Background: Resistance invariably develops in all patients with metastatic ccRCC treated with mTOR inhibitors. Previously we demonstrated that dual inhibition of Hsp90 and the mTOR pathway in lung cancer models leads to synergistic reductions in tumor growth. Herein, we tested the efficacy of ganetespib as a single agent and in combination with mTOR inhibition using in vitro and in vivoccRCC models. Methods: For the in vitro work we utilized the following seven ccRCC cell lines: Caki-1, Caki-2, A-498, A-704, 769-P, 786-O, ACHN. For the in vivo work we used A498 xenografts. In vitro, we determined the single agent EC₅₀ of everolimus and ganetespib at 72 hours by assessing percent viability of A498 cells compared to vehicle using the MTS assay. We then performed combinations of ganetespib and everolimus at EC₂₀, EC₃₀, and EC₅₀ in A498 cells. Translating these studies in vivo, we compared the combinatorial activity of ganetespib and temsirolimus to monotherapy in mice bearing A498 tumor xenografts. Results: As a single agent, all ccRCC cell lines tested were sensitive to ganetespib at nanomolar concentration (EC50 15 – 75 nm) and to everolimus at micromolar concentrations (EC50 4 – 54 mm). In vitro, the combination of ganetespib and everolimus also decreased cell viability in an additive fashion. In vivo, ganetespib and temsirolimus demonstrated comparable single agent activity at sub-MTD doses (T/C = 63 and 60, respectively). Combining ganetespib with temsirolimus improved tumor growth suppression by ~30% (T/C = 43). Conclusions: Given the broad in vitro sensitivity of ccRCC cell lines to single agent ganetespib as well as the in vivo activity of the combination of ganetespib and temsirolimus, we believe ganetespib warrants further study in ccRCC. Updated results will be presented at the conference including the in vivo activity of the combination of ganetespib and antivascular endothelial growth factor agents.