5 years ago

Dual role of mitochondria in producing melatonin and driving GPCR signaling to block cytochrome c release [Cell Biology]

Dual role of mitochondria in producing melatonin and driving GPCR signaling to block cytochrome c release [Cell Biology]
Diane L. Carlisle, Franck Suzenet, Ralf Jockers, Samuel M. Poloyac, Timothy R. Lezon, Jiaoying Jia, Jean–Pierre Vilardaga, Jiatong Li, Frederic G. Jean–Alphonse, Mara Sullivan, R. Mark Richardson, Yalikun Suofu, Nicolas K. Khattar, Lisa M. Ferrando, Svitlana Yablonska, Timothy M. Larkin, Paula A. Witt–Enderby, Giulietta Di Benedetto, Eric S. Kretz, Sergei V. Baranov, M. Beth Minnigh, Matthew J. Gable, Amanda C. Mihalik, Xiaomin Wang, Oxana V. Baranova, Brianna E. Heath, Donna B. Stolz, Erika Cecon, Jingȷing Wang, Wei Li, Robert M. Friedlander, JinHo Kim, Vanessa L. Wehbi, Yanqing He, Gerald Guillaumet, Daniela Leronni

G protein-coupled receptors (GPCRs) are classically characterized as cell-surface receptors transmitting extracellular signals into cells. Here we show that central components of a GPCR signaling system comprised of the melatonin type 1 receptor (MT1), its associated G protein, and β-arrestins are on and within neuronal mitochondria. We discovered that the ligand melatonin is exclusively synthesized in the mitochondrial matrix and released by the organelle activating the mitochondrial MT1 signal-transduction pathway inhibiting stress-mediated cytochrome c release and caspase activation. These findings coupled with our observation that mitochondrial MT1 overexpression reduces ischemic brain injury in mice delineate a mitochondrial GPCR mechanism contributing to the neuroprotective action of melatonin. We propose a new term, “automitocrine,” analogous to “autocrine” when a similar phenomenon occurs at the cellular level, to describe this unexpected intracellular organelle ligand–receptor pathway that opens a new research avenue investigating mitochondrial GPCR biology.

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