The transcription factor YY1 indirectly regulated the transcriptional activity of the wild-type CBF1-response elements via the direct interaction of N1IC and CBF1. We also demonstrated the association between endogenous N1IC and intrinsic YY1 in human Jurkat cells and T-cell acute lymphoblastic leukemia cells. Additionally, we identified the cellular target genes modulated by the high-molecular-weight Notch complex by chromatin immunoprecipitation. Taken together, these results indicate transcription factor YY1 may modulate Notch signaling via association with the high-molecular-weight Notch complex. We also demonstrated that the microtubule component ?2-tubulin was associated with exogenous and endogenous N1IC in cells, Further study showed that N1IC and ?2-tubulin associated in both nucleus and cytosol. The expression of ?2-tubulin was inhibited by RNA interference and the nuclear ?2-tubulin was depleted by the treatment of taxol to investigate the roles of ?2-tubulin in Notch1 signaling pathway. The results suggested that ?2-tubulin suppresses the luciferase reporter activity trans-activated by Notch1 signaling.