Abstract
Despite ubiquitous activation in human cancer, essential downstream effector pathways of the MYC transcription factor have been difficult to define and target. Using a structure/function-based approach, we identified the mitochondrial RNA polymerase (POLRMT) locus as a critical downstream target of MYC. The multifunctional POLRMT enzyme controls mitochondrial gene expression, a process required both for mitochondrial function and mitochondrial biogenesis. We further demonstrate that inhibition of this newly defined MYC effector pathway causes robust and selective tumor cell apoptosis, via an acute, checkpoint-like mechanism linked to aberrant electron transport chain complex assembly and mitochondrial reactive oxygen species (ROS) production. Fortuitously, MYC-dependent tumor cell death can be induced by inhibiting the mitochondrial gene expression pathway using a variety of strategies, including treatment with FDA-approved antibiotics. In vivo studies using a mouse model of Burkitt's Lymphoma provide pre-clinical evidence that these antibiotics can successfully block progression of MYC-dependent tumors.
Highlights
IntroductionThe MYC transcription factor regulates expression of several thousand genes in order to drive cell cycle progression and malignant transformation [2, 3]
Overexpression of the c-MYC oncogene occurs in most human cancers [1]
Mice treated with tigecycline simultaneous with tumor cell inoculation retained a constant and normal number of white blood cells, whereas control mice displayed a steady increase in white blood cell count, reflecting lymphoma progression (Figure 6B)
Summary
The MYC transcription factor regulates expression of several thousand genes in order to drive cell cycle progression and malignant transformation [2, 3] Among this array of MYC targets, it remains unclear which genes play an essential role in malignant transformation. They may provide an understanding of which cellular pathways and processes MYC regulates to reprogram www.impactjournals.com/oncotarget cellular physiology These targets may serve as points of therapeutic intervention in the face of our historic inability to target MYC directly. To address this knowledge gap, we previously performed a structurefunction based screen to identify MYC targets linked to malignant transformation [4]. Among the genes identified by this screen was that encoding the mitochondrial RNA polymerase (POLRMT), known as mtRNAP
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