M. Celeste Simon scite author profile

Several mitochondrial proteins are tumor suppressors. These include succinate dehydrogenase (SDH) and fumarate hydratase, both enzymes of the tricarboxylic acid (TCA) cycle. However, to date, the mechanisms by which defects in the TCA cycle contribute to tumor formation have not been elucidated. Here we describe a mitochondrion-to-cytosol signaling pathway that links mitochondrial dysfunction to oncogenic events: succinate, which accumulates as a result of SDH inhibition, inhibits HIF-alpha prolyl hydroxylases in the cytosol, leading to stabilization and activation of HIF-1alpha. These results suggest a mechanistic link between SDH mutations and HIF-1alpha induction, providing an explanation for the highly vascular tumors that develop in the absence of VHL mutations.

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The tumor microenvironment

Anderson

2020

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Cellular adaptation to hypoxia through hypoxia inducible factors and beyond

Lee

Chandel

Simon

2020

Nat Rev Mol Cell Biol

768

613

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Molecular oxygen (O 2) sustains intracellular bioenergetics and is consumed by numerous biochemical reactions, making it essential for most species on Earth. Accordingly, decreased O 2 concentrations (hypoxia) is a major stressor that generally subverts life of aerobic species and is a prominent feature of pathological states encountered in bacterial infection, inflammation, wounds, cardiovascular defects, and cancer. Therefore, key adaptive mechanisms to cope with hypoxia have evolved in mammals. Systemically, these adaptations include increased ventilation, cardiac output, blood vessel growth, and circulating red blood cell numbers. On a cellular level, ATP consuming reactions are suppressed and metabolism is altered until oxygen homeostasis is restored. A critical question is how mammalian cells sense O 2 levels to coordinate diverse biological outputs during hypoxia. The best studied mechanism of response to hypoxia involves hypoxia inducible factors (HIFs), which are stabilized by low oxygen availability and control the expression of a multitude of genes, including those involved in cell survival, angiogenesis, glycolysis, and invasion/ metastasis. Importantly, changes in O 2 can also be sensed via other stress pathways as well as changes in metabolite levels and the generation of reactive oxygen species (ROS) by mitochondria. Collectively, this leads to cellular adaptations of protein synthesis, energy metabolism, mitochondrial respiration, lipid and carbon metabolism as well as nutrient acquisition. These mechanisms are integral inputs into fine tuning the responses to hypoxic stress.

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M. Celeste Simon

Succinate links TCA cycle dysfunction to oncogenesis by inhibiting HIF-α prolyl hydroxylase

The tumor microenvironment

Cellular adaptation to hypoxia through hypoxia inducible factors and beyond

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