Skip to Content
Merck
  • HIF1α Suppresses Tumor Cell Proliferation through Inhibition of Aspartate Biosynthesis.

HIF1α Suppresses Tumor Cell Proliferation through Inhibition of Aspartate Biosynthesis.

Cell reports (2019-02-28)
Florinda Meléndez-Rodríguez, Andrés A Urrutia, Doriane Lorendeau, Gianmarco Rinaldi, Olga Roche, Nuray Böğürcü-Seidel, Marta Ortega Muelas, Claudia Mesa-Ciller, Guillermo Turiel, Antonio Bouthelier, Pablo Hernansanz-Agustín, Ainara Elorza, Elia Escasany, Qilong Oscar Yang Li, Mar Torres-Capelli, Daniel Tello, Esther Fuertes, Enrique Fraga, Antonio Martínez-Ruiz, Belen Pérez, Jose Miguel Giménez-Bachs, Antonio S Salinas-Sánchez, Till Acker, Ricardo Sánchez Prieto, Sarah-Maria Fendt, Katrien De Bock, Julián Aragonés
ABSTRACT

Cellular aspartate drives cancer cell proliferation, but signaling pathways that rewire aspartate biosynthesis to control cell growth remain largely unknown. Hypoxia-inducible factor-1α (HIF1α) can suppress tumor cell proliferation. Here, we discovered that HIF1α acts as a direct repressor of aspartate biosynthesis involving the suppression of several key aspartate-producing proteins, including cytosolic glutamic-oxaloacetic transaminase-1 (GOT1) and mitochondrial GOT2. Accordingly, HIF1α suppresses aspartate production from both glutamine oxidation as well as the glutamine reductive pathway. Strikingly, the addition of aspartate to the culture medium is sufficient to relieve HIF1α-dependent repression of tumor cell proliferation. Furthermore, these key aspartate-producing players are specifically repressed in VHL-deficient human renal carcinomas, a paradigmatic tumor type in which HIF1α acts as a tumor suppressor, highlighting the in vivo relevance of these findings. In conclusion, we show that HIF1α inhibits cytosolic and mitochondrial aspartate biosynthesis and that this mechanism is the molecular basis for HIF1α tumor suppressor activity.