Your search keyword '"Hideki Mochizuki"' showing total 21 results

1. The lncRNA hsr? regulates arginine dimethylation of FUS to cause its proteasomal degradation in Drosophila.

Author

Luca Lo Piccolo, Hideki Mochizuki, and Yoshitaka Nagai

Subjects

*DROSOPHILA, *RNA-binding proteins, *HISTONE methylation, *TOXICITY testing

Abstract

The lncRNAs play structural and regulatory roles on RNA-binding proteins (RBPs). However, the mechanisms by which lncRNAs regulate the neurodegenerative-causative RBP like FUS remain poorly understood. Here, we show that knockdown of the lncRNA hsr? causes a shift in the methylation status of FUS from mono- (MMA) to di-methylated (DMA) arginine via upregulation of the argininemethyl transferases 5 (PRMT5). We found this novel regulatory role to be critical to FUS toxicity since the PRMT5- dependent dimethylation of FUS is required for its proteasomal degradation and causes a reduction of high levels of FUS. Moreover, we show that an increase of FUS determines a decline of both PRMT 1 and 5 transcripts leading to an accumulation of neurotoxic MMA-FUS. Therefore, overexpression of either PRMT1 or PRMT5 is able to rescue the FUS toxicity. These results highlight a novel role of lncRNAs in post-translation modification (PTM) of FUS and suggest a causal relationship between lncRNAs and dysfunctional PRMTs in the pathogenesis of FUSopathies. [ABSTRACT FROM AUTHOR]

Published

2019

2. A transcranial direct current stimulation over the sensorimotor cortex modulates the itch sensation induced by histamine.

Author

Kei Nakagawa, Hideki Mochizuki, Soichiro Koyama, Satoshi Tanaka, Norihiro Sadato, and Ryusuke Kakigi

Subjects

*TRANSCRANIAL direct current stimulation, *SENSORIMOTOR cortex, *ITCHING, *SENSES, *HISTAMINE

Abstract

Objective: Itching can be suppressed by scratching. However, scratching may aggravate itch symptoms by damaging the skin. Therefore, identifying an alternative approach to suppress itching is of clinical importance. The aim of the present study was to determine whether a transcranial direct current stimulation (tDCS) was useful for itch relief. Methods: The present study was performed on a double-blind, Sham-controlled, and cross-over experimental design. A histamine-induced itch was evoked on the left dorsal forearms of healthy participants, who were asked to report the subjective sensation of itching every 30 s for 23 min. tDCS was applied over the sensorimotor cortex (SMC) according to a bi-hemispheric stimulation protocol during the itch stimuli; one electrode was placed over the right SMC, while the other was placed over the left SMC. The peak and lasting sensations of itching were compared between R-A/L-C (anodal electrode placed over the right and cathodal electrode over the left), L-A/R-C (anodal electrode placed over the left and cathodal electrode over the right), and Sham interventions. Results: The peak and lasting itch sensation were significantly suppressed during the R-A/L-C intervention than during the Sham intervention. On the other hand, the L-A/R-C intervention suppressed the peak itch sensation, but the effects did not last for more than a few minutes. Conclusions: These results suggest that a bi-hemispheric tDCS intervention, especially when the anodal electrode was placed over the SMC of the contralateral side, was a potentially useful method for relieving lasting itch sensations. [ABSTRACT FROM AUTHOR]

Published

2016

3. The cerebral representation of scratching-induced pleasantness.

Author

Hideki Mochizuki, Satoshi Tanaka, Tomoyo Morita, Toshiaki Wasaka, Norihiro Sadato, and Ryusuke Kakigi

Subjects

*PLEASANTNESS & unpleasantness (Psychology), *ITCHING, *FUNCTIONAL magnetic resonance imaging, *SOMATOSENSORY cortex, *STATISTICAL hypothesis testing, *PREMOTOR cortex

Abstract

Itch is an unpleasant sensation with the desire to scratch. Although it is well known that scratching itchy skin is pleasurable, the cerebral mechanisms underlying this phenomenon are poorly understood. We hypothesized that the reward system is associated with scratching-induced pleasantness. To investigate this hypothesis, a functional magnetic resonance imaging study was performed in 16 healthy subjects. Pleasantness was evoked by scratching the wrists where itch stimuli were applied, while scratching the dorsal forearms, far from itch stimuli, did not evoke pleasantness. Interestingly, pleasantness evoked by scratching activated not only the reward system (i.e., the striatum and midbrain) but also key regions of perception (i.e., the primary somatosensory cortex) and awareness of subjective feelings (i.e., the insular cortex), indicating that a broad network is involved in scratching-induced pleasantness. Moreover, although itch was suppressed by scratching, motor-related regions such as the supplementary motor area, premotor cortex, and cerebellum showed significant activation when pleasantness was evoked. This activation could explain why scratching-induced pleasantness potentially reinforces scratching behaviors. This study is the first to identify networks activated by scratching-induced pleasantness. The results of the present study provide important information on the cerebral mechanisms underlying why scratching itchy skin evokes pleasurable feelings that reinforce scratching behaviors. [ABSTRACT FROM AUTHOR]

Published

2014

4. Time Course of Activity in Itch-Related Brain Regions: A Combined MEG–fMRI Study.

Author

Hideki Mochizuki

Subjects

*BRAIN imaging, *MAGNETOENCEPHALOGRAPHY, *MAGNETIC resonance imaging, *ITCHING, *SOMATOSENSORY evoked potentials, *BRAIN stimulation, *NEUROPHYSIOLOGY

Abstract

Functional neuroimaging studies have identified itch-related brain regions. However, no study has investigated the temporal aspect of itch-related brain processing. Here this issue was investigated using electrically evoked itch in ten healthy adults. Itch stimuli were applied to the left wrist and brain activity was measured using magnetoencephalography (MEG) and functional magnetic resonance imaging (fMRI). In the MEG experiment, the magnetic responses evoked by the itch stimuli were observed in the contralateral and ipsilateral frontotemporal regions. The dipoles associated with the magnetic responses were mainly located in the contralateral (nine subjects) and ipsilateral (eight subjects) secondary somatosensory cortex (SII)/insula, which were also activated by the itch stimuli in the fMRI experiment. We also observed an itch-related magnetic response in the posterior part of the centroparietal region in six subjects. MEG and fMRI data showed that the magnetic response in this region was mainly associated with itch-related activation of the precuneus. The latency was significantly longer in the ipsilateral than that in the contralateral SII/insula, suggesting the difference to be associated with transmission in the callosal fibers. The timing of activation of the precuneus was between those of the contralateral and ipsilateral SII/insula. Other sources were located in the premotor, primary motor, and anterior cingulate cortices (one subject each). This study is the first to demonstrate part of the time course of itch-related brain processing. Combining methods with high temporal and spatial resolution (e.g., MEG and fMRI) would be useful to investigate the temporal aspect of the brain mechanism of itch. [ABSTRACT FROM AUTHOR]

Published

2009

5. Roles of histamine in regulation of arousal and cognition: functional neuroimaging of histamine H1 receptors in human brain

Author

Manabu Tashiro, Hideki Mochizuki, Kentaro Iwabuchi, Yumiko Sakurada, Masatoshi Itoh, Takehiko Watanabe, and Kazuhiko Yanai

Subjects

*HISTAMINE, *SLEEP-wake cycle, *AROUSAL (Physiology)

Abstract

Brain histamine is involved in a wide range of physiological functions such as regulation of the sleep-wake cycle, arousal, cognition, and memory mainly through interactions with histamine H1 receptors (H1Rs). Neurons producing histamine, histaminergic neurons, are exclusively located in the posterior hypothalamus and transmit histamine to almost all regions of the brain. Histamine H1 antagonists, or antihistamines, often prescribed for treatment of allergic disorders, sometimes induce sleepiness and cognitive deficits. It is understood that the mechanism of such CNS side effects is that antihistamine blocks H1Rs in the brain. The purpose of the present study was to compare the CNS side effects of different antihistamines.Subjective sleepiness was measured using the Stanford Sleepiness Scale (SSS) and psychomotor performance was examined by a tachistoscope testing system in healthy, young, Japanese volunteers (16 males, 20–28 yrs.) before and after oral administration of antihistamines such as fexofenadine (FEX) and cetirizine (CET). Additionally, H1R occupancy by antihistamines was examined by PET with 11C-doxepin in 8 volunteers.The results of SSS and psychomotor tests demonstrated that FEX tended to be less sedative than CET though the difference was not statistically significant. PET measurements revealed that no H1Rs in the cerebral cortex were occupied by FEX while about 30% of H1Rs were occupied by CET. In summary, it was confirmed that histamine and H1Rs are involved in maintaining arousal and cognition in humans, and that the severity of clinical symptoms is correlated to the amount of antihistamine that penetrated into the brain. [Copyright &y& Elsevier]

Published

2002

6. Lysophagy protects against propagation of α-synuclein aggregation through ruptured lysosomal vesicles.

Author

Keita Kakuda, Kensuke Ikenaka, Akiko Kuma, Junko Doi, Aguirre, César, Nan Wang, Takahiro Ajiki, Chi-Jing Choong, Yasuyoshi Kimura, Mohamed Badawy, Shaymaa Mohamed, Takayuki Shima, Shuhei Nakamura, Kousuke Baba, Seiichi Nagano, Yoshitaka Nagai, Tamotsu Yoshimori, and Hideki Mochizuki

Subjects

*ALPHA-synuclein, *TRANSMISSION electron microscopy, *LYSOSOMES

Abstract

The neuron-to-neuron propagation of misfolded α-synuclein (αSyn) aggregates is thought to be key to the pathogenesis of synucleinopathies. Recent studies have shown that extracellular αSyn aggregates taken up by the endosomal-lysosomal system can rupture the lysosomal vesicular membrane; however, it remains unclear whether lysosomal rupture leads to the transmission of αSyn aggregation. Here, we applied cell-based αSyn propagation models to show that ruptured lysosomes are the pathway through which exogenous αSyn aggregates transmit aggregation, and furthermore, this process was prevented by lysophagy, i.e., selective autophagy of damaged lysosomes. αSyn aggregates accumulated predominantly in lysosomes, causing their rupture, and seeded the aggregation of endogenous αSyn, initially around damaged lysosomes. Exogenous αSyn aggregates induced the accumulation of LC3 on lysosomes. This LC3 accumulation was not observed in cells in which a key regulator of autophagy, RB1CC1/FIP200, was knocked out and was confirmed as lysophagy by transmission electron microscopy. Importantly, RB1CC1/FIP200-deficient cells treated with αSyn aggregates had increased numbers of ruptured lysosomes and enhanced propagation of αSyn aggregation. Furthermore, various types of lysosomal damage induced using lysosomotropic reagents, depletion of lysosomal enzymes, or more toxic species of αSyn fibrils also exacerbated the propagation of αSyn aggregation, and impaired lysophagy and lysosomal membrane damage synergistically enhanced propagation. These results indicate that lysophagy prevents exogenous αSyn aggregates from escaping the endosomal-lysosomal system and transmitting aggregation to endogenous cytosolic αSyn via ruptured lysosomal vesicles. Our findings suggest that the progression and severity of synucleinopathies are associated with damage to lysosomal membranes and impaired lysophagy. [ABSTRACT FROM AUTHOR]

Published

2024

7. Noninvasive In VivoDelivery of Transgene via Adeno-Associated Virus into Supporting Cells of the Neonatal Mouse Cochlea.

Author

Takashi Iizuka, Sho Kanzaki, Hideki Mochizuki, Ayako Inoshita, Yuya Narui, Masayuki Furukawa, Takeshi Kusunoki, Makoto Saji, Kaoru Ogawa, and Katsuhisa Ikeda

Subjects

*COCHLEA, *TRANSGENE expression, *GENETIC transformation, *ADENOVIRUSES

Abstract

There are a number of genetic diseases that affect the cochlea early in life, which require normal gene transfer in the early developmental stage to prevent deafness. The delivery of adenovirus (AdV) and adeno-associated virus (AAV) was investigated to elucidate the efficiency and cellular specificity of transgene expression in the neonatal mouse cochlea. The extent of AdV transfection is comparable to that obtained with adult mice. AAV-directed gene transfer after injection into the scala media through a cochleostomy showed transgene expression in the supporting cells, inner hair cells (IHCs), and lateral wall with resulting hearing loss. On the other hand, gene expression was observed in Deiters cells, IHCs, and lateral wall without hearing loss after the application of AAV into the scala tympani through the round window. These findings indicate that injection of AAV into the scala tympani of the neonatal mouse cochlea therefore has the potential to efficiently and noninvasively introduce transgenes to the cochlear supporting cells, and this modality is thus considered to be a promising strategy to prevent hereditary prelingual deafness. [ABSTRACT FROM AUTHOR]

Published

2008

8. Strong acids induce amyloid fibril formation of β2-microglobulin via an anion-binding mechanism.

Author

Keiichi Yamaguchi, Kenshiro Hasuo, Masatomo So, Kensuke Ikenaka, Hideki Mochizuki, and Yuji Goto

Subjects

*AMYLOID, *FORMIC acid, *ACIDS, *AMYLOID beta-protein, *PRIONS, *NEPRILYSIN

Abstract

Amyloid fibrils, crystal-like fibrillar aggregates of proteins associated with various amyloidoses, have the potential to propagate via a prion-like mechanism. Among known methodologies to dissolve preformed amyloid fibrils, acid treatment has been used with the expectation that the acids will degrade amyloid fibrils similar to acid inactivation of protein functions. Contrary to our expectation, treatment with strong acids, such as HCl or H2SO4, of β2-microglobulin (β2m) or insulin actually promoted amyloid fibril formation, proportionally to the concentration of acid used. A similar promotion was observed at pH 2.0 upon the addition of salts, such as NaCl or Na2SO4. Although trichloroacetic acid, another strong acid, promoted amyloid fibril formation of β2m, formic acid, a weak acid, did not, suggesting the dominant role of anions in promoting fibril formation of this protein. Comparison of the effects of acids and salts confirmed the critical role of anions, indicating that strong acids likely induce amyloid fibril formation via an anion-binding mechanism. The results suggest that although the addition of strong acids decreases pH, it is not useful for degrading amyloid fibrils, but rather induces or stabilizes amyloid fibrils via an anion-binding mechanism. [ABSTRACT FROM AUTHOR]

Published

2021

9. Polyphosphates induce amyloid fibril formation of α-synuclein in concentration-dependent distinct manners.

Author

Keiichi Yamaguchi, Masatomo So, Aguirre, César, Kensuke Ikenaka, Hideki Mochizuki, Yasushi Kawata, and Yuji Goto

Subjects

*POLYPHOSPHATES, *AMYLOID, *PRINCIPAL components analysis, *AMYLOID beta-protein

Abstract

Polyphosphates (polyPs), chains of phosphate residues found in species across nature from bacteria to mammals, were recently reported to accelerate the amyloid fibril formation of many proteins. How polyPs facilitate this process, however, remains unknown. To gain insight into their mechanisms, we used various physicochemical approaches to examine the effects of polyPs of varying chain lengths on ultrasonicationdependent a-synuclein (a-syn) amyloid formation. Although orthophosphate and diphosphate exhibited a single optimal concentration of amyloid formation, triphosphate and longerchain phosphates exhibited two optima, with the second at a concentration lower than that of orthophosphate or diphosphate. The second optimum decreased markedly as the polyP length increased. This suggested that although the optima at lower polyP concentrations were caused by interactions between negatively charged phosphate groups and the positive charges of a-syn, the optima at higher polyP concentrations were caused by the Hofmeister salting-out effects of phosphate groups, where the effects do not depend on the net charge. NMR titration experiments of a-syn with tetraphosphate combined with principal component analysis revealed that, at low tetraphosphate concentrations, negatively charged tetraphosphates interacted with positively charged "KTK" segments in four KTKEGV repeats located at the N-terminal region. At high concentrations, hydrated tetraphosphates affected the surface-exposed hydrophilic groups of compact a-syn. Taken together, our results suggest that long-chain polyPs consisting of 60 to 70 phosphates induce amyloid formation at sub-µM concentrations, which are comparable with the concentrations of polyPs in the blood or tissues. Thus, these findings may identify a role for polyPs in the pathogenesis of amyloid-related diseases. [ABSTRACT FROM AUTHOR]

Published

2021

10. Increased Expression of Fibronectin Leucine-Rich Transmembrane Protein 3 in the Dorsal Root Ganglion Induces Neuropathic Pain in Rats.

Author

Moe Yamada, Yuki Fujita, Yasufumi Hayano, Hideki Hayakawa, Kousuke Baba, Hideki Mochizuki, and Toshihide Yamashita

Subjects

*MEMBRANE proteins, *DORSAL root ganglia, *SCIATIC nerve injuries, *FIBRONECTINS, *PERIPHERAL nervous system, *SCIATIC nerve

Abstract

Neuropathic pain is a chronic condition that occurs frequently after nerve injury and induces hypersensitivity or allodynia characterized by aberrant neuronal excitability in the spinal cord dorsal horn. Fibronectin leucine-rich transmembrane protein 3 (FLRT3) is a modulator of neurite outgrowth, axon pathfinding, and cell adhesion, which is upregulated in the dorsal horn following peripheral nerve injury. However, the function of FLRT3 in adults remains unknown. Therefore, we aimed to investigate the involvement of spinal FLRT3 in neuropathic pain using rodent models. In the dorsal horns of male rats, FLRT3 protein levels increased at day 4 after peripheral nerve injury. In the DRG, FLRT3 was expressed in activating transcription factor 3-positive, injured sensory neurons. Peripheral nerve injury stimulated Flrt3 transcription in the DRG but not in the spinal cord. Intrathecal administration of FLRT3 protein to naive rats induced mechanical allodynia and GluN2B phosphorylation in the spinal cord. DRG-specific FLRT3 overexpression using adeno-associated virus also produced mechanical allodynia. Conversely, a function-blocking FLRT3 antibody attenuated mechanical allodynia after partial sciatic nerve ligation. Therefore, FLRT3 derived from injured DRG neurons increases dorsal horn excitability and induces mechanical allodynia. [ABSTRACT FROM AUTHOR]

Published

2019

11. Parkinson's disease is a type of amyloidosis featuring accumulation of amyloid fibrils of α-synuclein.

Author

Katsuya Araki, Naoto Yagi, Koki Aoyama, Chi-Jing Choong, Hideki Hayakawa, Harutoshi Fujimura, Yoshitaka Nagai, Yuji Goto, and Hideki Mochizuki

Subjects

*PARKINSON'S disease, *DIFFRACTION patterns, *X-ray diffraction, *NEURODEGENERATION

Abstract

Many neurodegenerative diseases are characterized by the accumulation of abnormal protein aggregates in the brain. In Parkinson's disease (PD), á-synuclein (á-syn) forms such aggregates called Lewy bodies (LBs). Recently, it has been reported that aggregates of á-syn with a cross-â structure are capable of propagating within the brain in a prionlike manner. However, the presence of cross-â sheet-rich aggregates in LBs has not been experimentally demonstrated so far. Here, we examined LBs in thin sections of autopsy brains of patients with PD using microbeam X-ray diffraction (XRD) and found that some of them gave a diffraction pattern typical of a cross-â structure. This result confirms that LBs in the brain of PD patients contain amyloid fibrils with a cross-â structure and supports the validity of in vitro propagation experiments using artificially formed amyloid fibrils of á-syn. Notably, our finding supports the concept that PD is a type of amyloidosis, a disease featuring the accumulation of amyloid fibrils of á-syn. [ABSTRACT FROM AUTHOR]

Published

2019

12. Isolated cortical vasogenic edema and hyperintense vessel signs may be early features of reversible cerebral vasoconstriction syndrome: Case reports.

Author

Sho Murase, Yasufumi Gon, Akihiro Watanabe, Kenichi Todo, Nobuo Kohara, Hideki Mochizuki, Manabu Sakaguchi, Murase, Sho, Gon, Yasufumi, Watanabe, Akihiro, Todo, Kenichi, Kohara, Nobuo, Mochizuki, Hideki, and Sakaguchi, Manabu

Subjects

*VASOCONSTRICTION, *DIAGNOSIS of neurological disorders, *MAGNETIC resonance imaging of the brain, *FOLLOW-up studies (Medicine), *DISEASE complications

Abstract

Background The temporal and anatomical features of vasoconstriction in patients with reversible cerebral vasoconstriction syndrome within hours after symptom onset, in the hyperacute phase, are unclear. Case result Herein we report the cases of two patients with acute severe headache who were diagnosed with reversible cerebral vasoconstriction syndrome. Magnetic resonance imaging within hours after symptom onset revealed multiple areas of isolated cortical vasogenic edema and hyperintense vessel signs of the distal cerebral arteries. Follow-up imaging performed four days later in both cases showed diffuse segmental arterial vasoconstriction in the proximal regions of the cerebral arteries. Both patients received antivasoconstrictive therapy shortly after admission, and neither had neurological sequelae at discharge. The magnetic resonance imaging findings improved gradually within three months after symptom onset. Conclusion Isolated cortical vasogenic edema and hyperintense vessel signs, when observed within hours from sudden severe headache onset, may be useful early markers of reversible cerebral vasoconstriction syndrome. [ABSTRACT FROM AUTHOR]

Published

2018

13. Validation of an algorithm that determines stroke diagnostic code accuracy in a Japanese hospital-based cancer registry using electronic medical records.

Author

Yasufumi Gon, Daijiro Kabata, Keichi Yamamoto, Ayumi Shintani, Kenichi Todo, Hideki Mochizuki, Manabu Sakaguchi, Gon, Yasufumi, Kabata, Daijiro, Yamamoto, Keichi, Shintani, Ayumi, Todo, Kenichi, Mochizuki, Hideki, and Sakaguchi, Manabu

Subjects

*STROKE diagnosis, *ELECTRONIC health records, *CEREBRAL infarction, *HEMORRHAGE, *CEREBROVASCULAR disease, *PUBLIC health

Abstract

Background: This study aimed to validate an algorithm that determines stroke diagnostic code accuracy, in a hospital-based cancer registry, using electronic medical records (EMRs) in Japan.Methods: The subjects were 27,932 patients enrolled in the hospital-based cancer registry of Osaka University Hospital, between January 1, 2007 and December 31, 2015. The ICD-10 (international classification of diseases, 10th revision) diagnostic codes for stroke were extracted from the EMR database. Specifically, subarachnoid hemorrhage (I60); intracerebral hemorrhage (I61); cerebral infarction (I63); and other transient cerebral ischemic attacks and related syndromes and transient cerebral ischemic attack (unspecified) (G458 and G459), respectively. Diagnostic codes, both "definite" and "suspected," and brain imaging information were extracted from the database. We set the algorithm with the combination of the diagnostic code and/or the brain imaging information, and manually reviewed the presence or absence of the acute cerebrovascular disease with medical charts.Results: A total of 2654 diagnostic codes, 1991 "definite" and 663 "suspected," were identified. After excluding duplicates, the numbers of "definite" and "suspected" diagnostic codes were 912 and 228, respectively. The proportion of the presence of the disease in the "definite" diagnostic code was 22%; this raised 51% with the combination of the diagnostic code and the use of brain imaging information. When adding the interval of when brain imaging was performed (within 30 days and within 1 day) to the diagnostic code, the proportion increased to 84% and 90%, respectively. In the algorithm of "definite" diagnostic code, history of stroke was the most common in the diagnostic code, but in the algorithm of "definite" diagnostic code and the use of brain imaging within 1 day, stroke mimics was the most frequent.Conclusions: Combining the diagnostic code and clinical examination improved the proportion of the presence of disease in the diagnostic code and achieved appropriate accuracy for research. Clinical research using EMRs require outcome validation prior to conducting a study. [ABSTRACT FROM AUTHOR]

Published

2017

14. Peripherally derived FGF21 promotes remyelination in the central nervous system.

Author

Mariko Kuroda, Rieko Muramatsu, Noriko Maedera, Yoshihisa Koyama, Machika Hamaguchi, Harutoshi Fujimura, Mari Yoshida, Morichika Konishi, Nobuyuki Itoh, Hideki Mochizuki, Toshihide Yamashita, Kuroda, Mariko, Muramatsu, Rieko, Maedera, Noriko, Koyama, Yoshihisa, Hamaguchi, Machika, Fujimura, Harutoshi, Yoshida, Mari, Konishi, Morichika, and Itoh, Nobuyuki

Subjects

*DEMYELINATION, *CENTRAL nervous system, *BLOOD-brain barrier, *OLIGODENDROGLIA, *FIBROBLAST growth factors

Abstract

Demyelination in the central nervous system (CNS) leads to severe neurological deficits that can be partially reversed by spontaneous remyelination. Because the CNS is isolated from the peripheral milieu by the blood-brain barrier, remyelination is thought to be controlled by the CNS microenvironment. However, in this work we found that factors derived from peripheral tissue leak into the CNS after injury and promote remyelination in a murine model of toxin-induced demyelination. Mechanistically, leakage of circulating fibroblast growth factor 21 (FGF21), which is predominantly expressed by the pancreas, drives proliferation of oligodendrocyte precursor cells (OPCs) through interactions with β-klotho, an essential coreceptor of FGF21. We further confirmed that human OPCs expressed β-klotho and proliferated in response to FGF21 in vitro. Vascular barrier disruption is a common feature of many CNS disorders; thus, our findings reveal a potentially important role for the peripheral milieu in promoting CNS regeneration. [ABSTRACT FROM AUTHOR]

Published

2017

15. High expression of α-synuclein in damaged mitochondria with PLA2G6 dysfunction.

Author

Hisae Sumi-Akamaru, Goichi Beck, Koei Shinzawa, Shinsuke Kato, Yuichi Riku, Mari Yoshida, Harutoshi Fujimura, Yoshihide Tsujimoto, Saburo Sakoda, and Hideki Mochizuki

Subjects

*MITOCHONDRIA, *SYNUCLEINS

Abstract

To clarify the role of a-synuclein (αSyn) in neuronal membrane remodeling, we analyzed the expression of αSyn in neurons with a dysfunction of PLA2G6, which is indispensable for membrane remodeling. αSyn/phosphorylated-αSyn (PαSyn) distribution and neurodegeneration were quantitatively estimated in PLA2G6-knockout (KO) mice, which demonstrate marked mitochondrial membrane degeneration. We also assessed the relationship between aSyn deposits and mitochondria in brain tissue from patients with PLA2G6-associated neurodegeneration (PLAN) and Parkinson's disease (PD), and quantitatively examined Lewy bodies (LBs) and neurons. The expression level of αSyn was elevated in PLA2G6-knockdown cells and KO mouse neurons. Strong PαSyn expression was observed in neuronal granules in KO mice before onset of motor symptoms. The granules were mitochondrial outer membrane protein (TOM20)-positive. Ultramicroscopy revealed that PαSyn-positive granules were localized to mitochondria with degenerated inner membranes. After symptom onset, TOM20-positive granules were frequently found in ubiquitinated spheroids, where PαSyn expression was low. Axons were atrophic, but the neuronal loss was not evident in KO mice. In PLAN neurons, small PαSyn-positive inclusions with a TOM20-positive edge were frequently observed and clustered into LBs. The surfaces of most LBs were TOM20-positive in PLAN and TOM20-negative in PD brains. The high proportion of LB-bearing neurons and the preserved neuronal number in PLAN suggested long-term survival of LB-bearing neurons. Elevated expression of αSyn/PαSyn in mitochondria appears to be the early response to PLA2G6-deficiency in neurons. The strong affinity of αSyn for damaged mitochondrial membranes may promote membrane stabilization of mitochondria and neuronal survival in neurons. [ABSTRACT FROM AUTHOR]

Published

2016

16. Increased Total Homocysteine Levels Predict the Risk of Incident Dementia Independent of Cerebral Small-Vessel Diseases and Vascular Risk Factors.

Author

Kaori Miwa, Makiko Tanaka, Shuhei Okazaki, Yoshiki Yagita, Manabu Sakaguchi, Hideki Mochizuki, Kazuo Kitagawa, Miwa, Kaori, Tanaka, Makiko, Okazaki, Shuhei, Yagita, Yoshiki, Sakaguchi, Manabu, Mochizuki, Hideki, and Kitagawa, Kazuo

Subjects

*HOMOCYSTEINE in the body, *DEMENTIA risk factors, *CEREBRAL small vessel diseases, *VASCULAR diseases, *GLOMERULAR filtration rate, *ALZHEIMER'S disease, *DISEASE risk factors, *DEMENTIA, *LONGITUDINAL method, *MAGNETIC resonance imaging, *NEUROPSYCHOLOGICAL tests, *NONPARAMETRIC statistics, *PSYCHOLOGICAL tests, *QUESTIONNAIRES, *HOMOCYSTEINE, *PREDICTIVE tests, *DISEASE incidence, *PROPORTIONAL hazards models, *CAROTID intima-media thickness

Abstract

Background: Homocysteine has been identified as a potential risk factor for stroke, cerebral small-vessel diseases (SVD), and dementia.Objective: The present study aimed to investigate the predictive value of homocysteine levels on incident dementia while simultaneously controlling for MRI findings and vascular risk factors.Methods: Within a Japanese cohort of participants with vascular risk factors in an observational study, we evaluated the association between baseline total homocysteine (tHcy) levels (per 1 μmol/L and the tertile of tHcy), the prevalence of MRI-findings at baseline, and incident all-cause dementia. Baseline brain MRI was used to determine SVD (lacunas, white matter hyperintensities, and cerebral microbleeds [CMBs]) and atrophy (medial-temporal lobe atrophy and bicaudate ratio). Logistic regression analyses were used to estimate the cross-sectional association between tHcy and each of MRI findings. Cox proportional hazards analyses were performed to estimate the longitudinal association between tHcy and dementia.Results: In the 643 subjects (age: 67.2 ± 8.4 years, male: 59% ; education: 12.9 ± 2.6 years), multivariable analyses adjusted for several potential confounders, including estimated glomerular filtration rate (eGFR) and intima-media thickness, showed that highest tHcy tertile was associated with lacunas, CMBs, and strictly deep CMBs. During the mean 7.3-year follow-up (range: 2-13), 47 patients were diagnosed with dementia (Alzheimer's disease: 24; vascular dementia: 18; mixed-type: 3; other: 2). After adjusting for age, gender, APOE ɛ4, education, BMI, MMSE, hypertension, cerebrovascular events, eGFR, and MRI-findings, tHcy level (hazard ratios [HR]: 1.08, p = 0.043) and the highest tertile of tHcy (HR: 2.50, p = 0.047) for all-cause dementia remained significant.Conclusions: Our results provide additional evidence of tHcy that contributes to increased susceptibility to dementia risk. [ABSTRACT FROM AUTHOR]

Published

2016

17. A novel histone deacetylase 1 and 2 isoform-specific inhibitor alleviates experimental Parkinson's disease.

Author

Chi-Jing Choong, Tsutomu Sasaki, Hideki Hayakawa, Toru Yasuda, Kousuke Baba, Yoshiyuki Hirata, Shinichi Uesato, and Hideki Mochizuki

Subjects

*HISTONE deacetylase inhibitors, *NEURODEGENERATION, *PARKINSON'S disease treatment, *PYRIDINIUM compounds, *MITOGEN-activated protein kinases, *IN vitro studies

Abstract

With increased histone deacetylase (HDAC) activity and histone hypoacetylation being implicated in neurodegeneration, HDAC inhibitors have been reported to have considerable therapeutic potential. Yet, existing inhibitors lack specificity and may show substantial adverse effect. In this study, we identified a novelHDAC1/2 isoform-specific inhibitor, K560, with protective effects against 1-methyl-4-phenylpyridinium (MPP+)-and/or 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced neuronal death in both in vitro and in vivo Parkinson's disease model. K560 attenuated cell death induced by MPP+ in differentiated SH-SY5Y cells through the sustained expression of an antiapoptotic protein, X-linked inhibitor of apoptosis (XIAP). Inhibition of XIAP expression by locked nucleic acid antisense oligonucleotides abolished the protective effect of K560. Inactivation of mitogen-activated protein kinase cascades, reduced p53 phosphorylation, and down-regulation of p53-upregulated modulator of apoptosis on K560 treatment were also observed. Furthermore, pre- and post-oral administration of K560 to mice prevented MPTP-induced loss of dopaminergic neurons in substantia nigra, suggesting that selective inhibition of HDAC1 and HDAC2 by K560may pave the way to new strategies for Parkinson's disease treatment. [ABSTRACT FROM AUTHOR]

Published

2016

18. Distribution of α-synuclein in the spinal cord and dorsal root ganglia in an autopsy cohort of elderly persons.

Author

Hiroyuki Sumikura, Masaki Takao, Hiroyuki Hatsuta, Shinji Ito, Yuta Nakano, Akiko Uchino, Akane Nogami, Yuko Saito, Hideki Mochizuki, and Shigeo Murayama

Subjects

*LEWY body dementia, *DISEASE diagnosis in older people, *ALPHA-synuclein, *THERAPEUTICS

Abstract

Background: Lewy body-related α-synucleinopathy (LBAS, the abnormal accumulation of pathologic α-synuclein) is found in the central and peripheral nervous systems, including the spinal cord, dorsal root ganglia, and sympathetic ganglia, of Parkinson's disease patients. However, few studies have focused on the distribution of LBAS in the spinal cord, primary sensory neurons, and preganglionic sympathetic nerves. Results: We analyzed 265 consecutive subjects with LBAS who underwent autopsy at a general geriatric hospital. LBAS in the spinal cord was significantly associated with that in the lower brainstem regions that are directly connected to the spinal cord (i.e., the medullary reticular formation and locus ceruleus), but it was not associated with the olfactory bulb-amygdala system, which is not directly connected to the spinal cord, suggesting that the lower brainstem is a key structure regarding the spread of LBAS to the spinal cord. In the primary sensory neurons, most subjects with LBAS in the dorsal root ganglia had LBAS in the dorsal root, and all subjects with LBAS in the dorsal root also had LBAS in the dorsal horn, suggesting that LBAS spreads retrogradely from the axonal terminals of the dorsal horn to the somata of the dorsal root ganglia via the dorsal root. In the preganglionic sympathetic nerves, the LBAS in the sympathetic ganglia preceded that in the nucleus of the intermediolateral column of the thoracic cord, suggesting that LBAS spreads retrogradely through the preganglionic sympathetic nerves. Conclusions: LBAS in the spinal cord was associated with the lower regions of the brainstem, but not with the olfactory bulb or amygdala. LBAS may spread centrifugally along the primary sensory neurons, whereas it may spread centripetally along the preganglionic sympathetic nerves. [ABSTRACT FROM AUTHOR]

Published

2015

19. Distribution of α-synuclein in the spinal cord and dorsal root ganglia in an autopsy cohort of elderly persons.

Author

Hiroyuki Sumikura, Masaki Takao, Hiroyuki Hatsuta, Shinji Ito, Yuta Nakano, Akiko Uchino, Akane Nogami, Yuko Saito, Hideki Mochizuki, and Shigeo Murayama

Subjects

*ALPHA-synuclein, *SPINAL ganglia, *PARKINSON'S disease

Abstract

Background: Lewy body-related a-synucleinopathy (LBAS, the abnormal accumulation of pathologic a-synuclein) is found in the central and peripheral nervous systems, including the spinal cord, dorsal root ganglia, and sympathetic ganglia, of Parkinson's disease patients. However, few studies have focused on the distribution of LBAS in the spinal cord, primary sensory neurons, and preganglionic sympathetic nerves. Results: We analyzed 265 consecutive subjects with LBAS who underwent autopsy at a general geriatric hospital. LBAS in the spinal cord was significantly associated with that in the lower brainstem regions that are directly connected to the spinal cord (i.e., the medullary reticular formation and locus ceruleus), but it was not associated with the olfactory bulb-amygdala system, which is not directly connected to the spinal cord, suggesting that the lower brainstem is a key structure regarding the spread of LBAS to the spinal cord. In the primary sensory neurons, most subjects with LBAS in the dorsal root ganglia had LBAS in the dorsal root, and all subjects with LBAS in the dorsal root also had LBAS in the dorsal horn, suggesting that LBAS spreads retrogradely from the axonal terminals of the dorsal horn to the somata of the dorsal root ganglia via the dorsal root. In the preganglionic sympathetic nerves, the LBAS in the sympathetic ganglia preceded that in the nucleus of the intermediolateral column of the thoracic cord, suggesting that LBAS spreads retrogradely through the preganglionic sympathetic nerves. Conclusions: LBAS in the spinal cord was associated with the lower regions of the brainstem, but not with the olfactory bulb or amygdala. LBAS may spread centrifugally along the primary sensory neurons, whereas it may spread centripetally along the preganglionic sympathetic nerves. [ABSTRACT FROM AUTHOR]

Published

2015

20. Elevation of Sema4A Implicates Th Cell Skewing and the Efficacy of IFN-β Therapy in Multiple Sclerosis.

Author

Yuji Nakatsuji, Tatsusada Okuno, Masayuki Moriya, Tomoyuki Sugimoto, Makoto Kinoshita, Hyota Takamatsu, Satoshi Nojima, Tetsuya Kimura, Sujin Kang, Daisuke Ito, Yukinobu Nakagawa, Toshihiko Toyofuku, Kazushiro Takata, Misa Nakano, Masato Kubo, Sinobu Suzuki, Akiko Matsui-Hasumi, Ayako Uto-Konomi, Atsushi Ogata, and Hideki Mochizuki

Subjects

*MULTIPLE sclerosis, *AUTOIMMUNE diseases, *ANTIGEN presentation, *SEMAPHORINS, *ENCEPHALOMYELITIS, *METALLOPROTEINASES, *INTERFERONS

Abstract

Multiple sclerosis (MS) is a demyelinating autoimmune disease of the CNS and a leading cause of lasting neurologic disabilities in young adults. Although the precise mechanism remains incompletely understood, Ag presentation and subsequent myelin-reactive CD4+ T cell activation/differentiation are essential for the pathogenesis of MS. Although semaphorins were initially identified as axon guidance cues during neural development, several semaphorins are crucially involved in various phases of immune responses. Sema4A is one of the membrane-type class IV semaphorins, which we originally identified from the cDNA library of dendritic cell (DC). Sema4A plays critical roles in T cell activation and Thl differentiation during the course of experimental autoimmune encephalomyelitis, an animal model of MS; however, its pathological involvement in human MS has not been determined. In this study, we report that Sema4A is increased in the sera of patients with MS. The expression of Sema4A is increased on DCs in MS patients and shed from these cells in a metalloproteinase-dependent manner. DC-derived Sema4A is not only critical for Thl but also for Th17 cell differentiation, and MS patients with high Sema4A levels exhibit Th17 skewing. Furthermore, patients with high Sema4A levels have more severe disabilities and are unresponsive to IFN-β treatment. Taken together, our results suggest that Sema4A is involved in the pathogenesis of MS by promoting Th17 skewing. [ABSTRACT FROM AUTHOR]

Published

2012

21. Transgenic-Cloned Pigs Systemically Expressing Red Fluorescent Protein, Kusabira-Orange.

Author

Hitomi Matsunari, Masafumi Onodera, Norihiro Tada, Hideki Mochizuki, Satoshi Karasawa, Erika Haruyama, Naoki Nakayama, Hitoshi Saito, Satoshi Ueno, Mayuko Kurome, Atsushi Miyawaki, and Hiroshi Nagashima

Subjects

*GENE expression, *TRANSGENIC animals, *PROTEINS, *FLUORESCENCE, *TRANSPLANTATION of cell nuclei, *CLONING, *LABORATORY swine

Abstract

Genetically engineered pigs with cell markers such as fluorescent proteins are highly useful in lines of research that include the tracking of transplanted cells or tissues. In this study, we produced transgenic-cloned pigs carrying a gene for the newly developed red fluorescent protein, humanized Kusabira-Orange (huKO), which was cloned from the coral stone Fungia concinna. The nuclear transfer embryos, reconstructed with fetal fibroblast cells that had been transduced with huKO cDNA using retroviral vector DΔNsap, developed efficiently in vitrointo blastocysts (28.0, 37132). Nearly all (94.6, 3537) of the cloned blastocysts derived from the transduced cells exhibited clear huKO gene expression. A total of 429 nuclear transfer embryos were transferred to four recipients, all of which became pregnant and gave birth to 18 transgenic-cloned offspring in total. All of the pigs highly expressed huKO fluorescence in all of the 23 organs and tissues analyzed, including the brain, eyes, intestinal and reproductive organs, skeletal muscle, bone, skin, and hoof. Furthermore, such expression was also confirmed by histological analyses of various tissues such as pancreatic islets, renal corpuscles, neuronal and glial cells, the retina, chondrocytes, and hematopoietic cells. These data demonstrate that transgenic-cloned pigs exhibiting systemic red fluorescence expression can be efficiently produced by nuclear transfer of somatic cells retrovirally transduced with huKO gene. [ABSTRACT FROM AUTHOR]

Published

2008