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  • SK channel-mediated metabolic escape to glycolysis inhibits ferroptosis and supports stress resistance in C. elegans.

SK channel-mediated metabolic escape to glycolysis inhibits ferroptosis and supports stress resistance in C. elegans.

Cell death & disease (2020-04-25)
Inge E Krabbendam, Birgit Honrath, Benjamin Dilberger, Eligio F Iannetti, Robyn S Branicky, Tammo Meyer, Bernard Evers, Frank J Dekker, Werner J H Koopman, Julien Beyrath, Daniele Bano, Martina Schmidt, Barbara M Bakker, Siegfried Hekimi, Carsten Culmsee, Gunter P Eckert, Amalia M Dolga
摘要

Metabolic flexibility is an essential characteristic of eukaryotic cells in order to adapt to physiological and environmental changes. Especially in mammalian cells, the metabolic switch from mitochondrial respiration to aerobic glycolysis provides flexibility to sustain cellular energy in pathophysiological conditions. For example, attenuation of mitochondrial respiration and/or metabolic shifts to glycolysis result in a metabolic rewiring that provide beneficial effects in neurodegenerative processes. Ferroptosis, a non-apoptotic form of cell death triggered by an impaired redox balance is gaining attention in the field of neurodegeneration. We showed recently that activation of small-conductance calcium-activated K+ (SK) channels modulated mitochondrial respiration and protected neuronal cells from oxidative death. Here, we investigated whether SK channel activation with CyPPA induces a glycolytic shift thereby increasing resilience of neuronal cells against ferroptosis, induced by erastin in vitro and in the nematode C. elegans exposed to mitochondrial poisons in vivo. High-resolution respirometry and extracellular flux analysis revealed that CyPPA, a positive modulator of SK channels, slightly reduced mitochondrial complex I activity, while increasing glycolysis and lactate production. Concomitantly, CyPPA rescued the neuronal cells from ferroptosis, while scavenging mitochondrial ROS and inhibiting glycolysis reduced its protection. Furthermore, SK channel activation increased survival of C. elegans challenged with mitochondrial toxins. Our findings shed light on metabolic mechanisms promoted through SK channel activation through mitohormesis, which enhances neuronal resilience against ferroptosis in vitro and promotes longevity in vivo.

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D -(+)-葡萄糖, ≥99.5% (GC)
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5-氟-2′-脱氧尿嘧啶核苷, thymidylate synthase inhibitor
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制霉菌素悬浮液, suspension, 10,000 unit/mL in DPBS, BioReagent, suitable for cell culture
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D -(+)-半乳糖, ≥99% (HPLC)
BRAND® 96 孔微孔板,U 形底, round bottom, non-sterile
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四甲基罗丹明乙酯高氯酸盐, suitable for fluorescence, ≥90% (HPCE)
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四甲基罗丹明甲酯高氯酸盐, ≥95%
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CyPPA, ≥98% (HPLC), solid