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Coenzyme Q distribution within the cell is regulated by mitochondria
Antioxidants are often advertised as a cure-all in nutrition and offered as dietary supplements. However, our body also produces such radical scavengers itself, one of which is coenzyme Q. Now researchers from the Max Planck Institute for Biology of Ageing have discovered how the substance, which is produced in our mitochondria, reaches the cell surface and protects our cells from dying.
Coenzyme Q is an antioxidant that is essential for our body. A deficiency of coenzyme Q leads to serious diseases such as Leigh syndrome - a hereditary disease in which certain brain regions become affected and, among other things, muscle weakness can occur. A deficiency of coenzyme Q is also one of the first signs of ageing and can occur as early as the early 20s. But why can't we simply take this substance in with our food?
Highly hydrophobic
"Coenzyme Q is a highly hydrophobic molecule that our bodies absorb very little from food," explains Soni Deshwal, scientist at the Max Planck Institute for Biology of Aging and lead author of the study. But it is also a problem in our cells that coenzyme Q is not water soluble. The antioxidant is formed in mitochondria and must pass through the watery cell interior called cytoplasm to the surface of the cells in order to neutralize oxidized lipid species.
“With our research, we have now been able to identify the proteins involved in coenzyme Q transport from the mitochondria to the cell surface”, explains Deshwal. The researchers found that an enzyme called STARD7 helps transport the coenzyme. This protein is not only localized in the mitochondria, but also inside the cytoplasm.
Band-aids for the cell surface
“The mitochondria actively transport coenzyme Q to the cell surface to protect cells from cell death. It is as if the mitochondria deliver band-aids to the surface to protect the cell”, says Deshwal. "This again shows that mitochondria are not only important as an energy supplier for our cells, but also play crucial regulatory roles."
In the long term, the researchers hope that a precise understanding of this transport process will enable Coenzyme Q to be delivered into the cells of affected patients and thus provide a new therapeutic approach for diseases such as Leigh syndrome.
Soni Deshwal, PhD
Max Planck Institute for Biology of Aging, Cologne
E-mail: Soni.Deshwal@age.mpg.de
Soni Deshwal, Mashun Onishi, Takashi Tatsuta, Tim Bartsch, Eileen Cors, Katharina Ried, Kathrin Lemke, Hendrik Nolte, Patrick Giavalisco, Thomas Langer
Mitochondria regulate intracellular coenzyme Q transport and
ferroptotic resistance via STARD7
Nature Cell Biology, 19. Januar 2023
https://www.nature.com/articles/s41556-022-01071-y
https://www.age.mpg.de/healthy-ageing/faq
https://www.age.mpg.de/science/research-laboratories/langer
The enzyme STARD7 (green) helps mitochondria (red) to transport Coenzyme Q to protect cells from cel ...
S. Deshwal/ Max-Planck-Institut für Biologie des Alterns
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The enzyme STARD7 (green) helps mitochondria (red) to transport Coenzyme Q to protect cells from cel ...
S. Deshwal/ Max-Planck-Institut für Biologie des Alterns
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