Renal cell carcinoma (RCC) is responsible for the majority tumor malignancies arising in the kidney, making it the 7th most common cancer among the world in 2007. It accounts for 3 % human malignancies and influences almost 150,000 people worldwide each year, causing approximately 78,000 deaths annually. Most cases of RCC appear to occur sporadically which accompany increased angiogenesis and invasive ability. Moreover, RCC is resistant to conventional therapies, including radiation and chemotherapy. Aimed at the patients with no response to conventional therapy, the cytokine-based therapies including interferon-α (IFN-α), and interleukin-1,-2, and -12 (IL-1,-2, and -12) have been developed and further approved for the treatment of metastatic RCC by US FDA for almost 20 years. However, the effect of cytokines is very limited in intermediate-risk patients. Therefore, development of new agent which inhibits tumor metastasis is crucial for treatment of RCC. As CHMs is identified as one of alternative strategies in the treatment of many cancers among many countries, we examine the effects of various CHMs on proliferation and migration of 786O cells by MTT assay and migration assay. We found that Paeonia suffruticosa (PS) exhibits stronger anti-metastasis and anti-proliferation activities than other CHMs in vitro and in vivo. Paeonia suffruticosa (PS) has been used in the treatment of various diseases such as macula, epilepsy, and menstrual disorders in tradition prescriptions. In our study, we performed quantitative real-time PCR and western blot analysis to dissect mechanisms affected by PS. Our finding indicates that PS suppresses N-cadherin expression. Through decreased phosphorylation of Akt and Src, noncanonical phosphorylation of β-catenin causes its localization from cytoplasm to nucleus and further triggers Wnt-β-catenin target genes including Slug. Reduction of Slug impairs the transcription of N-cadherin. It is demonstrated that PS suppresses the activation of Rac-1 via VEGFR-3/FAK/PI3K pathway, leading to the decreased formation of stress fiber and inhibition of migration. Additionally, PS induces intrinsic apoptosis pathway and cause S phase arrest. Consequently, we provided the potential remedy that combination of PS with cisplatin or adriamycin, respectively, could synergistically enhance the cytotocicity of RCC in a different manner. In particular, PS and cisplatin in combination have synergistic effects in high inhibitory range. These results described above suggest that PS has dual effects on migration and proliferation and can be administrated to the patients with RCC.