Abstract Introduction Tumor cells growing in the brain are resistant to chemotherapy. We have recently demonstrated that the activation of the endothelin receptors A and B axis is involved in the induction of resistance to chemotherapy by primary brain tumor cells and by brain metastases. Treatment with a dual endothelin receptor antagonist in combination with chemotherapy produced significant therapy of orthotopically growing glioblastoma cells as well as breast cancer and lung cancer brain metastases. Since the milieu of tumors in the brain is hypoxic (0.5% - 1% O2), we investigated whether the chemo-resistance of the tumor cells is linked to hypoxia mediated activation of the endothelin receptor axis. Materials and Methods Human glioma (LN229), breast cancer (MDA231), and lung adenocarcinoma (PC14) cell lines were cultured in DMEM supplemented with 5% FBS. The endothelin receptor A (ETAR) and/or B (ETBR) of cancer cells were knocked down by shRNA. ETAR and ETBR were activated by incubating the tumor cells with exogenous endothelin-1 for 15 minutes or blocked by treating the parental or engineered cells with ETAR-specific antagonist, BQ123 (100nM), and/or ETBR-specific antagonist, BQ788 (100nM), for 2 hours prior to the addition of paclitaxel (5ng/ml), temozolomide (100μg/ml) or cisplatinum (5μg/ml). The cultures were placed into incubators with an atmosphere of 20%, 6% or 1% oxygen for 48 hours (MDA231 cells) or 72 hours (LN229 and PC14 cells). Tumor cells were then plated into 96-well plates to determine chemosensitivity by the MTT assay or into 6-well plates for western blots, or into chamber slides for immunohistochemical analyses. Expression of survival-related proteins such as pETAR, pETBR, pAkt, pMAPK, pNFκB, GSTA5, TWIST1 or Bcl2L1, were then determined. Results Stimulation of parental MDA-231, PC-14, or LN229 cells with exogenous ET-1 induced significant resistance against all tested chemotherapeutic agents. The resistance was abolished only when both the ETAR and ETBR were antagonized by a combination of BQ123 and BQ788. Parental cells cultured under hypoxia were also significantly resistant to chemotherapy and treatment of these cells with BQ123 and BQ788 reversed this resistance. The effects of exogenous ET-1 on the induction of chemo-resistance or BQ123 and BQ788 on restoration of chemo-sensitivity were not found in any cancer cells devoid of ETAR and ETBR. In all cases, the chemo-resistance of tumor cells was associated with increased level of expression of proteins related to cell survival. Conclusion These data suggest that the endothelin receptor axis plays a role in hypoxia induced resistance of cancer cells to chemotherapy. Additional studies are warranted to determine the functional changes of the endothelin receptor axis in hypoxia. Citation Format: Hyun Kyung Yu, Ho Jeong Lee, Fahao Zhang, Qiuyu Wu, Isaiah J. Fidler, Sun Jin Kim. Hypoxia induced resistance to chemotherapy is regulated by the endothelin receptor axis. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 2943.