Wild-type IDH1 inhibition enhances chemotherapy response in melanoma

Abstract

AbstractMalignant melanoma is one of the most common types of cancer in the United States. Despite recent and well-described progress in melanoma treatment, advanced disease still carries a poor prognosis for many patients and chemotherapy has been appropriately abandoned as a front-line option. Wild-type isocitrate dehydrogenase 1 (wtIDH1) has recently been implicated as a metabolic dependency in cancer. The enzyme is protective to cancer cells under metabolic stress, including oxidative damage by conventional chemotherapy and nutrient limitation characteristic of the tumor microenvironment. Specifically, the cytosolic enzyme generates NADPH to maintain redox homeostasis. IDH1 also supports mitochondrial function through anaplerosis of its reaction product, α-ketoglutarate. We show that melanoma patients express higher levels of the wtIDH1 enzyme compared to normal skin tissue, and elevated wtIDH1 expression portends poor patient survival. Knockdown of IDH1 by RNA interference inhibited cell proliferation and migration under low nutrient levels. Suppression of IDH1 expression in melanoma also decreased NADPH and glutathione levels, resulting in increased reactive oxygen species. An FDA-approved inhibitor of mutant IDH1, ivosidenib (AG-120), exhibited potent anti-wtIDH1 properties under low magnesium and nutrient levels, reflective of the tumor microenvironmentin natura. Similarly, findings were replicated in murine models of melanoma. Further, wtIDH1 inhibition was synergistic to conventional anti-melanoma chemotherapy in pre-clinical models. This work points to a novel and readily available combination treatment strategy for patients with advanced and refractory melanoma.