おもろい研究!君ならできる、ここでできる|新しい生物学・生命科学を拓く大学院|大阪大学大学院生命機能研究科

English

Loss of the i-AAA protease YME1L leads to progressive axonal degeneration and locomotor impairment in mice
Hans-Georg Sprenger (University of Cologne, Germany)

日時

2017年7月31日(月)17:00~18:00

場所

吹田キャンパス 生命機能研究科 生命システム棟2階 セミナー室

演者

Hans-Georg Sprenger(University of Cologne, Germany)

演題

Loss of the i-AAA protease YME1L leads to progressive axonal degeneration and locomotor impairment in mice

要旨

Homozygous mutation in the gene coding for the mitochondrial i-AAA protease YME1L causes a mitochondriopathy associated with neurological dysfunction in humans. Several neurological diseases have been linked to a failure in mitochondrial proteostasis and mitochondrial network fragmentation. As recently shown in cultured cells and in the adult mouse heart, the two inner mitochondrial membrane metalloproteases YME1L and OMA1 cleave the dynamin-like GTPase OPA1 to balance mitochondrial fusion and fission. The long, unprocessed form of OPA1 (L-OPA1) is sufficient to mediate fusion and preserve cristae morphogenesis, whereas cleavage of L-OPA1 and the subsequent formation of short forms of OPA1 (S-OPA1) limits fusion and promotes mitochondrial fragmentation. The loss of YME1L activates OMA1, triggering stress-induced OPA1 processing and fragmentation of the mitochondrial network, and increasing the susceptibility to cell death. In addition to its role in regulating mitochondrial dynamics, YME1L has been implicated in a number of different processes where it participates in regulatory turnover and fulfills quality control functions by degrading misfolded and damaged proteins. In this study, we establish a novel mouse model lacking YME1L in the nervous system and demonstrate that a loss of YME1L leads to progressive axonal degeneration and locomotor impairment combined with mitochondrial trafficking defects. Surprisingly, our data suggest that these phenotypes are in fact independent of stress-induced OPA1 processing. This study contributes to the understanding of disease mechanisms caused by disturbed mitochondrial proteostasis and provides novel insight into the role of YME1L in neurodegenerative processes.

世話人

岡本浩二


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http://www.fbs.osaka-u.ac.jp/jpn/seminar/seminar/docs/fbs-seminar-okamoto-20170731.pdf