Yasunori Mori scite author profile

Targeted gene disruption studies have established that the c-Jun NH2-terminal kinase (JNK) is required for the stress-induced release of mitochondrial cytochrome c and apoptosis, and that the Bax subfamily of Bcl-2-related proteins is essential for JNK-dependent apoptosis. However, the mechanism by which JNK regulates Bax has remained unsolved. Here we demonstrate that activated JNK promotes Bax translocation to mitochondria through phosphorylation of 14-3-3, a cytoplasmic anchor of Bax. Phosphorylation of 14-3-3 led to dissociation of Bax from this protein. Expression of phosphorylation-defective mutants of 14-3-3 blocked JNK-induced Bax translocation to mitochondria, cytochrome c release and apoptosis. Collectively, these results have revealed a key mechanism of Bax regulation in stress-induced apoptosis

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Akt Inhibits the Orphan Nuclear Receptor Nur77 and T-cell Apoptosis

Masuyama¹,

Oishi²,

Mori³

et al. 2001

Journal of Biological Chemistry

140

125

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Akt is a common mediator of cell survival in a variety of circumstances. Although some candidate Akt targets have been described, the function of Akt is not fully understood, particularly because of the cell type-and context-dependent apoptosis regulation. In this study, we demonstrate that one of the mechanisms by which Akt antagonizes apoptosis involves the inhibition of Nur77, a transcription factor implicated in T-cell receptor-mediated apoptosis. It has been suggested that Akt phosphorylates Nur77 directly, but whether Akt suppresses biological functions of Nur77 remains unknown. We found that Akt inhibited the DNA binding activity of Nur77 and stimulated its association with 14-3-3 in a phosphorylation site-dependent manner. Moreover, we found that expression of Akt suppressed Nur77-induced apoptosis in fibroblasts and activation-induced cell death of T-cell hybridomas. The inhibition of Nur77 by Akt suggests a mechanism that explains how T-cell receptor activation can promote survival in some instances even when Nur77 is induced. Collectively, these results may suggest that Akt is a negative regulator of Nur77 in T-cell apoptosis.

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Hidden proteome of synaptic vesicles in the mammalian brain

Taoufiq

Ninov

Villar‐Briones

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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Current proteomic studies clarified canonical synaptic proteins that are common to many types of synapses. However, proteins of diversified functions in a subset of synapses are largely hidden because of their low abundance or structural similarities to abundant proteins. To overcome this limitation, we have developed an “ultra-definition” (UD) subcellular proteomic workflow. Using purified synaptic vesicle (SV) fraction from rat brain, we identified 1,466 proteins, three times more than reported previously. This refined proteome includes all canonical SV proteins, as well as numerous proteins of low abundance, many of which were hitherto undetected. Comparison of UD quantifications between SV and synaptosomal fractions has enabled us to distinguish SV-resident proteins from potential SV-visitor proteins. We found 134 SV residents, of which 86 are present in an average copy number per SV of less than one, including vesicular transporters of nonubiquitous neurotransmitters in the brain. We provide a fully annotated resource of all categorized SV-resident and potential SV-visitor proteins, which can be utilized to drive novel functional studies, as we characterized here Aak1 as a regulator of synaptic transmission. Moreover, proteins in the SV fraction are associated with more than 200 distinct brain diseases. Remarkably, a majority of these proteins was found in the low-abundance proteome range, highlighting its pathological significance. Our deep SV proteome will provide a fundamental resource for a variety of future investigations on the function of synapses in health and disease.

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Small GTPase Rab17 Regulates Dendritic Morphogenesis and Postsynaptic Development of Hippocampal Neurons

Mori

Matsui

Furutani

et al. 2012

Journal of Biological Chemistry

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Background: Rab-type small GTPases are conserved membrane trafficking proteins in all eukaryotes. Results: Knockdown of Rab17 in mouse hippocampal neurons results in a marked reduction in the number of dendritic branches and total dendrite length. Conclusion: Rab17 regulates dendritic morphogenesis and postsynaptic development in hippocampal neurons. Significance: Our findings reveal the first molecular link between membrane trafficking and dendritogenesis.

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Rabex-5 Protein Regulates Dendritic Localization of Small GTPase Rab17 and Neurite Morphogenesis in Hippocampal Neurons

Mori

Matsui²,

Fukuda

2013

Journal of Biological Chemistry

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Background: Small GTPase Rab17 regulates dendritic morphogenesis of hippocampal neurons, but its activation mechanism is completely unknown. Results: Expression of Rabex-5 in mouse hippocampal neurons promoted dendritic localization of Rab17, and Rabex-5 knockdown resulted in inhibition of neurite morphogenesis. Conclusion: Rabex-5 regulates neurite morphogenesis by activating Rab5 and Rab17. Significance: Our findings revealed a crucial role of Rabex-5 and its targets in neuronal development.

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Yasunori Mori

JNK promotes Bax translocation to mitochondria through phosphorylation of 14-3-3 proteins

Akt Inhibits the Orphan Nuclear Receptor Nur77 and T-cell Apoptosis

Hidden proteome of synaptic vesicles in the mammalian brain

Small GTPase Rab17 Regulates Dendritic Morphogenesis and Postsynaptic Development of Hippocampal Neurons

Rabex-5 Protein Regulates Dendritic Localization of Small GTPase Rab17 and Neurite Morphogenesis in Hippocampal Neurons

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