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Morita, Kyoji,Gotohda, Takako,Arimochi, Hideki,Lee, Mi-Sook,Her, Song Wiley Subscription Services, Inc., A Wiley Company 2009 Journal of neuroscience research Vol.87 No.11
<P>Progesterone treatment has previously been reported to promote the differentiation of glial cells probably through the production of 5α-reduced neurosteroids, resulting in the enhancement of serotonin-stimulated brain-derived neurotrophic factor (BDNF) gene expression, which is considered to contribute to the survival, regeneration, and plasticity of neuronal cells in the brain and hence has been suggested to improve mood disorders and other symptoms in depressive patients. Based on these previous observations, the effects on glial cells of histone deacetylase (HDAC) inhibitors, which are known as agents promoting cell differentiation, were examined using rat C6 glioma cells as a model for in vitro studies. Consequently, trichostatin A (TSA), sodium butyrate (NaB), and valproic acid (VPA) stimulated glial fibrillary acidic protein (GFAP) gene expression, and their stimulatory effects on GFAP gene expression were inhibited by treatment of these cells with finasteride, an inhibitor of the enzyme producing 5α-reduced neurosteroids. In addition, HDAC inhibitors enhanced serotonin-stimulated BDNF gene expression, the enhancement of which could be abolished by the inhibition of 5α-reduced neurosteroid production in the glioma cells. These results suggest that HDAC inhibitors may be able to promote the differentiation of rat C6 glioma cells through the production of 5α-reduced neurosteroids, resulting in the enhancement of serotonin-stimulated BDNF gene expression as a consequence of promoting their differentiation, indicating the possibility that differentiated glial cells may be implicated in preserving the integrity of neural networks as well as improving the function of neuronal cells in the brain. © 2009 Wiley-Liss, Inc.</P>
Morita, Kyoji,Lee, Mi-Sook,Her, Song,Nishibori, Naoyoshi Published for the International Federation for Cel 2014 Cell biology international Vol.38 No.10
<P>Polyamines are widely distributed in living organisms, and considered to play a potential role in various cellular processes. The effects of polyamines on gene expression as well as cell proliferation have been suggested to be closely associated with the physiological and pathological functions. However, it seems necessary to investigate their potential roles in the regulation of cellular metabolism and functions. Previously, glial cells have been suggested to be involved in the protection and preservation of neuronal functions, probably through the production of neurotrophic factors in the brain. On the other hand, neuroactive 5α-reduced steroids promote glial cell differentiation, resulting in enhancement of their ability to produce brain-derived neurotrophic factor (BDNF). Based on these findings, polyamines are assumed to stimulate the expression of the gene encoding steroid 5α-reductase (5α-R), which can induce the production of neuroactive 5α-reduced steroids in glial cells. The effects of polyamines on 5α-R mRNA levels in C6 glioma cells were examined as a model experiment. In consequence, spermine (SPM) and spermidine (SPD), but not putrescine (PUT), have been shown to elevate 5α-R mRNA levels without activating the 5α-R promoter. Furthermore, SPM increased 5α-R mRNA levels under the conditions in which the mRNA biosynthesis was inhibited. Therefore, it can be speculated that polyamines increase 5α-R mRNA levels as a consequence of suppressing the degradation of mRNA.</P>
Morita, Kyoji,Her, Song Birkhäuser Boston 2008 Journal of molecular neuroscience Vol.34 No.3
<P>Tricyclic antidepressants and selective serotonin reuptake inhibitors are considered in theory to induce the outflow of neurotransmitters, norepinephrine, and serotonin from the synapses as a consequence of inhibiting their reuptake into the nerve terminals, resulting in the stimulation of glial cells surrounding the synapses in the brain. Then, we have investigated the direct actions of neurotransmitters on glial cell metabolism and function using rat C6 glioma cells as an in vitro model system and suggested that these neurotransmitters induce their differentiation probably through the production of 5alpha-reduced neurosteroids. On the other hand, the stimulation of the glioma cells with serotonin has been reported to enhance brain-derived neurotrophic factor (BDNF) gene expression, which may be closely related to the beneficial effects of antidepressant drugs. In the present study, to evaluate BDNF expression in differentiated glial cells, the glioma cells were pretreated with progesterone, and the effect of serotonin on BDNF messenger RNA levels in these cells was examined. Progesterone pretreatment enhanced the stimulatory action of serotonin on BDNF gene expression, and the enhancement of serotonin action observed in the cells pretreated with progesterone was almost completely abolished by finasteride, an inhibitor of the enzyme involved in the production of 5alpha-reduced neurosteroids. These findings propose the possibility that neurosteroid-mediated glial cell differentiation may result in the enhancement of serotonin-stimulated BDNF gene expression, which is considered to contribute to the survival, regeneration, and plasticity of neuronal cells in the brain, and hence, leading to the improvement of mood disorders and other symptoms in depressive patients.</P>
Optimization of Joint Force of Planar Linkage with Clearances at Turning Pairs
Morita, Nobuyoshi,Feng, Bin,Torii, Takao 대한기계학회 1996 International Sessions in Celebration of the 50th Vol.1 No.1
This paper presents a new dynamic design method, which is to controls the sharp changes of joint forces, through adjusting the distributing of masses of links itself. The masses, the center of mass and the moment of inertia of links are taken as the optimum design variables. The multi-objective optimum design is carried out by using the nonlinear optimization technique. A small element method to form the shape of links from the optimized parameters is developed. The dynamic characteristics of optimized four-bar mechanism are also investigated.
Morita, Kyoji,Lee, Mi-Sook,Her, Song Birkhäuser Boston 2009 Journal of molecular neuroscience Vol.38 No.1
<P>Glial cells are generally considered to contribute to retaining the integrity of neural function through the protection of neuronal cells against neurodegenerative insults and also expected to play a potential role in the protection of cerebrovascular systems from various toxic insults of hemorrhaged blood, thus proposing a possible implication of glial cells in the recovery of brain function from the damage caused by cerebral hemorrhage. Based on this hypothetical idea, the direct effect of hemin on the expression of genes encoding heme oxygenase-1 (HO-1), vascular endothelial growth factor (VEGF), and brain-derived neurotrophic factor (BDNF) in glial cells was examined using rat C6 glioma cells as an in vitro model system. Hemin elevated both HO-1 and VEGF mRNA levels in the glioma cells at the concentration causing no critical damage to the cells, and the elevation of BDNF mRNA levels was also observed by exposing the cells to hemin under the same conditions. Furthermore, the elevation of VEGF and BDNF mRNA levels induced by hemin was blocked by pretreatment of the cells with the agents inhibiting not only HO-1 gene expression but also its enzymatic activity. These pharmacological studies indicate that hemin can induce the enhancement of VEGF and BDNF gene expression probably through the mechanism mediated by HO-1 activity in the glioma cells, proposing the possibility that glial cells are capable of contributing to the recovery of brain function from the damage caused by cerebral hemorrhage through the production of neurogenic and angiogenic factors.</P>