Gruening 2011 Cell Metab: Difference between revisions
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GrΓΌning NM, Rinnerthaler M, Bluemlein K, MΓΌlleder M, Wamelink MM, Lehrach H, Jakobs C, Breitenbach M, Ralser M (2011) Pyruvate kinase triggers a metabolic feedback loop that controls redox metabolism in respiring cells. Cell Metab 14: 415-427. |
Β» PMID: 21907146; PDF
GrΓΌning NM, Rinnerthaler M, Bluemlein K, MΓΌlleder M, Wamelink MM, Lehrach H, Jakobs C, Breitenbach M, Ralser M. (2011) Cell Metab
Abstract: In proliferating cells, a transition from aerobic to anaerobic metabolism is known as the Warburg effect, whose reversal inhibits cancer cell proliferation. Studying its regulator pyruvate kinase (PYK) in yeast, we discovered that central metabolism is self-adapting to synchronize redox metabolism when respiration is activated. Low PYK activity activated yeast respiration. However, levels of reactive oxygen species (ROS) did not increase, and cells gained resistance to oxidants. This adaptation was attributable to accumulation of the PYK substrate phosphoenolpyruvate (PEP). PEP acted as feedback inhibitor of the glycolytic enzyme triosephosphate isomerase (TPI). TPI inhibition stimulated the pentose phosphate pathway, increased antioxidative metabolism, and prevented ROS accumulation. Thus, a metabolic feedback loop, initiated by PYK, mediated by its substrate and acting on TPI, stimulates redox metabolism in respiring cells. Originating from a single catalytic step, this autonomous reconfiguration of central carbon metabolism prevents oxidative stress upon shifts between fermentation and respiration. β’ Keywords: Warburg effect; pyruvate kinase; triosephosphate isomerase; reactive oxygen species
Labels:
Organism: Yeast; Fungi"Yeast; Fungi" is not in the list (Human, Pig, Mouse, Rat, Guinea pig, Bovines, Horse, Dog, Rabbit, Cat, ...) of allowed values for the "Mammal and model" property.
HRR: Oxygraph-2k