Urothelial carcinoma (UC) is a common cancer of urinary tract and the prevalence rate is relatively high especially in Taiwan. Patients with metastatic UC are usually treated with systemic chemotherapy but still some patients with advanced UC are not responsive to chemotherapy and die of the disease. Cervical carcinoma (CC) of the uterus is a common malignant tumor of female reproductive system. Incidence of CC in the world is still in the top three on the female reproductive system. Patients with metastatic CC usually die of the disease due to tumor recurrence and resistance to the chemotherapy. To overcome the tumor progression and chemoresistance of these two kinds of cancer is still the clinical important issue. Ubiquitin-proteasome system is responsible for intracellular protein degradation and regulation of cell activity, gene expression, cell proliferation, cell cycle regulation, differentiation, apoptosis and DNA repair. Regulation dysfunction of ubiquitin-proteasome system is associated with tumor genesis. Ubiquitin-protein ligase E3 is one major enzyme of ubiquitin ligases and neural-precursor-cell-expressed developmentally down-regulated protein 8 (NEDD8) combining with cullin, the scaffold of some E3, is essential for E3 activation. Access of the new drug (MLN4924) to block the neddylation leads to new treatments for cancer and MLN4924 has been reported to inhibit cancer cell growth and to reduce chemoresistance. The regulation of the associated molecular mechanism is important to overcome tumor progression and chemoresistance for cancer therapy. Our hypothesis is manipulation of neddylation inhibition by MLN4924 can suppress the tumor growth of UC and CC. We try to explore the changes of cell cycle regulatory proteins and neddylation inhibition associated mechanism and the control of cullin to further verify in animal models. In this study, we initially found that MLN4924 can effectively inhibit the growth of transitional cell origin NTUB1, T24 and RT4 cell lines and associated with cell apoptosis and cell cycle regulation. In addition, the neddylation inhibition can induce cell stress reactions and endoplasmic reticulum (ER) stress related molecule expression. We also treated MLN4924 on the two different cell lines as ME180 (squamous cell carcinoma) and HeLa (adenocarcinoma) of the CC and found the similar change of tumor growth suppression. We also investigated MLN4924 by the xenograft animal model of mice on UC and CC cells to confirm MLN4924 treatment effect in vivo. Furthermore, to merge neddylation inhibitor and other chemotherapy drug such as cisplatin, we also demonstrated the combining and synergistic antitumor therapeutic efficacy on CC. In the future, we believe that by studying the neddylation modulation on UC and CC, we will find the new treatment model to overcome the clinical issue of chemoresistance and tumor progression of many kinds of carcinomas and improve the clinical treatment efficacy for cancer.