[PDF][PDF] ATF4 regulates MYC-mediated neuroblastoma cell death upon glutamine deprivation

G Qing, B Li, A Vu, N Skuli, ZE Walton, X Liu, PA Mayes… - Cancer cell, 2012 - cell.com
G Qing, B Li, A Vu, N Skuli, ZE Walton, X Liu, PA Mayes, DR Wise, CB Thompson, JM Maris
Cancer cell, 2012cell.com
Oncogenic Myc alters mitochondrial metabolism, making it dependent on exogenous
glutamine (Gln) for cell survival. Accordingly, Gln deprivation selectively induces apoptosis
in MYC-overexpressing cells via unknown mechanisms. Using MYCN-amplified
neuroblastoma as a model, we identify PUMA, NOXA, and TRB3 as executors of Gln-starved
cells. Gln depletion in MYC-transformed cells induces apoptosis through ATF4-dependent,
but p53-independent, PUMA and NOXA induction. MYC-transformed cells depend on both …
Summary
Oncogenic Myc alters mitochondrial metabolism, making it dependent on exogenous glutamine (Gln) for cell survival. Accordingly, Gln deprivation selectively induces apoptosis in MYC-overexpressing cells via unknown mechanisms. Using MYCN-amplified neuroblastoma as a model, we identify PUMA, NOXA, and TRB3 as executors of Gln-starved cells. Gln depletion in MYC-transformed cells induces apoptosis through ATF4-dependent, but p53-independent, PUMA and NOXA induction. MYC-transformed cells depend on both glutamate-oxaloacetate transaminase and glutamate dehydrogenase to maintain Gln homeostasis and suppress apoptosis. Consequently, either ATF4 agonists or glutaminolysis inhibitors potently induce apoptosis in vitro and inhibit tumor growth in vivo. These results reveal mechanisms whereby Myc sensitizes cells to apoptosis, and validate ATF4 agonists and inhibitors of Gln metabolism as potential Myc-selective cancer therapeutics.
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