Muscarinic acetylcholine receptors are prototypical G protein-coupled receptors (GPCRs), members of a large family of 7 transmembrane receptors mediating a wide variety of extracellular signals. We show here, in cultured cells and in a murine model, that the carboxyl terminal fragment of the muscarinic M2 receptor, comprising the transmembrane regions 6 and 7 (M2tail), is expressed by virtue of an internal ribosome entry site localized in the third intracellular loop. Single-cell imaging and import in isolated yeast mitochondria reveals that M2tail, whose expression is up-regulated in cells undergoing integrated stress response, does not follow the normal route to the plasma membrane, but is almost exclusively sorted to the mitochondria inner membrane: here, it controls oxygen consumption, cell proliferation, and the formation of reactive oxygen species (ROS) by reducing oxidative phosphorylation. Crispr/Cas9 editing of the key methionine where cap-independent translation begins in human-induced pluripotent stem cells (hiPSCs), reveals the physiological role of this process in influencing cell proliferation and oxygen consumption at the endogenous level. The expression of the C-terminal domain of a GPCR, capable of regulating mitochondrial function, constitutes a hitherto unknown mechanism notably unrelated to its canonical signaling function as a GPCR at the plasma membrane. This work thus highlights a potential novel mechanism that cells may use for controlling their metabolism under variable environmental conditions, notably as a negative regulator of cell respiration.The muscarinic M2 receptor is a prototypical G-protein-coupled receptor that mediates a wide range of extracellular signals. These authors show that the C-terminal fragment of M2 localizes to the mitochondrial inner membrane and is upregulated upon stress exposure, reducing cellular respiration and ROS to protect cells against variable environmental conditions.
The C-terminus of the prototypical M2 muscarinic receptor localizes to the mitochondria and regulates cell respiration under stress conditions / Fasciani, Irene; Petragnano, Francesco; Wang, Ziming; Edwards, Ruairidh; Telugu, Narasimha; Pietrantoni, Ilaria; Zabel, Ulrike; Zauber, Henrik; Grieben, Marlies; Terzenidou, Maria E.; Di Gregorio, Jacopo; Pellegrini, Cristina; Santini, Silvano; Taddei, Anna R.; Pohl, Bärbel; Aringhieri, Stefano; Carli, Marco; Aloisi, Gabriella; Marampon, Francesco; Charlesworth, Eve; Roman, Alexandra; Diecke, Sebastian; Flati, Vincenzo; Giorgi, Franco; Amicarelli, Fernanda; Tobin, Andrew B.; Scarselli, Marco; Tokatlidis, Kostas; Rossi, Mario; Lohse, Martin J.; Annibale, Paolo; Maggio, Roberto. - In: PLOS BIOLOGY. - ISSN 1545-7885. - 22:4(2024). [10.1371/journal.pbio.3002582]
The C-terminus of the prototypical M2 muscarinic receptor localizes to the mitochondria and regulates cell respiration under stress conditions
Di Gregorio, Jacopo;Marampon, Francesco;Annibale, Paolo;
2024
Abstract
Muscarinic acetylcholine receptors are prototypical G protein-coupled receptors (GPCRs), members of a large family of 7 transmembrane receptors mediating a wide variety of extracellular signals. We show here, in cultured cells and in a murine model, that the carboxyl terminal fragment of the muscarinic M2 receptor, comprising the transmembrane regions 6 and 7 (M2tail), is expressed by virtue of an internal ribosome entry site localized in the third intracellular loop. Single-cell imaging and import in isolated yeast mitochondria reveals that M2tail, whose expression is up-regulated in cells undergoing integrated stress response, does not follow the normal route to the plasma membrane, but is almost exclusively sorted to the mitochondria inner membrane: here, it controls oxygen consumption, cell proliferation, and the formation of reactive oxygen species (ROS) by reducing oxidative phosphorylation. Crispr/Cas9 editing of the key methionine where cap-independent translation begins in human-induced pluripotent stem cells (hiPSCs), reveals the physiological role of this process in influencing cell proliferation and oxygen consumption at the endogenous level. The expression of the C-terminal domain of a GPCR, capable of regulating mitochondrial function, constitutes a hitherto unknown mechanism notably unrelated to its canonical signaling function as a GPCR at the plasma membrane. This work thus highlights a potential novel mechanism that cells may use for controlling their metabolism under variable environmental conditions, notably as a negative regulator of cell respiration.The muscarinic M2 receptor is a prototypical G-protein-coupled receptor that mediates a wide range of extracellular signals. These authors show that the C-terminal fragment of M2 localizes to the mitochondrial inner membrane and is upregulated upon stress exposure, reducing cellular respiration and ROS to protect cells against variable environmental conditions.| File | Dimensione | Formato | |
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