126 results on '"Masatoshi Inden"'
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2. The neuroprotective effects of FG-4592, a hypoxia-inducible factor-prolyl hydroxylase inhibitor, against oxidative stress induced by alpha-synuclein in N2a cells
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Ayaka Fujimaki, Kazuki Ohuchi, Shinnosuke Takizawa, Takanori Murakami, Hisaka Kurita, Isao Hozumi, Xiaopeng Wen, Yoshihisa Kitamura, Zhiliang Wu, Yoichi Maekawa, and Masatoshi Inden
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Medicine ,Science - Abstract
Abstract Parkinson’s disease (PD) is a neurodegenerative disorder characterized by the loss of dopaminergic neurons in the substantia nigra. The pathological hallmark of PD is the appearance of intraneuronal cytoplasmic α-synuclein (α-Syn) aggregation, called Lewy bodies. α-Syn aggregation is deeply involved in the pathogenesis of PD. Oxidative stress is also associated with the progression of PD. In the present study, to investigate whether a hypoxia-inducible factor (HIF)-prolyl hydroxylase (PH) inhibitor, FG-4592 (also called roxadustat), has neuroprotective effects against α-Syn-induced neurotoxicity, we employed a novel α-Syn stably expressing cell line (named α-Syn-N2a cells) utilizing a piggyBac transposon system. In α-Syn-N2a cells, oxidative stress and cell death were induced by α-Syn, and FG-4592 showed significant protection against this neurotoxicity. However, FG-4592 did not affect α-Syn protein levels. FG-4592 triggered heme oxygenase-1 (HO-1) expression downstream of HIF-1α in a concentration-dependent manner. In addition, FG-4592 decreased the production of reactive oxygen species possibly via the activation of HO-1 and subsequently suppressed α-Syn-induced neurotoxicity. Moreover, FG-4592 regulated mitochondrial biogenesis and respiration via the induction of the peroxisome proliferator-activated receptor-γ coactivator-1α. As FG-4592 has various neuroprotective effects against α-Syn and is involved in drug repositioning, it may have novel therapeutic potential for PD.
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- 2023
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3. Characteristics and therapeutic potential of sodium-dependent phosphate cotransporters in relation to idiopathic basal ganglia calcification
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Masatoshi Inden, Hisaka Kurita, and Isao Hozumi
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Idiopathic basal ganglia calcification (IBGC) ,Sodium-dependent phosphate cotransporter ,PiT1 ,PiT2 ,Inorganic phosphate (Pi) ,Therapeutics. Pharmacology ,RM1-950 - Abstract
Type-III sodium-dependent phosphate transporters 1 and 2 (PiT 1 and PiT 2, respectively) are proteins encoded by SLC20A1 and SLC20A2, respectively. The ubiquitous distribution of SLC20A1 and SLC20A2 mRNAs in mammalian tissues supports the housekeeping maintenance and homeostasis of intracellular inorganic phosphate (Pi), which is absorbed from interstitial fluid for normal cellular functions. SLC20A2 variants have been found in patients with idiopathic basal ganglia calcification (IBGC), also known as Fahr's disease or primary familial brain calcification (PFBC). Thus, disrupted Pi homeostasis is considered one of the major factors in the pathogenic mechanism of IBGC. In this paper, among the causative genes of IBGC, we focused specifically on PiT2, and its potential for a therapeutic target of IBGC.
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- 2022
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4. The neuroprotective effects of activated α7 nicotinic acetylcholine receptor against mutant copper–zinc superoxide dismutase 1-mediated toxicity
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Taisei Ito, Masatoshi Inden, Tomoyuki Ueda, Yuta Asaka, Hisaka Kurita, and Isao Hozumi
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Medicine ,Science - Abstract
Abstract Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease characterized by the selective and progressive loss of motor neurons. Although many drugs have entered clinical trials, few have shown effectiveness in the treatment of ALS. Other studies have shown that the stimulation of α7 nicotinic acetylcholine receptor (nAChR) can have neuroprotective effects in some models of neurodegenerative disease, as well as prevent glutamate-induced motor neuronal death. However, the effect of α7 nAChR agonists on ALS-associated mutant copper–zinc superoxide dismutase 1 (SOD1) aggregates in motor neurons remains unclear. In the present study, we examined whether α7 nAChR activation had a neuroprotective effect against SOD1G85R-induced toxicity in a cellular model for ALS. We found that α7 nAChR activation by PNU282987, a selective agonist of α7 nAChR, exhibited significant neuroprotective effects against SOD1G85R-induced toxicity via the reduction of intracellular protein aggregates. This reduction also correlated with the activation of autophagy through the AMP-activated protein kinase (AMPK)–mammalian target of rapamycin (mTOR) signaling pathway. Furthermore, the activation of α7 nAChRs was found to increase the biogenesis of lysosomes by inducing translocation of the transcription factor EB (TFEB) into the nucleus. These results support the therapeutic potential of α7 nAChR activation in diseases that are characterized by SOD1G85R aggregates, such as ALS.
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- 2020
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5. Neuroprotective effects of 5-aminolevulinic acid against neurodegeneration in rat models of Parkinson's disease and stroke
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Masanori Hijioka, Kanori Kitamura, Daijiro Yanagisawa, Kaneyasu Nishimura, Kazuyuki Takata, Masatoshi Inden, and Yoshihisa Kitamura
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5-Aminolevulinic acid ,Neuroprotection ,Oxidative stress ,Therapeutics. Pharmacology ,RM1-950 - Abstract
Oxidative stress is associated with the progression of the neurodegenerative diseases Parkinson's disease (PD) and cerebral ischemia. Recently, 5-aminolevulinic acid (5-ALA), an intermediate in the porphyrin synthesis pathway, was reported to exert antioxidative effects on macrophages and cardiomyocytes. Here, we demonstrated the neuroprotective effects of 5-ALA using rat models of PD and ischemia as well as in vitro in SH-SY5Y cells. 5-ALA partially prevented neurodegeneration in each condition. These results suggest that 5-ALA has a potential for promising therapeutic agent to protect against neurodegeneration exacerbated by oxidative stress.
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- 2020
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6. Stem Cells From Human Exfoliated Deciduous Teeth-Conditioned Medium (SHED-CM) is a Promising Treatment for Amyotrophic Lateral Sclerosis
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Tomoyuki Ueda, Taisei Ito, Masatoshi Inden, Hisaka Kurita, Akihito Yamamoto, and Isao Hozumi
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amyotrophic lateral sclerosis ,copper-zinc superoxide dismutase 1 ,stem cells from human exfoliated deciduous teeth ,induced pluripotent stem cells ,aggregation ,Therapeutics. Pharmacology ,RM1-950 - Abstract
Amyotrophic lateral sclerosis (ALS) is a neurodegenerative disorder, characterized by the loss of upper and lower motor neurons, for which an effective treatment has yet to be developed. Previous reports have shown that excessive oxidative stress, related to mitochondrial dysfunction and the accumulation of misfolding protein, contributes to ALS pathology. In terms of treatment, it remains necessary to identify effective medicines for multiple therapeutic targets and have additive effects against several disorders. In this study, we investigated stem cells from human exfoliated deciduous teeth (SHED), which release many factors, such as neurotrophic factors and cytokines, and are applied to treat neurological diseases. Specifically, we examined whether SHED-conditioned medium (CM), i.e., the serum-free culture supernatant of SHED, reduced mutant SOD1-induced intracellular aggregates and neurotoxicity. We found that SHED-CM significantly suppressed the mutant SOD1-induced intracellular aggregates and neurotoxicity. The neuroprotective effects of SHED-CM are partly related to heat shock protein and the activation of insulin-like growth factor-1 receptor. SHED-CM also had a protective effect on induced pluripotent stem cell-derived motor neurons. Moreover, SHED-CM was effective against not only familial ALS but also sporadic ALS. Overall, these results suggest that SHED-CM could be a promising treatment for slowing the progression of ALS.
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- 2022
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7. Neuropsychiatric Adverse Events of Montelukast: An Analysis of Real-World Datasets and drug−gene Interaction Network
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Ryogo Umetsu, Mizuki Tanaka, Yoko Nakayama, Yamato Kato, Natsumi Ueda, Yuri Nishibata, Shiori Hasegawa, Kiyoka Matsumoto, Noriaki Takeyama, Kazuhiro Iguchi, Hiroyuki Tanaka, Eiichi Hinoi, Naoki Inagaki, Masatoshi Inden, Yoshinori Muto, and Mitsuhiro Nakamura
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montelukast ,neuropsychiatric adverse events ,food and drug administration adverse event reporting system ,drug-gene intraction ,protein-protein interaction ,enrichment analysis ,Therapeutics. Pharmacology ,RM1-950 - Abstract
Montelukast is a selective leukotriene receptor antagonist that is widely used to treat bronchial asthma and nasal allergy. To clarify the association between montelukast and neuropsychiatric adverse events (AEs), we evaluated case reports recorded between January 2004 and December 2018 in the Food and Drug Administration Adverse Event Reporting System (FAERS). Furthermore, we elucidated the potential toxicological mechanisms of montelukast-associated neuropsychiatric AEs through functional enrichment analysis of human genes interacting with montelukast. The reporting odds ratios of suicidal ideation and depression in the system organ class of psychiatric disorders were 21.5 (95% confidence interval (CI): 20.3–22.9) and 8.2 (95% CI: 7.8–8.7), respectively. We explored 1,144 human genes that directly or indirectly interact with montelukast. The molecular complex detection (MCODE) plug-in of Cytoscape detected 14 clusters. Functional analysis indicated that several genes were significantly enriched in the biological processes of “neuroactive ligand–receptor interaction.” “Mood disorders” and “major depressive disorder” were significant disease terms related to montelukast. Our retrospective analysis based on the FAERS demonstrated a significant association between montelukast and neuropsychiatric AEs. Functional enrichment analysis of montelukast-associated genes related to neuropsychiatric symptoms warrant further research on the underlying pharmacological mechanisms.
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- 2021
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8. Characteristics and Therapeutic Potential of Dental Pulp Stem Cells on Neurodegenerative Diseases
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Tomoyuki Ueda, Masatoshi Inden, Taisei Ito, Hisaka Kurita, and Isao Hozumi
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dental pulp stem cells ,stem cells from human exfoliated deciduous teeth ,conditioned medium ,neurodegenerative disease ,cell therapy ,Neurosciences. Biological psychiatry. Neuropsychiatry ,RC321-571 - Abstract
To evaluate the therapeutic potential of stem cells for neurodegenerative diseases, emphasis should be placed on clarifying the characteristics of the various types of stem cells. Among stem cells, dental pulp stem cells (DPSCs) are a cell population that is rich in cell proliferation and multipotency. It has been reported that transplantation of DPSCs has protective effects against models of neurodegenerative diseases. The protective effects are not only through differentiation into the target cell type for the disease but are also related to trophic factors released from DPSCs. Recently, it has been reported that serum-free culture supernatant of dental pulp stem cell-conditioned medium (DPCM) contains various trophic factors and cytokines and that DPCM is effective for models of neurodegenerative diseases such as Alzheimer’s disease (AD), Parkinson’s disease (PD), and Amyotrophic Lateral Sclerosis (ALS). Moreover, the use of stem cells from human exfoliated deciduous teeth (SHEDs) has been considered. SHEDs are derived from deciduous teeth that have been disposed of as medical waste. SHEDs have higher differentiation capacity and proliferation ability than DPSCs. In addition, the serum-free culture supernatant of SHEDs (SHED-CM) contains more trophic factors, cytokines, and biometals than DPCM and also promotes neuroprotection. The neuroprotective effect of DPSCs, including those from deciduous teeth, will be used as the seeds of therapeutic drugs for neurodegenerative diseases. SHEDs will be used for further cell therapy of neurodegenerative diseases in the future. In this paper, we focused on the characteristics of DPSCs and their potential for neurodegenerative diseases.
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- 2020
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9. Induced pluripotent stem cells derived from a patient with familial idiopathic basal ganglia calcification (IBGC) caused by a mutation in SLC20A2 gene
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Shin-ichiro Sekine, Takayuki Kondo, Nagahisa Murakami, Keiko Imamura, Takako Enami, Ran Shibukawa, Kayoko Tsukita, Misato Funayama, Masatoshi Inden, Hisaka Kurita, Isao Hozumi, and Haruhisa Inoue
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Biology (General) ,QH301-705.5 - Abstract
Idiopathic basal ganglia calcification (IBGC), also known as Fahr disease or primary familial brain calcifications (PFBC), is a rare neurodegenerative disorder characterized by calcium deposits in basal ganglia and other brain regions, causing neuropsychiatric and motor symptoms. We established human induced pluripotent stem cells (iPSCs) from an IBGC patient. The established IBGC-iPSCs carried SLC20A2 c.1848G>A mutation (p.W616* of translated protein PiT2), and also showed typical iPSC morphology, pluripotency markers, normal karyotype, and the ability of in vitro differentiation into three-germ layers. The iPSC line will be useful for further elucidating the pathomechanism and/or drug development for IBGC.
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- 2017
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10. Neuroprotective effect of 5-aminolevulinic acid against low inorganic phosphate in neuroblastoma SH-SY5Y cells
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Naoko Takase, Masatoshi Inden, Shin-ichiro Sekine, Yumi Ishii, Hiroko Yonemitsu, Wakana Iwashita, Hisaka Kurita, Yutaka Taketani, and Isao Hozumi
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Medicine ,Science - Abstract
Abstract PiT-1 (encoded by SLC20A1) and PiT-2 (encoded by SLC20A2) are type-III sodium-dependent phosphate cotransporters (NaPiTs). Recently, SLC20A2 mutations have been found in patients with idiopathic basal ganglia calcification (IBGC), and were predicted to bring about an inability to transport Pi from the extracellular environment. Here we investigated the effect of low Pi loading on the human neuroblastoma SH-SY5Y and the human glioblastoma A172 cell lines. The results show a different sensitivity to low Pi loading and differential regulation of type-III NaPiTs in these cells. We also examined whether 5-aminolevulinic acid (5-ALA) inhibited low Pi loading-induced neurotoxicity in SH-SY5Y cells. Concomitant application of 5-ALA with low Pi loading markedly attenuated low Pi-induced cell death and mitochondrial dysfunction via the induction of HO-1 by p38 MAPK. The findings provide us with novel viewpoints to understand the pathophysiology of IBGC, and give a new insight into the clinical prevention and treatment of IBGC.
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- 2017
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11. The effects of Brazilian green propolis that contains flavonols against mutant copper-zinc superoxide dismutase-mediated toxicity
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Tomoyuki Ueda, Masatoshi Inden, Katsuhiro Shirai, Shin-ichiro Sekine, Yuji Masaki, Hisaka Kurita, Kenji Ichihara, Takashi Inuzuka, and Isao Hozumi
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Medicine ,Science - Abstract
Abstract Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease characterized by the selective and progressive loss of motor neurons. The purpose of this study was to clarify effects of brazilian green propolis and the active ingredient against ALS-associated mutant copper-zinc superoxide dismutase (SOD1)-mediated toxicity. Ethanol extract of brazilian green propolis (EBGP) protected N2a cells against mutant SOD1-induced neurotoxicity and reduced aggregated mutant SOD1 by induction of autophagy. Kaempferide and kaempferol, the active ingredients of EBGP, also inhibited mutant SOD1-induced cell death and reduced the intracellular mutant SOD1 aggregates. Both kaempferide and kaempferol significantly suppressed mutant SOD1-induced superoxide in mitochondria. Western blot analysis showed that kaempferol potentially induced autophagy via the AMP-activated protein kinase (AMPK) - the mammalian target of rapamycin (mTOR) pathway. These results suggest that EBGP containing the active ingredient against mutant SOD1-mediated toxicity is a promising medicine or health food for prevention and treatment of ALS.
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- 2017
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12. Effect of Selective Serotonin Reuptake Inhibitors via 5-HT1A Receptors on L-DOPA-Induced Rotational Behavior in a Hemiparkinsonian Rat Model
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Masatoshi Inden, Mari Abe, Hideaki Minamino, Kazuyuki Takata, Kanji Yoshimoto, Ikuo Tooyama, and Yoshihisa Kitamura
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Therapeutics. Pharmacology ,RM1-950 - Abstract
l-Dihydroxyphenylalanine (l-DOPA) is considered the gold standard for the treatment of Parkinson’s disease (PD). However, long-term administration of l-DOPA can induce abnormal side effects. On the other hand, selective serotonin reuptake inhibitors (SSRIs) including fluoxetine have gained tremendous popularity in the treatment of depression in PD. SSRIs are thought to influence motor function in PD via pharmacological modification of interactions between serotonergic and dopaminergic networks, which are complex and not yet fully understand. In this study, intranigral injection of 6-hydroxydopamine (6-OHDA) in rats caused a significant loss of tyrosine hydroxylase immunoreactivity in the striatum and substantia nigra. However, tryptophan hydroxylase immunoreactivity of the striatum and raphe nucleus was unaffected by 6-OHDA. Immunohistochemical analysis reveal that the serotonergic system was unaffected by the injection of 6-OHDA. We demonstrated also that pre-treatment with fluoxetine significantly suppressed l-DOPA-induced rotational behavior. Additionally, fluoxetine suppressed l-DOPA-induced ERK1/2 and histone H3 phosphorylation. These effects of fluoxetine were abolished by pre-treatment with WAY 100135, a 5-HT1A antagonist. These results suggest that fluoxetine may influence motor function in PD via pharmacological modification of interactions between serotonergic and dopaminergic neuronal networks. Keywords:: Parkinson’s disease, selective serotonin reuptake inhibitor, fluoxetine, l-dihydroxyphenylalanine, 6-hydroxydopamine
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- 2012
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13. Protection Against Dopaminergic Neurodegeneration in Parkinson’s Disease–Model Animals by a Modulator of the Oxidized Form of DJ-1, a Wild-type of Familial Parkinson’s Disease–Linked PARK7
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Masatoshi Inden, Yoshihisa Kitamura, Kazunori Takahashi, Kazuyuki Takata, Natsuko Ito, Rina Niwa, Risa Funayama, Kaneyasu Nishimura, Takashi Taniguchi, Toshio Honda, Takahiro Taira, and Hiroyoshi Ariga
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Therapeutics. Pharmacology ,RM1-950 - Abstract
Abstract.: DJ-1, Parkinson’s disease PARK7, acts as an oxidative stress sensor in neural cells. Recently, we identified the DJ-1 modulator UCP0054278 by in silico virtual screening. However, the effect of the peripheral administration of UCP0054278 on an in vivo Parkinson’s disease (PD) model is unclear. Therefore, in the present study, we examined the effects of the peripheral administration of UCP0054278 on both 6-OHDA–microinjected rats and rotenone-treated mice as acute and chronic animal models of PD, respectively. The peripheral administration of UCP0054278 prevented 6-OHDA–and rotenone-induced dopaminergic neural cell death and restored the defect in locomotion in these models of PD. In addition, 6-OHDA–or rotenone-induced neural cell death and the production of reactive oxygen species were significantly inhibited by UCP0054278 in normal SH-SY5Y cells, but not in DJ-1–knockdown cells. These results suggest that UCP0054278 interacts with endogenous DJ-1 and then produces antioxidant and neuroprotective responses in both in vivo and in vitro models of PD. The present study raises the possibility that DJ-1 stimulatory modulators, such as UCP0054278, may be a new type of dopaminergic neuroprotective drug for the treatment of PD. Keywords:: Parkinson’s disease, DJ-1, 6-hydroxydopamine, rotenone, neuroprotection
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- 2011
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14. PARK7 DJ-1 protects against degeneration of nigral dopaminergic neurons in Parkinson’s disease rat model
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Masatoshi Inden, Takahiro Taira, Yoshihisa Kitamura, Takashi Yanagida, Daiju Tsuchiya, Kazuyuki Takata, Daijiro Yanagisawa, Kaneyasu Nishimura, Takashi Taniguchi, Yoshiaki Kiso, Kanji Yoshimoto, Tomohiro Agatsuma, Shizuyo Koide-Yoshida, Sanae M.M. Iguchi-Ariga, Shun Shimohama, and Hiroyoshi Ariga
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DJ-1 ,Parkinson’s disease ,Oxidative stress ,Cell death ,Reactive oxygen species ,Neurosciences. Biological psychiatry. Neuropsychiatry ,RC321-571 - Abstract
DJ-1 has recently been shown to be responsible for onset of familial Parkinson’s disease (PD), PARK7. DJ-1 has been shown to play roles in transcriptional regulation and anti-oxidative stress, and loss of its function is thought to trigger onset of PD. In this study, a recombinant DJ-1 protein was administrated into the brain of PD model rats that had been injected to 6-hydroxydopamine (6-OHDA) in the left substantia nigra. PD phenotypes, including dopaminergic neuron death in the substantia nigra, decrease in dopamine, and dopamine transporter levels in the striatum, and motor abnormality, were dramatically improved by wild-type DJ-1 but not L166P DJ-1, a mutant form of DJ-1 found in PD patients. Furthermore, production of reactive oxygen species and cell death induced by 6-OHDA in SH-SY5Y cells and mesencephalic neurons were inhibited by addition of the recombinant DJ-1. These findings suggest that DJ-1 is a therapeutic target for PD.
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- 2006
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15. Distribution of DJ-1, Parkinson’s Disease-Related Protein PARK7, and Its Alteration in 6-Hydroxydopamine-Treated Hemiparkinsonian Rat Brain
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Takashi Yanagida, Kazuyuki Takata, Masatoshi Inden, Yoshihisa Kitamura, Takashi Taniguchi, Kanji Yoshimoto, Takahiro Taira, and Hiroyoshi Ariga
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Therapeutics. Pharmacology ,RM1-950 - Abstract
DJ-1 has multiple functions and its dysfunction may be linked to the onset of familial Parkinson’s disease PARK7. However, the function and distribution of DJ-1 is unclear. In this study, we determined DJ-1 distribution and change after intranigral injection of 6-hydroxydopamine (6-OHDA). Although distribution of DJ-1 immunoreactivity was not changed in cerebral cortex and striatum, 6-OHDA caused increase of DJ-1 in the particulate fraction and decrease in the cytosolic fraction in substantia nigra. At that time, DJ-1 shifted to acid forms. These results suggest that distributional changes, translocation, and acidic shift of DJ-1 may be compensatory responses to protect against 6-OHDA-induced oxidative stress. Keywords:: DJ-1, 6-hydroxydopamine, Parkinson’s disease
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- 2006
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16. Recovery of Focal Brain Ischemia-Induced Behavioral Dysfunction by Intracerebroventricular Injection of Microglia
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Yoshihisa Kitamura, Daijiro Yanagisawa, Masatoshi Inden, Kazuyuki Takata, Daiju Tsuchiya, Toshiyuki Kawasaki, Takashi Taniguchi, and Shun Shimohama
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Therapeutics. Pharmacology ,RM1-950 - Abstract
The function of microglia in the brain parenchyma is not fully understood. Occlusion of the middle cerebral artery (MCA) and reperfusion caused behavioral dysfunction with massive neuronal loss in the rat cerebral cortex and striatum. When exogenous microglia were microinjected into the intracerebroventricle (i.c.v.) during MCA occlusion, focal ischemia-induced behavioral dysfunction was significantly inhibited. At that time, many microglia migrated into the ischemic lesion, and microglia-derived neuron-like cells were barely detectable. These results suggest that exogenous microglia protect against focal ischemia-induced neurodegeneration and improve behavioral dysfunction. Keywords:: behavioral recovery, microglia, focal brain ischemia
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- 2005
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17. Proteasome Inhibitors Protect Against Degeneration of Nigral Dopaminergic Neurons in Hemiparkinsonian Rats
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Masatoshi Inden, Jun-ichi Kondo, Yoshihisa Kitamura, Kazuyuki Takata, Kaneyasu Nishimura, Takashi Taniguchi, Hideyuki Sawada, and Shun Shimohama
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Therapeutics. Pharmacology ,RM1-950 - Abstract
Parkinson’s disease is characterized by dopaminergic neuronal death and the presence of Lewy bodies in the substantia nigra pars compacta (SNpc). α-Synuclein and ubiquitin are components of Lewy bodies, but the process of Lewy body formation and the relationship between inclusion formation and dopaminergic neuronal death have not been resolved. In this study, unilateral intranigral microinjection of 6-hydroxydopamine caused a significant loss of tyrosine hydroxylase-immunopositive neurons in both the substantia nigra and striatum and apomorphine-induced contralateral rotation. The co-administration of proteasome inhibitors, such as lactacystin or carbobenzoxy-L-leucyl-L-leucyl-L-leucinal (MG-132), significantly prevented both dopaminergic neurodegeneration and apomorphine-induced rotational asymmetry. Proteasome inhibitors markedly formed intracellular protein inclusions labeled by thioflavin-S in the SNpc. Inclusion-like immunoreactivities for α-synuclein and ubiquitin were detected after 4 weeks. These results suggest that proteasome plays an important role in both the early phase of dopaminergic neuronal death and inclusion body formation. Keywords:: proteasome inhibitor, neuroprotection, dopaminergic neuron, substantia nigra, Parkinson’s disease
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- 2005
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18. Intracerebroventricular Injection of Microglia Protects Against Focal Brain Ischemia
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Yoshihisa Kitamura, Kazuyuki Takata, Masatoshi Inden, Daiju Tsuchiya, Daijiro Yanagisawa, Junko Nakata, and Takashi Taniguchi
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Therapeutics. Pharmacology ,RM1-950 - Abstract
Microglia are macrophage-like phagocytic cells in the brain parenchyma. However, microglial function after neurodegeneration is not fully understood. In this study, occlusion of the middle cerebral artery (MCA) and reperfusion caused massive neuronal loss in the rat cerebral cortex and striatum after 3 days. When exogenous microglia were microinjected into the intracerebroventricle during MCA occlusion, neurodegenerative areas significantly decreased. At that time, migrated microglia were detected in the ischemic lesion. These results suggest that exogenous microglia can migrate into brain parenchyma and then protect against neurodegeneration induced by MCA occlusion and reperfusion. Keywords:: microglia, neuroprotection, focal brain ischemia
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- 2004
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19. Pharmacological Characteristics of Rotational Behavior in Hemiparkinsonian Rats Transplanted With Mouse Embryonic Stem Cell-Derived Neurons
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Masatoshi Inden, Dohoon Kim, Yuanjin Gu, Yoshihisa Kitamura, Jun-ichi Kondo, Daiju Tsuchiya, Takashi Taniguchi, Shun Shimohama, Akinori Akaike, Shoichiro Sumi, and Kazutomo Inoue
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Therapeutics. Pharmacology ,RM1-950 - Abstract
Embryonic stem (ES) cells have many of the characteristics of an optimal cell source for cell-replacement therapy. Although the usefulness of the in vitro generation of dopamine (DA)-neural precursors from ES cells has been widely discussed, functional recovery in animal models of Parkinson’s disease is not fully understood. In 6-hydroxydopamine-lesioned rats, apomorphine markedly induced contralateral rotation. Apomorphine-induced rotation was significantly reduced by transplantation of neuron-like cells that had differentiated from mouse ES cells using nicotinamide, but not L-lysine. In addition, methamphetamine-induced ipsilateral rotation was significantly reduced. On the other hand, picrotoxin did not inhibit apomorphine-induced rotational asymmetry. Fluoxetine alone and fenfluramine alone induced slight contralateral rotation and rotation in both directions, respectively, and these effects were similar in transplanted rats. Although immunoreactivity for tyrosine hydroxylase (TH) was almost completely lost in the ipsilateral striatum in hemiparkinsonian rats, TH immunoreactivity was detected in transplanted cells and sprouting fibers. In contrast, immunoreactivities for γ-aminobutyric acid (GABA) and serotonin (5-HT) neurons were not changed. These results suggest that improvement of rotational behavior may be induced predominantly by transplantation of nicotinamide-treated ES cell-derived DA neurons, rather than by changes in the activities of GABA or 5-HT neural systems, in hemiparkinsonian rats. Keywords:: mouse embryonic stem cell, dopaminergic differentiation, transplantation, rat striatum, Parkinson’s disease
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- 2004
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20. Possible Involvement of Both Endoplasmic Reticulumand Mitochondria-Dependent Pathways in Thapsigargin-Induced Apoptosis in Human Neuroblastoma SH-SY5Y Cells
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Yoshihisa Kitamura, Atsushi Miyamura, Kazuyuki Takata, Masatoshi Inden, Daiju Tsuchiya, Kumi Nakamura, and Takashi Taniguchi
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Therapeutics. Pharmacology ,RM1-950 - Abstract
Recently, it has been shown that endoplasmic reticulum (ER) stress causes apoptosis. However, the mechanism of the ER stress-dependent pathway is not fully understood. In human neuroblastoma SH-SY5Y cells, we detected a caspase-12-like protein that has a molecular mass (approximately 60 kDa) similar to that of mouse caspase-12. Thapsigargin, an inhibitor of ER-associated Ca2+-ATPase, induced the degradation of caspase-12-like protein. In addition, the degradation of caspases-9 and -3, cleavage of poly(ADP-ribose) polymerase, DNA fragmentation, and cell death were also observed. Pretreatment with phorbol-12-myristate-13-acetate, which induces the expression of antiapoptotic Bcl-2, inhibited thapsigargin-induced degradation of caspases-9 and -3, but not caspase-12-like protein degradation. A caspase inhibitor, benzyloxycarbonyl-Val-Ala-Asp(OCH3)-CH2F, inhibited the degradation of caspase-12-like protein, but not that of caspases-9 and -3. These results suggest that thapsigargin may induce the activation of both ER- and mitochondria-dependent pathways in human SH-SY5Y cells.
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- 2003
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21. Inhibitory Effects of Antiparkinsonian Drugs and Caspase Inhibitors in a Parkinsonian Flatworm Model
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Yoshihisa Kitamura, Masatoshi Inden, Hisakazu Sanada, Kazuyuki Takata, Takashi Taniguchi, Shun Shimohama, Hidehumi Orii, Makoto Mochii, Kiyokazu Agata, and Kenji Watanabe
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Therapeutics. Pharmacology ,RM1-950 - Abstract
It has been known that rotenone and 1-methyl-4-phenylpyridinium ion (MPP+, a metabolite of MPTP), which inhibit mitochondrial complex I, are useful tools for parkinsonian models in vertebrates such as primates and rodents. Planarian, an invertebrate flatworm, has a high potential for regeneration, and dopamine plays a key role in its behavior. In the present study, we examined a cloned planarian, the GI strain from Dugesia japonica. Planarians that were treated with rotenone or MPTP underwent autolysis and individual death in a concentration- and time-dependent manner. In addition, these effects induced by rotenone or MPTP were inhibited by several antiparkinsonian drugs and caspase inhibitors. These results suggest that the degeneration of planarian dopaminergic system induced by rotenone or MPTP may be mediated through caspase-like activation.
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- 2003
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22. Ezrin mediates neuritogenesis via down-regulation of RhoA activity in cultured cortical neurons.
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Yosuke Matsumoto, Masatoshi Inden, Atsushi Tamura, Ryo Hatano, Sachiko Tsukita, and Shinji Asano
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Medicine ,Science - Abstract
Neuronal morphogenesis is implicated in neuronal function and development with rearrangement of cytoskeletal organization. Ezrin, a member of Ezrin/Radixin/Moesin (ERM) proteins links between membrane proteins and actin cytoskeleton, and contributes to maintenance of cellular function and morphology. In cultured hippocampal neurons, suppression of both radixin and moesin showed deficits in growth cone morphology and neurite extensions. Down-regulation of ezrin using siRNA caused impairment of netrin-1-induced axon outgrowth in cultured cortical neurons. However, roles of ezrin in the neuronal morphogenesis of the cultured neurons have been poorly understood. In this report, we performed detailed studies on the roles of ezrin in the cultured cortical neurons prepared from the ezrin knockdown (Vil2(kd/kd)) mice embryo that showed a very small amount of ezrin expression compared with the wild-type (Vil2(+/+)) neurons. Ezrin was mainly expressed in cell body in the cultured cortical neurons. We demonstrated that the cultured cortical neurons prepared from the Vil2(kd/kd) mice embryo exhibited impairment of neuritogenesis. Moreover, we observed increased RhoA activity and phosphorylation of myosin light chain 2 (MLC2), as a downstream effector of RhoA in the Vil2(kd/kd) neurons. In addition, inhibition of Rho kinase and myosin II rescued the impairment of neuritogenesis in the Vil2(kd/kd) neurons. These data altogether suggest a novel role of ezrin in the neuritogenesis of the cultured cortical neurons through down-regulation of RhoA activity.
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- 2014
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23. Role of phosphate transporter PiT-2 in the pathogenesis of primary brain calcification
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Masatoshi Inden, Yuna Kimura, Kazuya Nishii, Tomohiko Masaka, Naoko Takase, Mai Tsutsui, Kazuki Ohuchi, Hisaka Kurita, and Isao Hozumi
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Biophysics ,Cell Biology ,Molecular Biology ,Biochemistry - Abstract
Primary brain calcification (PBC), also known as idiopathic basal ganglia calcification (IBGC), primary familial brain calcification (PFBC) and so on, is a rare intractable disease characterized by abnormal mineral deposits, including mostly calcium in the basal ganglia, thalamus, and cerebellum. The causative gene of familial PBC is SLC20A2, which encodes the phosphate transporter PiT-2. Despite this knowledge, the molecular mechanism underlying SLC20A2-associated PBC remains unclear. In the present study, we investigated whether haploinsufficiency or a dominant-negative mechanism reduced Pi uptake in two PiT-2 variants (T115 M and R467X). We demonstrated that the presence of T115 M or R467X had no dominant-negative effect on Pi transport activity of wild-type (WT). In addition, the subcellular localization of R467X completely differed from that of WT, indicating that there is no interaction between R467X and WT. Conversely, T115 M and WT showed almost the same localization. Therefore, we examined the interaction between T115 M and WT using the bioluminescence resonance energy transfer (BRET) method. Although WT and T115 M interact with each other, T115 M does not inhibit WT's Pi transport activity. These results suggest that the role of SLC20A2 in the pathogenesis of PBC may involve decreased intracellular Pi uptake by a haploinsufficiency mechanism rather than a dominant-negative mechanism; agents promoting PiT-2 dimerization may be promising potential therapeutic agents for PBC.
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- 2023
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24. Molecular Imaging of Labile Heme in Living Cells Using a Small Molecule Fluorescent Probe
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Kanta Kawai, Tasuku Hirayama, Haruka Imai, Takanori Murakami, Masatoshi Inden, Isao Hozumi, and Hideko Nagasawa
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Colloid and Surface Chemistry ,Ferrous Compounds ,Heme ,General Chemistry ,Biochemistry ,Catalysis ,Fluorescent Dyes ,Molecular Imaging ,Signal Transduction - Abstract
Labile heme (LH) is a complex of Fe(II) and protoporphyrin IX, an essential signaling molecule in various biological systems. Most of the subcellular dynamics of LH remain unclear because of the lack of efficient chemical tools for detecting LH in cells. Here, we report an activity-based fluorescence probe that can monitor the fluctuations of LH in biological events. H-FluNox is a selective fluorescent probe that senses LH using biomimetic
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- 2022
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25. PDGF-BB is involved in phosphate regulation via the phosphate transporters in human neuroblastoma SH-SY5Y cells
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Naoko Takase, Masatoshi Inden, Yuto Murayama, Ayane Mishima, Hisaka Kurita, and Isao Hozumi
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Neuroblastoma ,Sodium-Phosphate Cotransporter Proteins, Type III ,Becaplermin ,Tumor Cells, Cultured ,Biophysics ,Humans ,Biological Transport ,Cell Biology ,Molecular Biology ,Biochemistry ,Phosphates - Abstract
Inorganic phosphate (Pi) is the second most abundant inorganic ion in the body. Since abnormalities in Pi metabolism are risk factors for various diseases, serum Pi levels are strictly controlled. Type-III sodium-dependent Pi transporters, PiT-1 (encoded by SLC20A1) and PiT-2 (encoded by SLC20A2), are distributed throughout the tissues of the body, including the central nervous system, and are known to be responsible for extracellular to intracellular Pi transport. Platelet-derived growth factor (PDGF) is a major growth factor of mesenchymal cells. PDGF-BB, a homodimer of PDGF-B, regulates intracellular Pi by increasing PiT-1 expression in vascular smooth muscle cells. However, the effects of PDGF-BB on Pi transporters in neurons have yet to be reported. Here, we investigated the effect of PDGF-BB on Pi transporters in human neuroblastoma SH-SY5Y cells. PDGF-BB did not induce SLC20A1 mRNA expression, but it increased the intracellular uptake of Pi via PiT-1 in SH-SY5Y cells. Among the signaling pathways associated with PDGF-BB, AKT signaling was shown to be involved in the increase in Pi transport. In addition, the PDGF-BB-induced increase in Pi mediated neuroprotective effects in SLC20A2-suppressed cells, in an in vitro model of the pathological condition found in idiopathic basal ganglia calcification. Moreover, the increase in Pi uptake was found to occur through promotion of intracellular PiT-1 translocation to the plasma membrane. Overall, these results indicate that PDGF-BB exerts neuroprotective effects via Pi transport, and they demonstrate the potential utility of PDGF-BB against abnormal Pi metabolism in neurons.
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- 2022
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26. Characteristics and therapeutic potential of sodium-dependent phosphate cotransporters in relation to idiopathic basal ganglia calcification
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Isao Hozumi, Hisaka Kurita, and Masatoshi Inden
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PiT1 ,Inorganic phosphate (Pi) ,Basal ganglia calcification ,RM1-950 ,Phosphates ,chemistry.chemical_compound ,Basal Ganglia Diseases ,Interstitial fluid ,medicine ,Animals ,Homeostasis ,Humans ,Idiopathic basal ganglia calcification (IBGC) ,Molecular Targeted Therapy ,RNA, Messenger ,Gene ,Sodium-dependent phosphate cotransporter ,Pharmacology ,Sodium-Phosphate Cotransporter Proteins, Type III ,Calcinosis ,Neurodegenerative Diseases ,medicine.disease ,Phosphate ,Cell biology ,chemistry ,PiT2 ,Molecular Medicine ,Therapeutics. Pharmacology ,Cotransporter ,Intracellular ,Calcification - Abstract
Type-III sodium-dependent phosphate transporters 1 and 2 (PiT1 and PiT2, respectively) are proteins encoded by SLC20A1 and SLC20A2, respectively. The ubiquitous distribution of SLC20A1 and SLC20A2 mRNAs in mammalian tissues supports the housekeeping maintenance and homeostasis of intracellular inorganic phosphate (Pi), which is absorbed from interstitial fluid for normal cellular functions. SLC20A2 variants have been found in patients with idiopathic basal ganglia calcification (IBGC), also known as Fahr’s disease or primary familial brain calcification (PFBC). Thus, disrupted Pi homeostasis is considered one of the major factors in the pathogenic mechanism of IBGC. In this paper, among the causative genes of IBGC, we focused specifically on PiT2, and its potential for a therapeutic target of IBGC.
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- 2022
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27. Evaluation of headaches in primary brain calcification in Japan
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Koichi Hirata, Isao Hozumi, Megumi Yamada, Hisaka Kurita, Kazuhiro Ozawa, and Masatoshi Inden
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medicine.medical_specialty ,Primary (chemistry) ,Neurology ,business.industry ,Medicine ,Neurology (clinical) ,Headaches ,medicine.symptom ,business ,medicine.disease ,Dermatology ,Calcification - Published
- 2021
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28. DNA methyltransferase- and histone deacetylase-mediated epigenetic alterations induced by low-level methylmercury exposure disrupt neuronal development
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Isao Hozumi, Manami Hatano, Hisaka Kurita, Masatoshi Inden, Suzuna Go, Masatake Fujimura, Kana Matsumoto, and Hina Nogawa
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0301 basic medicine ,Neurogenesis ,Health, Toxicology and Mutagenesis ,Neuronal Outgrowth ,010501 environmental sciences ,Histone Deacetylase 6 ,Toxicology ,01 natural sciences ,DNA methyltransferase ,Histone Deacetylases ,Cell Line ,Epigenesis, Genetic ,Mice ,03 medical and health sciences ,Pregnancy ,In vivo ,Animals ,Humans ,Epigenetics ,DNA Modification Methylases ,0105 earth and related environmental sciences ,biology ,Chemistry ,General Medicine ,DNA Methylation ,Methylmercury Compounds ,HDAC6 ,Cell biology ,Histone Deacetylase Inhibitors ,Mice, Inbred C57BL ,030104 developmental biology ,Histone ,Maternal Exposure ,DNA methylation ,biology.protein ,DNMT1 ,Female ,Histone deacetylase - Abstract
Methylmercury (MeHg) is a chemical substance that causes adverse effects on fetal development. However, the molecular mechanisms by which environmental MeHg affects fetal development have not been clarified. Recently, it has been suggested that the toxic effects of chemicals on fetal development are related alterations in epigenetics, such as DNA methylation and histone modification. In order to analyze the epigenetic effects of low-level MeHg exposure on neuronal development, we evaluated neuronal development both in vivo and in vitro. Pregnant mice (C57BL/6J) were orally administrated 3 mg/kg of MeHg once daily from embryonic day 12-14. Fetuses were removed on embryonic day 19 and brain tissues were collected. LUHMES cells were treated with 1 nM of MeHg for 6 days and collected on the last day of treatment. In both in vivo and in vitro samples, MeHg significantly suppressed neurite outgrowth. Decreased acetylated histone H3 (AcH3) levels and increased histone deacetylase (HDAC) 3 and HDAC6 levels were observed in response to MeHg treatment in both in vivo and in vitro experiments. In addition, increased DNA methylation and DNA methyltransferase 1 (DNMT1) levels were observed in both in vivo and in vitro experiments. The inhibition of neurite outgrowth resulting from MeHg exposure was restored by co-treatment with DNMT inhibitor or HDAC inhibitors. Our results suggest that neurological effects such as reduced neurite outgrowth due to low-level MeHg exposure result from epigenetic changes, including a decrease in AcH3 via increased HDAC levels and an increase in DNA methylation via increased DNMT1 levels.
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- 2021
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29. Exposure to a low concentration of methylmercury in neural differentiation downregulates NR4A1 expression with altered epigenetic modifications and inhibits neuronal spike activity in vitro
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Suzuna Go, Haruka Masuda, Mizuki Tsuru, Masatoshi Inden, Isao Hozumi, and Hisaka Kurita
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General Medicine ,Toxicology - Abstract
Methylmercury (MeHg) is a well-known developmental neurotoxin. Our previous research showed that the inhibition of neurite extension by exposure to a low level of MeHg (1 nM) was attributed to the decrease of acetylation of histone H3 and the increase of DNA methylation. However, the target molecules responsible for the neurological dysfunctions caused by MeHg exposure have not been identified. This study focused on a nuclear receptor subfamily 4 group A member 1 (NR4A1), which is reported to be related to synaptic plasticity and neurite extension. LUHMES cells, which are derived from human fetal brain, were treated with 0.1 and 1 nM MeHg beginning at two days of differentiation and continued for 6 consecutive days. The present study showed that exposure to a 1 nM MeHg during neural differentiation inhibited neuronal spike activity and neurite extension. Furthermore, MeHg exposure increased DNA methylation, and altered histone modifications for transcriptional repression in the NR4A1 promoter region to decrease the levels of NR4A1 expression. In addition, MeHg exposure inhibited the mobilization of cAMP response element-binding protein (CREB) and CREB binding protein (CBP) in the NR4A1 promoter region. These results suggest that MeHg inhibits the recruitment of the CREB-CBP complex to the NR4A1 promoter region and impairs neuronal functions associated with NR4A1 repression via a decrease in acetylation of histone H3 lysine 14 levels. Conclusively, this study demonstrated that MeHg exposure during neuronal differentiation could induce neurological dysfunctions even at a low concentration in vitro. These dysfunctions could be associated with the transcriptional repression of NR4A1 by the dissociation of CREB and CBP from the NR4A1 promoter region due to the alterations of epigenetic modifications.
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- 2022
30. Kaempferol Has Potent Protective and Antifibrillogenic Effects for α-Synuclein Neurotoxicity In Vitro
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Yuji O. Kamatari, Sora Nozaki, Isao Hozumi, Ryo Honda, Taisei Ito, Hisaka Kurita, Yoshihisa Kitamura, Hazuki Kitai, Xiaopeng Wen, Masanori Hijioka, Masatoshi Inden, and Ayaka Takagi
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Programmed cell death ,Amyloid ,Parkinson's disease ,QH301-705.5 ,animal diseases ,multiple system atrophy ,Pharmacology ,Protective Agents ,Neuroprotection ,Catalysis ,Article ,Inorganic Chemistry ,chemistry.chemical_compound ,Mice ,Neuroblastoma ,α-synuclein ,medicine ,Autophagy ,Animals ,heterocyclic compounds ,Physical and Theoretical Chemistry ,Biology (General) ,Kaempferols ,Molecular Biology ,QD1-999 ,Spectroscopy ,Synucleinopathies ,kaempferol ,Chemistry ,Basic Helix-Loop-Helix Leucine Zipper Transcription Factors ,Organic Chemistry ,Neurotoxicity ,synucleinopathies ,General Medicine ,medicine.disease ,Computer Science Applications ,nervous system diseases ,nervous system ,health occupations ,Parkinson’s disease ,alpha-Synuclein ,TFEB ,Neurotoxicity Syndromes ,Kaempferol ,dementia with Lewy bodies ,Lysosomes - Abstract
Aggregation of α-synuclein (α-Syn) is implicated in the pathogenesis of Parkinson’s disease (PD), dementia with Lewy bodies (DLB), and multiple system atrophy (MSA). Therefore, the removal of α-Syn aggregation could lead to the development of many new therapeutic agents for neurodegenerative diseases. In the present study, we succeeded in generating a new α-Syn stably expressing cell line using a piggyBac transposon system to investigate the neuroprotective effect of the flavonoid kaempferol on α-Syn toxicity. We found that kaempferol provided significant protection against α-Syn-related neurotoxicity. Furthermore, kaempferol induced autophagy through an increase in the biogenesis of lysosomes by inducing the expression of transcription factor EB and reducing the accumulation of α-Syn, thus, kaempferol prevented neuronal cell death. Moreover, kaempferol directly blocked the amyloid fibril formation of α-Syn. These results support the therapeutic potential of kaempferol in diseases such as synucleinopathies that are characterized by α-Syn aggregates.
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- 2021
31. A Golgi-targeting fluorescent probe for labile Fe(<scp>ii</scp>) to reveal an abnormal cellular iron distribution induced by dysfunction of VPS35
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Yuki Naka, Tasuku Hirayama, Masato Niwa, Hitomi Tsuboi, Yasuhiro Uchida, Hideko Nagasawa, Masatoshi Inden, and Isao Hozumi
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biology ,010405 organic chemistry ,Chemistry ,Golgi Targeting ,General Chemistry ,DMT1 ,Golgi apparatus ,010402 general chemistry ,medicine.disease_cause ,01 natural sciences ,0104 chemical sciences ,Retromer complex ,symbols.namesake ,VPS35 ,Organelle ,Protein targeting ,symbols ,medicine ,biology.protein ,Biophysics ,Intracellular - Abstract
Iron is involved in numerous physiologically essential processes in our body. However, excessive iron is a pathogenic factor in neurodegenerative diseases, causing aberrant oxidative stress. Divalent metal transporter 1 (DMT1) acts as a primary transporter of Fe(II) ions. The intracellular delivery of DMT1 toward the cellular membrane via the trans-Golgi network during the endocytotic process is partially regulated by a retromer-mediated protein-sorting system comprising vacuolar protein-sorting proteins (VPSs). Thus, together with DMT1, the Golgi-apparatus acts as a hub organelle in the delivery system for intracellular Fe(II) ions. Dysfunction of the VPS-relevant protein sorting system can induce the abnormal delivery of DMT1 toward lysosomes concomitantly with Fe(II) ions. To explore this issue, we developed a fluorescent probe, Gol-SiRhoNox, for the Golgi-specific detection of Fe(II) ions by integrating our original N-oxide-based Fe(II)-specific chemical switch, a new Golgi-localizable chemical motif, and polarity-sensitive fluorogenic scaffold. Our synchronous imaging study using Gol-SiRhoNox and LysoRhoNox, a previously developed fluorescent probe for lysosomal Fe(II), revealed that the intracellular distribution balance of Fe(II) ions between the Golgi apparatus and lysosomes is normally Golgi-dominant, whereas the lysosome-specific elevation of Fe(II) ions was observed in cells with induced dysfunction of VPS35, a member of the retromer complex. Treatment of cells with dysfunctional VPS35 with R55, a molecular chaperone, resulted in the restoration of the subcellular distribution of Fe(II) ions to the Golgi-dominant state. These results indicate that the impairment of the DMT1 traffic machinery affects subcellular iron homeostasis, promoting Fe(II) leakage at the Golgi and lysosomal accumulation of Fe(II) through missorting of DMT1.
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- 2019
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32. The neuroprotective effects of activated α7 nicotinic acetylcholine receptor against mutant copper–zinc superoxide dismutase 1-mediated toxicity
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Isao Hozumi, Hisaka Kurita, Taisei Ito, Masatoshi Inden, Yuta Asaka, and Tomoyuki Ueda
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Agonist ,alpha7 Nicotinic Acetylcholine Receptor ,medicine.drug_class ,Science ,Cell death in the nervous system ,SOD1 ,Intracellular Space ,AMP-Activated Protein Kinases ,Pharmacology ,Molecular neuroscience ,Neuroprotection ,Article ,Superoxide dismutase ,Protein Aggregates ,Superoxide Dismutase-1 ,Autophagy ,medicine ,Humans ,Protein kinase A ,PI3K/AKT/mTOR pathway ,Neurons ,Multidisciplinary ,biology ,Basic Helix-Loop-Helix Leucine Zipper Transcription Factors ,Chemistry ,TOR Serine-Threonine Kinases ,Neurodegenerative Diseases ,Protein Transport ,Neuroprotective Agents ,nervous system ,Mutation ,biology.protein ,Medicine ,TFEB ,Calcium ,Signal transduction ,Lysosomes ,Protein Binding ,Signal Transduction - Abstract
Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease characterized by the selective and progressive loss of motor neurons. Although many drugs have entered clinical trials, few have shown effectiveness in the treatment of ALS. Other studies have shown that the stimulation of α7 nicotinic acetylcholine receptor (nAChR) can have neuroprotective effects in some models of neurodegenerative disease, as well as prevent glutamate-induced motor neuronal death. However, the effect of α7 nAChR agonists on ALS-associated mutant copper–zinc superoxide dismutase 1 (SOD1) aggregates in motor neurons remains unclear. In the present study, we examined whether α7 nAChR activation had a neuroprotective effect against SOD1G85R-induced toxicity in a cellular model for ALS. We found that α7 nAChR activation by PNU282987, a selective agonist of α7 nAChR, exhibited significant neuroprotective effects against SOD1G85R-induced toxicity via the reduction of intracellular protein aggregates. This reduction also correlated with the activation of autophagy through the AMP-activated protein kinase (AMPK)–mammalian target of rapamycin (mTOR) signaling pathway. Furthermore, the activation of α7 nAChRs was found to increase the biogenesis of lysosomes by inducing translocation of the transcription factor EB (TFEB) into the nucleus. These results support the therapeutic potential of α7 nAChR activation in diseases that are characterized by SOD1G85R aggregates, such as ALS.
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- 2020
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33. Moesin is involved in microglial activation accompanying morphological changes and reorganization of the actin cytoskeleton
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Sayuri Wakimoto, Kotoku Kawaguchi, Takashi Nakahari, Tomonori Okazaki, Shinji Asano, Daichi Saito, and Masatoshi Inden
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0301 basic medicine ,Physiology ,Phagocytosis ,Moesin ,macromolecular substances ,Nitric Oxide ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Ezrin ,Cell Movement ,Polysaccharides ,Radixin ,medicine ,Animals ,Small GTPase ,Actin ,Mice, Knockout ,Microglia ,Tumor Necrosis Factor-alpha ,Chemistry ,Cell Membrane ,Microfilament Proteins ,Actin cytoskeleton ,Cell biology ,Actin Cytoskeleton ,030104 developmental biology ,medicine.anatomical_structure ,Calcium ,030217 neurology & neurosurgery - Abstract
Moesin is a member of the ezrin, radixin and moesin (ERM) proteins that are involved in the formation and/or maintenance of cortical actin organization through their cross-linking activity between actin filaments and proteins located on the plasma membranes as well as through regulation of small GTPase activities. Microglia, immune cells in the central nervous system, show dynamic reorganization of the actin cytoskeleton in their process elongation and retraction as well as phagocytosis and migration. In microglia, moesin is the predominant ERM protein. Here, we show that microglial activation after systemic lipopolysaccharide application is partly inhibited in moesin knockout (Msn-KO) mice. We prepared primary microglia from wild-type and Msn-KO mice, and studied them to compare their phenotypes accompanying morphological changes and reorganization of the actin cytoskeleton induced by UDP-stimulated phagocytosis and ADP-stimulated migration. The Msn-KO microglia showed higher phagocytotic activity in the absence of UDP, which was not further increased by the treatment with UDP. They also exhibited decreased ADP-stimulated migration activities compared with the wild-type microglia. However, the Msn-KO microglia retained their ability to secrete tumor necrosis factor α and nitric oxide in response to lipopolysaccharide.
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- 2020
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34. The neuroprotective effects of α7 nicotinic acetylcholine receptor against mutant copper-zinc superoxide dismutase 1-mediated toxicity
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Isao Hozumi, Taisei Ito, Masatoshi Inden, Tomoyuki Ueda, Yuta Asaka, and Hisaka Kurita
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nervous system - Abstract
BackgroundAmyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease characterized by the selective and progressive loss of motor neurons. Although many drugs have entered clinical trials, few have shown effectiveness in the treatment of ALS. Previous studies searching for causal genes associated with familial ALS identified the copper-zinc superoxide dismutase 1 (SOD1). Other studies have shown that the stimulation of α7 nicotinic acetylcholine receptor (nAChR) can have neuroprotective effects in some models of neurodegenerative disease, as well as prevent glutamate-induced motor neuronal death. However, the effect of α7 nAChR agonists on mutant SOD1 aggregates in motor neurons remains unclear.MethodsWe examined whether α7 nAChR activation had a neuroprotective effect against SOD1G85R-induced toxicity in a cellular model for ALS. Furthermore, the mechanism was also examined by Western blot analysis and qRT-PCR.ResultsWe found that α7 nAChR activation showed significant neuroprotective effects against SOD1G85R-induced toxicity via the reduction of intracellular protein aggregates. This reduction also correlated with the activation of autophagy through the AMP-activated protein kinase (AMPK)–mammalian target of rapamycin (mTOR) signaling pathway. Furthermore, the activation of α7 nAChRs was found to increase the biogenesis of lysosomes by inducing translocation of the transcription factor EB (TFEB) into the nucleus.ConclusionsThese results support the therapeutic potential of α7 nAChR activation in diseases that are characterized by SOD1G85R aggregates, such as ALS.
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- 2020
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35. The Novel gem-Dihydroperoxide 12AC3O Suppresses High Phosphate-Induced Calcification via Antioxidant Effects in p53LMAco1 Smooth Muscle Cells
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Hisaka Kurita, Shunsuke Hirai, Mitsumi Takeda, Naoko Takase, Yumeka Yamada, Eiji Yamaguchi, Isao Hozumi, Akichika Itoh, and Masatoshi Inden
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0301 basic medicine ,medicine.medical_specialty ,Antioxidant ,Vascular smooth muscle ,dihydroperoxides ,medicine.medical_treatment ,030204 cardiovascular system & hematology ,medicine.disease_cause ,Catalysis ,Inorganic Chemistry ,calcification ,lcsh:Chemistry ,03 medical and health sciences ,chemistry.chemical_compound ,Hyperphosphatemia ,Ectopic calcification ,0302 clinical medicine ,Internal medicine ,medicine ,Physical and Theoretical Chemistry ,Molecular Biology ,lcsh:QH301-705.5 ,Spectroscopy ,phosphate ,chemistry.chemical_classification ,reactive oxygen species ,Reactive oxygen species ,Superoxide ,Organic Chemistry ,General Medicine ,medicine.disease ,Computer Science Applications ,030104 developmental biology ,Endocrinology ,chemistry ,lcsh:Biology (General) ,lcsh:QD1-999 ,Oxidative stress ,Calcification - Abstract
The excessive intake of phosphate (Pi), 10.3390/ijms21134628 or chronic kidney disease (CKD), can cause hyperphosphatemia and eventually lead to ectopic calcification, resulting in cerebrovascular diseases. It has been reported that reactive oxygen species (ROS), induced by high concentrations of Pi loading, play a key role in vascular calcification. Therefore, ROS suppression may be a useful treatment strategy for vascular calcification. 12AC3O is a newly synthesized gem-dihydroperoxide (DHP) that has potent antioxidant effects. In the present study, we investigated whether 12AC3O inhibited vascular calcification via its antioxidative capacity. To examine whether 12AC3O prevents vascular calcification under high Pi conditions, we performed Alizarin red and von Kossa staining, using the mouse aortic smooth muscle cell line p53LMAco1. Additionally, the effect of 12AC3O against oxidative stress, induced by high concentrations of Pi loading, was investigated using redox- sensitive dyes. Further, the direct trapping effect of 12AC3O on reactive oxygen species (ROS) was investigated by ESR analysis. Although high concentrations of Pi loading exacerbated vascular smooth muscle calcification, calcium deposition was suppressed by the treatment of both antioxidants and 12AC3O, suggesting that the suppression of ROS may be a candidate therapeutic approach for treating vascular calcification induced by high concentrations of Pi loading. Importantly, 12AC3O also attenuated oxidative stress. Furthermore, 12AC3O directly trapped superoxide anion and hydroxyl radical. These results suggest that ROS are closely involved in high concentrations of Pi-induced vascular calcification and that 12AC3O inhibits vascular calcification by directly trapping ROS.
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- 2020
36. The Novel
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Naoko, Takase, Masatoshi, Inden, Shunsuke, Hirai, Yumeka, Yamada, Hisaka, Kurita, Mitsumi, Takeda, Eiji, Yamaguchi, Akichika, Itoh, and Isao, Hozumi
- Subjects
reactive oxygen species ,dihydroperoxides ,Myocytes, Smooth Muscle ,Antioxidants ,Muscle, Smooth, Vascular ,Article ,Cell Line ,Peroxides ,calcification ,Mice ,Oxidative Stress ,Calcification, Physiologic ,Animals ,Reactive Oxygen Species ,Vascular Calcification ,Oxidation-Reduction ,Cells, Cultured ,phosphate - Abstract
The excessive intake of phosphate (Pi), or chronic kidney disease (CKD), can cause hyperphosphatemia and eventually lead to ectopic calcification, resulting in cerebrovascular diseases. It has been reported that reactive oxygen species (ROS), induced by high concentrations of Pi loading, play a key role in vascular calcification. Therefore, ROS suppression may be a useful treatment strategy for vascular calcification. 12AC3O is a newly synthesized gem-dihydroperoxide (DHP) that has potent antioxidant effects. In the present study, we investigated whether 12AC3O inhibited vascular calcification via its antioxidative capacity. To examine whether 12AC3O prevents vascular calcification under high Pi conditions, we performed Alizarin red and von Kossa staining, using the mouse aortic smooth muscle cell line p53LMAco1. Additionally, the effect of 12AC3O against oxidative stress, induced by high concentrations of Pi loading, was investigated using redox- sensitive dyes. Further, the direct trapping effect of 12AC3O on reactive oxygen species (ROS) was investigated by ESR analysis. Although high concentrations of Pi loading exacerbated vascular smooth muscle calcification, calcium deposition was suppressed by the treatment of both antioxidants and 12AC3O, suggesting that the suppression of ROS may be a candidate therapeutic approach for treating vascular calcification induced by high concentrations of Pi loading. Importantly, 12AC3O also attenuated oxidative stress. Furthermore, 12AC3O directly trapped superoxide anion and hydroxyl radical. These results suggest that ROS are closely involved in high concentrations of Pi-induced vascular calcification and that 12AC3O inhibits vascular calcification by directly trapping ROS.
- Published
- 2020
37. Characteristics and Therapeutic Potential of Dental Pulp Stem Cells on Neurodegenerative Diseases
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Hisaka Kurita, Tomoyuki Ueda, Masatoshi Inden, Isao Hozumi, and Taisei Ito
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0301 basic medicine ,Cell type ,Mini Review ,Population ,Disease ,Biology ,Neuroprotection ,lcsh:RC321-571 ,Cell therapy ,03 medical and health sciences ,0302 clinical medicine ,neurodegenerative disease ,stomatognathic system ,Dental pulp stem cells ,education ,lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry ,education.field_of_study ,General Neuroscience ,dental pulp stem cells ,Transplantation ,stem cells from human exfoliated deciduous teeth ,030104 developmental biology ,conditioned medium ,Cancer research ,Stem cell ,cell therapy ,030217 neurology & neurosurgery ,Neuroscience - Abstract
To evaluate the therapeutic potential of stem cells for neurodegenerative diseases, emphasis should be placed on clarifying the characteristics of the various types of stem cells. Among stem cells, dental pulp stem cells (DPSCs) are a cell population that is rich in cell proliferation and multipotency. It has been reported that transplantation of DPSCs has protective effects against models of neurodegenerative diseases. The protective effects are not only through differentiation into the target cell type for the disease but are also related to trophic factors released from DPSCs. Recently, it has been reported that serum-free culture supernatant of dental pulp stem cell-conditioned medium (DPCM) contains various trophic factors and cytokines and that DPCM is effective for models of neurodegenerative diseases such as Alzheimer’s disease (AD), Parkinson’s disease (PD), and Amyotrophic Lateral Sclerosis (ALS). Moreover, the use of stem cells from human exfoliated deciduous teeth (SHEDs) has been considered. SHEDs are derived from deciduous teeth that have been disposed of as medical waste. SHEDs have higher differentiation capacity and proliferation ability than DPSCs. In addition, the serum-free culture supernatant of SHEDs (SHED-CM) contains more trophic factors, cytokines, and biometals than DPCM and also promotes neuroprotection. The neuroprotective effect of DPSCs, including those from deciduous teeth, will be used as the seeds of therapeutic drugs for neurodegenerative diseases. SHEDs will be used for further cell therapy of neurodegenerative diseases in the future. In this paper, we focused on the characteristics of DPSCs and their potential for neurodegenerative diseases.
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- 2020
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38. Neuroprotective Effect of an Inhibitor of Hypoxia-inducible Factor-Prolyl Hydroxylase in a Cell Culture Model of Parkinson‘s disease
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Ayaka Fujimaki, Kazuki Ohuchi, Takanori Murakami, Shinnosuke Takizawa, Hisaka Kurita, Isao Hozumi, and Masatoshi Inden
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Applied Mathematics ,General Mathematics - Published
- 2022
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39. Study of the molecular mechanism of autophagy activation via nicotine receptors in a cellular model for Parkinson‘s disease
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Shinnosuke Takizawa, Ayaka Fujimaki, Kazuki Ohuchi, Hisaka Kurita, Isao Hozumi, and Masatoshi Inden
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Applied Mathematics ,General Mathematics - Published
- 2022
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40. Analysis of cytotoxicity via disruption of intracellular iron homeostasis in PARK9 model cell
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Takanori Murakami, Hisaka Kurita, Isao Hozumi, Ryo Kakiuchi, Tasuku Hirayama, Hideko Nagasawa, and Masatoshi Inden
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Applied Mathematics ,General Mathematics - Published
- 2022
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41. PDGF-BB mediates phosphate regulation in the central nervous system
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Kazuki Ohuchi, Naoko Takase, Ayane Mishima, Yuto Murayama, Hisaka Kurita, Isao Hozumi, and Masatoshi Inden
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Applied Mathematics ,General Mathematics - Published
- 2022
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42. Effects of gem-dihydroperoxides against mutant copper‑zinc superoxide dismutase-mediated neurotoxicity
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Akichika Itoh, Wakako Tanaka, Tomoyuki Ueda, Isao Hozumi, Hisaka Kurita, Eiji Yamaguchi, Yuji Masaki, Masatoshi Inden, and Yuta Asaka
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0301 basic medicine ,Mutant ,SOD1 ,DHPS ,medicine.disease_cause ,Superoxide dismutase ,Mice ,03 medical and health sciences ,Cellular and Molecular Neuroscience ,chemistry.chemical_compound ,Superoxide Dismutase-1 ,0302 clinical medicine ,Mutant protein ,Cell Line, Tumor ,medicine ,Animals ,Molecular Biology ,Neurons ,chemistry.chemical_classification ,Reactive oxygen species ,biology ,Superoxide ,Free Radical Scavengers ,Cell Biology ,Molecular biology ,Peroxides ,Oxidative Stress ,Neuroprotective Agents ,030104 developmental biology ,chemistry ,Mutation ,biology.protein ,030217 neurology & neurosurgery ,Oxidative stress - Abstract
Amyotrophic lateral sclerosis (ALS) is a neurodegenerative disorder characterized by progressive muscle weakness, paralysis, and death. Although its neuropathology is well investigated, currently, effective treatments are unavailable. The mechanism of ALS involves the aggregation and accumulation of several mutant proteins, including mutant copper‑zinc superoxide dismutase (SOD1), TAR DNA binding protein 43 kDa (TDP-43) and fused in sarcoma (FUS) proteins. Previous reports have shown that excessive oxidative stress, associated with mitochondrial dysfunction and mutant protein accumulation, contributes to ALS pathology. The present study focuses on the promotion of SOD1 misfolding and aggregation by oxidative stress. Having recently synthesized novel organic gem-dihydroperoxides (DHPs) with high anti-oxidant activity, we now examined whether DHPs reduce the mutant SOD1-induced intracellular aggregates involved in oxidative stress. We found that, among DHPs, 12AC2O significantly inhibited mutant SOD1-induced cell death and reduced the intracellular mutant SOD1 aggregates. Moreover, immunofluorescence staining with redox-sensitive dyes showed that 12AC2O reduced the excessive level of intracellular mutant SOD1-induced reactive oxygen species (ROS). Additionally, ESR analysis showed that 12AC2O exerts a direct scavenging effect against the hydroxyl radical ( OH) and the superoxide anion (O2−). These results suggest that 12AC2O is a very useful agent in combination with other agents against ALS.
- Published
- 2018
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43. Methylmercury causes epigenetic suppression of the tyrosine hydroxylase gene in an in vitro neuronal differentiation model
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Suzuna Go, Hisaka Kurita, Masatoshi Inden, Kana Matsumoto, Isao Hozumi, and Manami Hatano
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0301 basic medicine ,medicine.medical_specialty ,Tyrosine 3-Monooxygenase ,Models, Neurological ,Biophysics ,Food Contamination ,Biology ,Methylation ,Biochemistry ,Cell Line ,Epigenesis, Genetic ,03 medical and health sciences ,Histone H3 ,0302 clinical medicine ,Pregnancy ,Internal medicine ,Gene expression ,medicine ,Animals ,Humans ,Viability assay ,Epigenetics ,Promoter Regions, Genetic ,Molecular Biology ,Mercury Poisoning, Nervous System ,Neurons ,Fetus ,Tyrosine hydroxylase ,Fishes ,Cell Differentiation ,Cell Biology ,Methylmercury Compounds ,030104 developmental biology ,Endocrinology ,Prenatal Exposure Delayed Effects ,Catecholamine ,Female ,Immortalised cell line ,030217 neurology & neurosurgery ,medicine.drug - Abstract
Methylmercury (MeHg) is the causative substance of Minamata disease, which is associated with various neurological disorders such as sensory disturbance and ataxia. It has been suggested low-level dietary intake of MeHg from MeHg-containing fish during gestation adversely affects the fetus. In our study, we investigated the toxicological effects of MeHg exposure on neuronal differentiation focusing on epigenetics. We used human fetal brain-derived immortalized cells (LUHMES cells) as a human neuronal differentiation model. Cell viability, neuronal, and catecholamine markers in LUHMES cells were assessed after exposure to MeHg (0–1000 nM) for 6 days (from day 2 to day 8 of neuronal differentiation). Cell viability on day 8 was not affected by exposure to 1 nM MeHg for 6 days. mRNA levels of AADC, DBH, TUJ1, and SYN1 also were unaffected by MeHg exposure. In contrast, levels of TH, the rate-limiting enzyme for dopamine synthesis, were significantly decreased after MeHg exposure. Acetylated histone H3, acetylated histone H3 lysine 9, and tri-methyl histone H3 lysine 9 levels at the TH gene promoter were not altered by MeHg exposure. However, tri-methylation of histone H3 lysine 27 levels, related to transcriptional repression, were significantly increased at the TH gene promotor after MeHg exposure. In summary, MeHg exposure during neuronal differentiation led to epigenetic changes that repressed TH gene expression. This study provides useful insights into the toxicological mechanisms underlying the effects of developmental MeHg exposure during neuronal differentiation.
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- 2018
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44. The effects of kaempferol against mutant copper-zinc superoxide dismutase-mediated toxicity via autophagy
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Hisaka Kurita, Tomoyuki Ueda, Yuta Asaka, Isao Hozumi, Masanori Kiuchi, and Masatoshi Inden
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biology ,Applied Mathematics ,General Mathematics ,Autophagy ,Mutant ,chemistry.chemical_element ,Zinc ,Copper ,Superoxide dismutase ,chemistry.chemical_compound ,chemistry ,Biochemistry ,Toxicity ,biology.protein ,Kaempferol - Published
- 2018
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45. Effect of 5-aminolevulinic acid against low inorganic phosphate in neuroblastoma SH-SY5Y cells
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Yuki Kaneko, Masatoshi Inden, Shin-ichiro Sekine, Hisaka Kurita, Naoko Takase, and Isao Hozumi
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Inorganic phosphate ,SH-SY5Y ,Biochemistry ,Chemistry ,Applied Mathematics ,General Mathematics ,Neuroblastoma ,medicine ,medicine.disease - Published
- 2018
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46. Induced pluripotent stem cells derived from a patient with familial idiopathic basal ganglia calcification (IBGC) caused by a mutation in SLC20A2 gene
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Nagahisa Murakami, Takako Enami, Hisaka Kurita, Misato Funayama, Keiko Imamura, Shin-ichiro Sekine, Ran Shibukawa, Takayuki Kondo, Masatoshi Inden, Isao Hozumi, Kayoko Tsukita, and Haruhisa Inoue
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0301 basic medicine ,Adult ,Male ,Pathology ,medicine.medical_specialty ,Induced Pluripotent Stem Cells ,Basal ganglia calcification ,Biology ,medicine.disease_cause ,03 medical and health sciences ,Basal Ganglia Diseases ,Basal ganglia ,medicine ,Humans ,Induced pluripotent stem cell ,lcsh:QH301-705.5 ,Gene ,Genetics ,Mutation ,Sodium-Phosphate Cotransporter Proteins, Type III ,Calcinosis ,Karyotype ,Neurodegenerative Diseases ,Cell Biology ,General Medicine ,In vitro ,030104 developmental biology ,lcsh:Biology (General) ,Familial idiopathic basal ganglia calcification ,Developmental Biology - Abstract
Idiopathic basal ganglia calcification (IBGC), also known as Fahr disease or primary familial brain calcifications (PFBC), is a rare neurodegenerative disorder characterized by calcium deposits in basal ganglia and other brain regions, causing neuropsychiatric and motor symptoms. We established human induced pluripotent stem cells (iPSCs) from an IBGC patient. The established IBGC-iPSCs carried SLC20A2 c.1848G > A mutation (p.W616* of translated protein PiT2), and also showed typical iPSC morphology, pluripotency markers, normal karyotype, and the ability of in vitro differentiation into three-germ layers. The iPSC line will be useful for further elucidating the pathomechanism and/or drug development for IBGC.
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- 2017
47. Partial reduced Pi transport function of PiT-2 might not be sufficient to induce brain calcification of idiopathic basal ganglia calcification
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Hidetaka Tamune, Yoshiharu Taguchi, Hisaka Kurita, Isao Hozumi, Masatoshi Inden, Kazuya Nishii, Michio Kobayashi, Akihiro Ueda, Itaru Toyoshima, and Ritsuko Shimogawa
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Adult ,Male ,Cerebellum ,medicine.medical_specialty ,DNA Mutational Analysis ,lcsh:Medicine ,chemistry.chemical_element ,Basal ganglia calcification ,Calcium ,Basal Ganglia ,Article ,Phosphates ,Basal Ganglia Diseases ,Internal medicine ,Basal ganglia ,medicine ,Pi ,Humans ,Neurodegeneration ,lcsh:Science ,Aged, 80 and over ,Multidisciplinary ,Sodium-Phosphate Cotransporter Proteins, Type III ,lcsh:R ,Cell Membrane ,Wild type ,Calcinosis ,Neurodegenerative Diseases ,Middle Aged ,medicine.disease ,Psychosis ,Pedigree ,medicine.anatomical_structure ,Endocrinology ,chemistry ,Cell culture ,Mutation ,lcsh:Q ,Female ,Calcification - Abstract
Idiopathic basal ganglia calcification (IBGC) is a rare intractable disease characterized by abnormal mineral deposits, including mostly calcium in the basal ganglia, thalamus, and cerebellum. SLC20A2 is encoding the phosphate transporter PiT-2 and was identified in 2012 as the causative gene of familial IBGC. In this study, we investigated functionally two novel SLC20A2 variants (c.680C > T, c.1487G > A) and two SLC20A2 variants (c.82G > A, c.358G > C) previously reported from patients with IBGC. We evaluated the function of variant PiT-2 using stable cell lines. While inorganic phosphate (Pi) transport activity was abolished in the cells with c.82G > A, c.358G > C, and c.1487G > A variants, activity was maintained at 27.8% of the reference level in cells with the c.680C > T variant. Surprisingly, the c.680C > T variant had been discovered by chance in healthy members of an IBGC family, suggesting that partial preservation of Pi transport activity may avoid the onset of IBGC. In addition, we confirmed that PiT-2 variants could be translocated into the cell membrane to the same extent as PiT-2 wild type. In conclusion, we investigated the PiT-2 dysfunction of four SLC20A2 variants and suggested that a partial reduced Pi transport function of PiT-2 might not be sufficient to induce brain calcification of IBGC.
- Published
- 2019
48. Identification of reference genes for microRNAs of extracellular vesicles isolated from plasma samples of healthy dogs by ultracentrifugation, precipitation, and membrane affinity chromatography methods
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Tomoyuki Ueda, Kohei Nakata, Hirohito Yano, Hideo Akiyoshi, Ryota Asahina, Hiroaki Kamishina, Hidetaka Nishida, Masatoshi Inden, Momoko Narita, and Sadatoshi Maeda
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Male ,Chromatography ,General Veterinary ,Plasma samples ,Precipitation (chemistry) ,Chemistry ,General Medicine ,Real-Time Polymerase Chain Reaction ,Extracellular vesicles ,Chromatography, Affinity ,Extracellular Vesicles ,MicroRNAs ,Membrane ,Dogs ,Affinity chromatography ,Reference genes ,microRNA ,Animals ,Nanoparticles ,Female ,Ultracentrifuge ,Ultracentrifugation - Abstract
OBJECTIVE To compare ultracentrifugation, precipitation, and membrane affinity chromatography methods for isolation of extracellular vesicles (EVs) from canine plasma samples and to identify suitable reference genes for incorporation into a quantitative reverse transcription PCR assay of microRNA expression in plasma EVs of healthy dogs. ANIMALS 6 healthy Beagles. PROCEDURES Plasma samples were obtained from each dog, and EVs were isolated from 0.3 mL of these samples via ultracentrifugation, precipitation, and membrane-affinity chromatographic methods. Nanoparticle tracking analysis was performed to determine the concentration and size distribution of EVs isolated by the ultracentrifugation method. Expression levels (cycle threshold values) of 4 microRNAs (let-7a, miR-16, miR-26a, and miR-103) were then compared by means of quantitative reverse transcription PCR assay. Three statistical programs were used to identify the microRNAs most suitable for use as reference genes. RESULTS Results indicated that ultracentrifugation was the most stable of all 3 methods for isolating microRNAs from 0.3 mL of plasma. Nanoparticle tracking revealed that EV samples obtained by the ultracentrifugation method contained a mean ± SD of approximately 1.59 × 1010 vesicles/mL ± 4.2 × 108 vesicles/mL. Of the 4 microRNAs in plasma EVs isolated by ultracentrifugation, miR-103 was the most stable. CONCLUSIONS AND CLINICAL RELEVANCE The ultracentrifugation method has potential as a stable method for isolating EVs from canine plasma samples with a high recovery rate, and miR-103 may provide the most stable reference gene for normalizing microRNA expression data pertaining to plasma EVs isolated by ultracentrifugation.
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- 2019
49. Functional evaluation of PDGFB-variants in idiopathic basal ganglia calcification, using patient-derived iPS cells
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Shin-ichiro Sekine, Shinsuke Kito, Haruhisa Inoue, Shoji Tsuji, Hiroyuki Ishiura, Hisaka Kurita, Masaki Tanaka, Masayuki Kaneko, Atsushi Iwata, Hiroto Fujigasaki, Gen Sobue, Megumi Yamada, Naoki Atsuta, Masatoshi Inden, Ryusei Tamaki, Kortaro Tanaka, Hisamitsu Tamaki, Yuichi Hayashi, Takashi Inuzuka, Yuhei Ninomiya, Jun Mitsui, Isao Hozumi, Yoshiharu Taguchi, and Takayuki Kondo
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Male ,0301 basic medicine ,Proband ,Pathology ,medicine.medical_specialty ,Adolescent ,Induced Pluripotent Stem Cells ,lcsh:Medicine ,Basal ganglia calcification ,medicine.disease_cause ,Article ,Basal Ganglia ,03 medical and health sciences ,0302 clinical medicine ,medicine ,Humans ,Neurodegeneration ,lcsh:Science ,Aged ,Platelet-Derived Growth Factor ,Brain Diseases ,Lymphokines ,Mutation ,Multidisciplinary ,PDGFB ,business.industry ,lcsh:R ,PDGFB Gene ,Calcinosis ,Endothelial Cells ,Middle Aged ,medicine.disease ,Phenotype ,Cellular neuroscience ,Pathophysiology ,Pedigree ,030104 developmental biology ,lcsh:Q ,Female ,business ,030217 neurology & neurosurgery ,Calcification - Abstract
Causative genes in patients with idiopathic basal ganglia calcification (IBGC) (also called primary familial brain calcification (PFBC)) have been reported in the past several years. In this study, we surveyed the clinical and neuroimaging data of 70 sporadic patients and 16 families (86 unrelated probands in total) in Japan, and studied variants of PDGFB gene in the patients. Variant analyses of PDGFB showed four novel pathogenic variants, namely, two splice site variants (c.160 + 2T > A and c.457−1G > T), one deletion variant (c.33_34delCT), and one insertion variant (c.342_343insG). Moreover, we developed iPS cells (iPSCs) from three patients with PDGFB variants (c.160 + 2T > A, c.457−1G > T, and c.33_34 delCT) and induced endothelial cells. Enzyme-linked immunoassay analysis showed that the levels of PDGF-BB, a homodimer of PDGF-B, in the blood sera of patients with PDGFB variants were significantly decreased to 34.0% of that of the control levels. Those in the culture media of the endothelial cells derived from iPSCs of patients also significantly decreased to 58.6% of the control levels. As the endothelial cells developed from iPSCs of the patients showed a phenotype of the disease, further studies using IBGC-specific iPSCs will give us more information on the pathophysiology and the therapy of IBGC in the future.
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- 2019
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50. In vitro evidence of propagation of superoxide dismutase-1 protein aggregation in canine degenerative myelopathy
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Kohei Nakata, Sadatoshi Maeda, Makoto Urushitani, Satoshi Kimura, Yuji O. Kamatari, N. Tanaka, Osamu Yamato, Hiroaki Kamishina, Masatoshi Inden, and Yui Kobatake
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Protein Folding ,animal diseases ,SOD1 ,Protein aggregation ,Canine degenerative myelopathy ,Transfection ,Protein Aggregation, Pathological ,Spinal Cord Diseases ,Superoxide dismutase ,03 medical and health sciences ,Mice ,0302 clinical medicine ,Dogs ,Superoxide Dismutase-1 ,Cell Line, Tumor ,medicine ,Animals ,Dog Diseases ,Amyotrophic lateral sclerosis ,030304 developmental biology ,0303 health sciences ,General Veterinary ,biology ,Chemistry ,Wild type ,nutritional and metabolic diseases ,Neurodegenerative Diseases ,medicine.disease ,In vitro ,nervous system diseases ,Cell biology ,Disease Models, Animal ,nervous system ,Mutation ,biology.protein ,Animal Science and Zoology ,030217 neurology & neurosurgery ,Intracellular ,Plasmids - Abstract
Canine degenerative myelopathy (DM) is a progressive and fatal neurodegenerative disorder that has been linked to mutations in the superoxide dismutase 1 (SOD1) gene. The accumulation of misfolded protein aggregates in spinal neurons and astrocytes is implicated as an important pathological process in DM; however, the mechanism of protein aggregate formation is largely unknown. In human neurodegenerative diseases, such as amyotrophic lateral sclerosis (ALS), cell-to-cell propagation of disease-relevant proteins has been demonstrated. Therefore, in this study, propagation of aggregation-forming property of mutant SOD1 protein in DM in vitro was investigated. This study demonstrated that aggregates composed of canine wild type SOD1 protein were increased by co-transfection with canine mutant SOD1 (E40K SOD1), indicating intracellular propagation of SOD1 aggregates. Further, aggregated recombinant SOD1 proteins were released from the cells, taken up by other cells, and induced further aggregate formation of normally folded SOD1 proteins. These results suggest intercellular propagation of SOD1 aggregates. The hypothesis of cell-to-cell propagation of SOD1 aggregates proposed in this study may underly the progressive nature of DM pathology.
- Published
- 2021
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