Mitochondria are key organelles for brain health. Rossi et al. show that, in different Alzheimer's disease cell models, lower mitochondrial Ca2+ signal and pyruvate uptake reduce ATP synthesis. GSK-3β hyper-activation contributes to the defect by impairing HK1-mitochondria association, decreasing MPC2 levels and destabilizing MPC complexes. Defective bioenergetics affects neuronal functionality.

Rossi, A., Rigotto, G., Valente, G., Giorgio, V., Basso, E., Filadi, R., Pizzo, P., Defective Mitochondrial Pyruvate Flux Affects Cell Bioenergetics in Alzheimer's Disease-Related Models, <<CELL REPORTS>>, 2020; 30 (7): 2332-2348.e10. [doi:10.1016/j.celrep.2020.01.060] [https://hdl.handle.net/10807/306251]

Defective Mitochondrial Pyruvate Flux Affects Cell Bioenergetics in Alzheimer's Disease-Related Models

Valente, Giustina;Giorgio, Valentina;Basso, Enrico;
2020

Abstract

Mitochondria are key organelles for brain health. Rossi et al. show that, in different Alzheimer's disease cell models, lower mitochondrial Ca2+ signal and pyruvate uptake reduce ATP synthesis. GSK-3β hyper-activation contributes to the defect by impairing HK1-mitochondria association, decreasing MPC2 levels and destabilizing MPC complexes. Defective bioenergetics affects neuronal functionality.
2020
Inglese
Rossi, A., Rigotto, G., Valente, G., Giorgio, V., Basso, E., Filadi, R., Pizzo, P., Defective Mitochondrial Pyruvate Flux Affects Cell Bioenergetics in Alzheimer's Disease-Related Models, <<CELL REPORTS>>, 2020; 30 (7): 2332-2348.e10. [doi:10.1016/j.celrep.2020.01.060] [https://hdl.handle.net/10807/306251]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10807/306251
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