Hisae Sumi scite author profile

2 ␤) is considered to play a role in signal transduction and maintenance of homeostasis or remodeling of membrane phospholipids. A role of iPLA 2 ␤ has been suggested in various physiological and pathological processes, including immunity, chemotaxis, and cell death, but the details remain unclear. Accordingly, we investigated mice with targeted disruption of the iPLA 2 ␤ gene. iPLA 2 ␤ Ϫ/Ϫ mice developed normally and grew to maturity, but all showed evidence of severe motor dysfunction, including a hindlimb clasping reflex during tail suspension, abnormal gait, and poor performance in the hanging wire grip test. Neuropathological examination of the nervous system revealed widespread degeneration of axons and/or synapses, accompanied by the presence of numerous spheroids (swollen axons) and vacuoles. These findings provide evidence that impairment of iPLA 2 ␤ causes neuroaxonal degeneration, and indicate that the iPLA 2 ␤ Ϫ/Ϫ mouse is an appropriate animal model of human neurodegenerative diseases associated with mutations of the iPLA 2 ␤ gene, such as infantile neuroaxonal dystrophy and neurodegeneration with brain iron accumulation.

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Benefit of valproic acid in suppressing disease progression of ALS model mice

Sugai

Yamamoto

Miyaguchi

et al. 2004

Eur J of Neuroscience

199

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Valproic acid (VPA) has long been used as an antiepileptic drug and recently as a mood stabilizer, and evidence is increasing that VPA exerts neuroprotective effects through changes in a variety of intracellular signalling pathways including upregulation of Bcl-2 protein with an antiapoptotic property and inhibiting glycogen synthase kinase 3-beta, which is considered to promote cell survival. Although the neuroprotective effects of VPA have been demonstrated in a murine model of human immunodeficiency virus-1 encephalitis, there have been no reports on the effect of VPA in chronic progressing neurodegenerative disease models including amyotrophic lateral sclerosis (ALS). ALS is a devastating disease selectively affecting motoneurons, and its disease model mice bear a close resemblance to ALS symptomatically and pathologically. First, we used an organotypic slice culture using mouse spinal cord, and showed that VPA protected spinal motoneurons against death from glutamate toxicity in vitro. Then, we treated ALS model mice with VPA at the dose effective level for epileptic model mice after 45 days of age (pre-onset treatment) or the day of the disease onset (post-onset treatment). We found a significant prolongation of the disease duration in ALS model mice in both methods of treatment. Considering the long usage of VPA for epileptic patients with good tolerance and safety, these data strongly support the clinical application of VPA for ALS treatment.

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Synchrotron FTIR micro-spectroscopy for structural analysis of Lewy bodies in the brain of Parkinson’s disease patients

Araki

Yagi

Ikemoto

et al. 2015

Sci Rep

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Lewy bodies (LBs), which mainly consist of α-synuclein (α-syn), are neuropathological hallmarks of patients with Parkinson’s disease (PD). The fine structure of LBs is unknown, and LBs cannot be made artificially. Nevertheless, many studies have described fibrillisation using recombinant α-syn purified from E. coli. An extremely fundamental problem is whether the structure of LBs is the same as that of recombinant amyloid fibrils. Thus, we used synchrotron Fourier transform infrared micro-spectroscopy (FTIRM) to analyse the fine structure of LBs in the brain of PD patients. Our results showed a shift in the infrared spectrum that indicates abundance of a β-sheet-rich structure in LBs. Also, 2D infrared mapping of LBs revealed that the content of the β-sheet structure is higher in the halo than in the core, and the core contains a large amount of proteins and lipids.

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Hepatoma-derived Growth Factor Is a Neurotrophic Factor Harbored in the Nucleus

Zhou

Yamamoto

Sugai

et al. 2004

Journal of Biological Chemistry

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Hepatoma-derived growth factor (HDGF) is a heparinbinding proliferating factor originally isolated from conditioned medium of the hepatoma-derived cell line HuH-7. HDGF has greatest homology in an amino acid sequence with high mobility group 1 (HMG1), which has been characterized as a DNA-binding, inflammatory, and potent neurite outgrowth molecule. HDGF is reported to be widely expressed and act as a growth factor in many kinds of cells. However, it has not been investigated in the nervous system. Here, we show by Western blot analysis that HDGF is present in the mouse brain from the embryonic period until adulthood. In situ hybridization and immunohistochemical analyses revealed that HDGF was expressed mainly in neurons, and HDGF protein was localized to the nucleus. HDGF and high mobility group 1 were secreted under physiological conditions and released extracellularly in necrotic conditions. Furthermore, we showed that exogenously supplied HDGF had a neurotrophic effect and was able to partially prevent the cell death of neurons in which endogenous HDGF was suppressed. Therefore, we propose that HDGF is a novel type of neurotrophic factor, on account of its localization in the nucleus and its potential to function in an autocrine manner under both physiological and pathological conditions throughout life.

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Reduction of metallothioneins promotes the disease expression of familial amyotrophic lateral sclerosis mice in a dose‐dependent manner

Nagano

Satoh

Sumi

et al. 2001

Eur J of Neuroscience

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We previously reported that abnormal copper release from mutated Cu, Zn-superoxide dismutase (SOD1) proteins might be a common toxic gain-of-function in the pathogenesis of familial amyotrophic lateral sclerosis (FALS) [Ogawa et al. (1997) Biochem. Biophys. Res. Commun., 241, 251-257.]. In the present study, we first examined metallothioneins (MTs), known to bind copper ions and decrease oxidative toxicity, and found a twofold increase in MTs in the spinal cord of the SOD1 transgenic mice with a FALS-linked mutation (G93A), but not in the spinal cord of wild-type SOD1 transgenic mice. We then investigated whether the clinical course of FALS mice could be modified by the reduced expression of MTs, by crossing the FALS mice with MT-I- and MT-II-deficient mice. FALS mice clearly reached the onset of clinical signs and death significantly earlier in response to the reduction of protein expression. These results indicated that the copper-mediated free radical generation derived from mutant SOD1 might be related to the degeneration of motor neurons in FALS and that MTs might play a protective role against the expression of the disease.

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Hisae Sumi

Neuroaxonal Dystrophy Caused by Group VIA Phospholipase A₂Deficiency in Mice: A Model of Human Neurodegenerative Disease

Benefit of valproic acid in suppressing disease progression of ALS model mice

Synchrotron FTIR micro-spectroscopy for structural analysis of Lewy bodies in the brain of Parkinson’s disease patients

Hepatoma-derived Growth Factor Is a Neurotrophic Factor Harbored in the Nucleus

Reduction of metallothioneins promotes the disease expression of familial amyotrophic lateral sclerosis mice in a dose‐dependent manner

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Hisae Sumi

Neuroaxonal Dystrophy Caused by Group VIA Phospholipase A2Deficiency in Mice: A Model of Human Neurodegenerative Disease

Benefit of valproic acid in suppressing disease progression of ALS model mice

Synchrotron FTIR micro-spectroscopy for structural analysis of Lewy bodies in the brain of Parkinson’s disease patients

Hepatoma-derived Growth Factor Is a Neurotrophic Factor Harbored in the Nucleus

Reduction of metallothioneins promotes the disease expression of familial amyotrophic lateral sclerosis mice in a dose‐dependent manner

Contact Info

Product

Resources

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Neuroaxonal Dystrophy Caused by Group VIA Phospholipase A₂Deficiency in Mice: A Model of Human Neurodegenerative Disease