Targeting Autophagy Sensitizes BRAF-Mutant Thyroid Cancer to Vemurafenib. Conclusions: Our data demonstrate that vemurafenib induces ER stress response–mediated autophagy in thyroid cancer and autophagy inhibition may be a beneficial strategy to sensitize BRAF-mutant thyroid cancer to vemurafenib. Finally, administration of vemurafenib with the autophagy inhibitor hydroxychloroquine promoted more pronounced tumor suppression in vivo. Vemurafenib-induced autophagy was independent of MAPK signaling pathway and was mediated through the ER stress response. Inhibition of autophagy by either a pharmacological inhibitor or interfering RNA knockdown of essential autophagy genes augmented vemurafenib-induced cell death. Results: Vemurafenib induced a high level of autophagy in BRAF-mutant thyroid cancer cells. Whether the endoplasmic reticulum (ER) stress was in response to vemurafenib-induced autophagy was also analyzed. The combined effects of autophagy inhibitor and vemurafenib were assessed in terms of cell viability in vitro and tumor growth rate in vivo.
Design: Autophagy level was determined by western blot assay and transmission electron microscopy. Objective: In this study, we investigate if autophagy is activated in vemurafenib-treated BRAF-mutant thyroid cancer cells, and whether autophagy inhibition improves or impairs the treatment efficacy of vemurafenib. To date, role of autophagy during BRAF inhibition in thyroid cancer remains unknown. Anticancer therapy–induced autophagy can trigger adaptive drug resistance in a variety of cancer types and treatments. However, BRAF-mutant thyroid cancer is relatively resistant to vemurafenib, and the reason for this disparity remains unclear.
Wang, Weibin Kang, Helen Zhao, Yinu Min, Irene Wyrwas, Brian Moore, Maureen Teng, Lisong Zarnegar, Rasa Jiang, XuejunĬontext: The RAF inhibitor vemurafenib has provided a major advance for the treatment of patients with BRAF-mutant metastatic melanoma. Targeting Autophagy Sensitizes BRAF-Mutant Thyroid Cancer to Vemurafenib If validated in other studies, risk of infection should be considered when applying corticosteroids in combination with BRAF inhibitors, in particular vemurafenib. Our findings demonstrate a significant lymphopenia in patients treated with the BRAF inhibitor vemurafenib, which is further augmented by dexamethasone and predisposes to infection. All 9 cases with infections demonstrated lymphopenia, 8 of these had received dexamethasone and 7 of these a therapy with vemurafenib. In our cohort, infections were noted in 9 patients, 4 of these were severe and 2 eventually fatal. Lymphopenias were observed in 84.6% of patients receiving vemurafenib and dexamethasone. Dexamethasone co-administration further diminished lymphocyte counts. Dabrafenib treated patients only rarely demonstrated lymphopenia (12.5%). Vemurafenib treatment led to a considerable decrease in lymphocyte cell counts, with 62.3% of patients having lymphopenia. Additionally, the number and severity of infections occurring in these groups was analyzed. The amount of patients receiving either medication with or without systemic corticosteroids (dexamethasone) was determined and lymphocyte counts before and under therapy assessed. A cohort of 102 patients receiving either the selective BRAF inhibitor vemurafenib or dabrafenib was analyzed. In the current study, the extent to which concomitant use of corticosteroids in BRAF inhibitor treated patients affects lymphocyte counts and predisposes to infection was investigated. We have previously demonstrated an impact of the BRAF inhibitor vemurafenib on patient lymphocyte counts. Sondermann, Wiebke Griewank, Klaus G Schilling, Bastian Livingstone, Elisabeth Leyh, Julia C Rompoti, Natalia Cosgarea, Ioana Schimming, Tobias Schadendorf, Dirk Zimmer, Lisa Hillen, Uwe
Corticosteroids augment BRAF inhibitor vemurafenib induced lymphopenia and risk of infection.