Mitochondrial calcium uptake declines during aging and is directly activated by oleuropein to boost energy metabolism and skeletal muscle performance

Gherardi, G., Weiser, A., Bermont, F., Migliavacca, E., Brinon, B., Jacot, G., Hermant, A., Sturlese, M., Nogara, L., Vascon, F., Mario, A.D., Mattarei, A., Garratt, E., Burton, M.A., Lillycrop, K.A., Godfrey, K.M., Cendron, L., Barron, D., Moro, S., &amp; Blaauw, B. (2024). Mitochondrial calcium uptake declines during aging and is directly activated by oleuropein to boost energy metabolism and skeletal muscle performance. <em>Cell Metabolism</em>. https://doi.org/10.1016/j.cmet.2024.10.021

Gherardi G, Weiser A, Bermont F, Migliavacca E, Brinon B, Jacot G, et al. Mitochondrial calcium uptake declines during aging and is directly activated by oleuropein to boost energy metabolism and skeletal muscle performance. Cell Metabolism. 2024. doi:10.1016/j.cmet.2024.10.021.

@article{gaia2024Mitoch, title = {Mitochondrial calcium uptake declines during aging and is directly activated by oleuropein to boost energy metabolism and skeletal muscle performance}, author = {Gaia Gherardi and Anna Weiser and Flavien Bermont and Eugenia Migliavacca and Benjamin Brinon and Guillaume Jacot and Aurélie Hermant and Mattia Sturlese and Leonardo Nogara and Filippo Vascon and Agnese De Mario and Andrea Mattarei and Emma Garratt and Mark A. Burton and Karen A. Lillycrop and Keith M. Godfrey and Laura Cendron and Denís Barron and Stefano Moro and Bert Blaauw and Rosario Rizzuto and Jérôme N. Feige and Cristina Mammucari and Umberto De Marchi}, journal = {Cell Metabolism}, year = {2024}, doi = {10.1016/j.cmet.2024.10.021}, }