Loss of forebrain MTCH2 decreases mitochondria motility and calcium handling and impairs hippocampal-dependent cognitive functions

Antonella Ruggiero; Etay Aloni; Eduard Korkotian; Yehudit Zaltsman; Efrat Oni-Biton; Yael Kuperman; Michael Tsoory; Liat Shachnai; Smadar Levin-Zaidman; Ori Brenner; Menahem Segal; Atan Gross

doi:10.1038/srep44401

Loss of forebrain MTCH2 decreases mitochondria motility and calcium handling and impairs hippocampal-dependent cognitive functions

Antonella Ruggiero, Etay Aloni, Eduard Korkotian, Yehudit Zaltsman, Efrat Oni-Biton, Yael Kuperman, Michael Tsoory, Liat Shachnai, Smadar Levin-Zaidman, Ori Brenner, Menahem Segal, Atan Gross

Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

Mitochondrial Carrier Homolog 2 (MTCH2) is a novel regulator of mitochondria metabolism, which was recently associated with Alzheimer's disease. Here we demonstrate that deletion of forebrain MTCH2 increases mitochondria and whole-body energy metabolism, increases locomotor activity, but impairs motor coordination and balance. Importantly, mice deficient in forebrain MTCH2 display a deficit in hippocampus-dependent cognitive functions, including spatial memory, long term potentiation (LTP) and rates of spontaneous excitatory synaptic currents. Moreover, MTCH2-deficient hippocampal neurons display a deficit in mitochondria motility and calcium handling. Thus, MTCH2 is a critical player in neuronal cell biology, controlling mitochondria metabolism, motility and calcium buffering to regulate hippocampal-dependent cognitive functions.

Original language	English
Article number	44401
Journal	Scientific Reports
Volume	7
DOIs	https://doi.org/10.1038/srep44401
State	Published - 9 Mar 2017

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Ruggiero, A., Aloni, E., Korkotian, E., Zaltsman, Y., Oni-Biton, E., Kuperman, Y., Tsoory, M., Shachnai, L., Levin-Zaidman, S., Brenner, O., Segal, M., & Gross, A. (2017). Loss of forebrain MTCH2 decreases mitochondria motility and calcium handling and impairs hippocampal-dependent cognitive functions. Scientific Reports, 7, Article 44401. https://doi.org/10.1038/srep44401

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abstract = "Mitochondrial Carrier Homolog 2 (MTCH2) is a novel regulator of mitochondria metabolism, which was recently associated with Alzheimer's disease. Here we demonstrate that deletion of forebrain MTCH2 increases mitochondria and whole-body energy metabolism, increases locomotor activity, but impairs motor coordination and balance. Importantly, mice deficient in forebrain MTCH2 display a deficit in hippocampus-dependent cognitive functions, including spatial memory, long term potentiation (LTP) and rates of spontaneous excitatory synaptic currents. Moreover, MTCH2-deficient hippocampal neurons display a deficit in mitochondria motility and calcium handling. Thus, MTCH2 is a critical player in neuronal cell biology, controlling mitochondria metabolism, motility and calcium buffering to regulate hippocampal-dependent cognitive functions.",

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AU - Ruggiero, Antonella

AU - Aloni, Etay

AU - Korkotian, Eduard

AU - Zaltsman, Yehudit

AU - Oni-Biton, Efrat

AU - Kuperman, Yael

AU - Tsoory, Michael

AU - Shachnai, Liat

AU - Levin-Zaidman, Smadar

AU - Brenner, Ori

AU - Segal, Menahem

AU - Gross, Atan

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N2 - Mitochondrial Carrier Homolog 2 (MTCH2) is a novel regulator of mitochondria metabolism, which was recently associated with Alzheimer's disease. Here we demonstrate that deletion of forebrain MTCH2 increases mitochondria and whole-body energy metabolism, increases locomotor activity, but impairs motor coordination and balance. Importantly, mice deficient in forebrain MTCH2 display a deficit in hippocampus-dependent cognitive functions, including spatial memory, long term potentiation (LTP) and rates of spontaneous excitatory synaptic currents. Moreover, MTCH2-deficient hippocampal neurons display a deficit in mitochondria motility and calcium handling. Thus, MTCH2 is a critical player in neuronal cell biology, controlling mitochondria metabolism, motility and calcium buffering to regulate hippocampal-dependent cognitive functions.

AB - Mitochondrial Carrier Homolog 2 (MTCH2) is a novel regulator of mitochondria metabolism, which was recently associated with Alzheimer's disease. Here we demonstrate that deletion of forebrain MTCH2 increases mitochondria and whole-body energy metabolism, increases locomotor activity, but impairs motor coordination and balance. Importantly, mice deficient in forebrain MTCH2 display a deficit in hippocampus-dependent cognitive functions, including spatial memory, long term potentiation (LTP) and rates of spontaneous excitatory synaptic currents. Moreover, MTCH2-deficient hippocampal neurons display a deficit in mitochondria motility and calcium handling. Thus, MTCH2 is a critical player in neuronal cell biology, controlling mitochondria metabolism, motility and calcium buffering to regulate hippocampal-dependent cognitive functions.

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Loss of forebrain MTCH2 decreases mitochondria motility and calcium handling and impairs hippocampal-dependent cognitive functions

Abstract

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