The ER chaperone calnexin controls mitochondrial positioning and respiration

The ER chaperone calnexin controls mitochondrial positioning and respiration

Chaperones in the endoplasmic reticulum (ER) control the flux of Ca2+ ions into mitochondria, thereby increasing or decreasing the energetic output of the oxidative phosphorylation pathway. An example is the abundant ER lectin calnexin, which interacts with sarco/endoplasmic reticulum Ca2+ ATPase (S...

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Veröffentlicht in:Science signaling 2020-06, Vol.13 (638), Article 6660
Hauptverfasser: Gutierrez, Tomas, Qi, Hong, Yap, Megan C., Tahbaz, Nasser, Milburn, Leanne A., Lucchinetti, Eliana, Lou, Phing-How, Zaugg, Michael, LaPointe, Paul G., Mercier, Pascal, Overduin, Michael, Bischof, Helmut, Burgstaller, Sandra, Malli, Roland, Ballanyi, Klaus, Shuai, Jianwei, Simmen, Thomas
Format: Artikel
Sprache:eng
Schlagworte:
Adenosine triphosphatase
Apposition
Biochemistry & Molecular Biology
Bioenergetics
Ca2+-transporting ATPase
Calcium (reticular)
Calcium influx
Calcium ions
Calnexin
Cell Biology
Chaperones
Electron transport
Endoplasmic reticulum
Energy balance
Glycolysis
Life Sciences & Biomedicine
Mitochondria
Oxidative phosphorylation
Phosphorylation
Redox properties
Respiration
Science & Technology
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Zusammenfassung:Chaperones in the endoplasmic reticulum (ER) control the flux of Ca2+ ions into mitochondria, thereby increasing or decreasing the energetic output of the oxidative phosphorylation pathway. An example is the abundant ER lectin calnexin, which interacts with sarco/endoplasmic reticulum Ca2+ ATPase (SERCA). We found that calnexin stimulated the ATPase activity of SERCA by maintaining its redox state. This function enabled calnexin to control how much ER Ca2+ was available for mitochondria, a key determinant for mitochondrial bioenergetics. Calnexin-deficient cells compensated for the loss of this function by partially shifting energy generation to the glycolytic pathway. These cells also showed closer apposition between the ER and mitochondria. Calnexin therefore controls the cellular energy balance between oxidative phosphorylation and glycolysis.
ISSN:1945-0877
1937-9145
DOI:10.1126/scisignal.aax6660