Naoya Nakai

Publications (33)98.92 Total impact

• Article: HSP25 can modulate myofibrillar desmin cytoskeleton following the phosphorylation at Ser15 in rat soleus muscle.

  Fuminori Kawano, Ryo Fujita, Naoya Nakai, Masahiro Terada, Takashi Ohira, Yoshinobu Ohira
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  ABSTRACT: The main purpose of the present study was to investigate the role(s) of 25-kDa heat shock protein (HSP25) in the regulation and integration of myofibrillar Z-disc structure during down- or upregulation of the size in rat soleus muscle fibers. Hindlimb unloading by tail suspension was performed in adult rats for 7 days, and reloading was allowed for 5 days after the termination of suspension. Interaction of HSP25 and Z-disc proteins, phosphorylation status, distribution, and complex formation of HSP25 were investigated. Non- and single-phosphorylated HSP25s were generally expressed in the cytoplasmic fraction of normal muscle. The level of total HSP25, as well as the phosphorylation ratio, did not change significantly in response to atrophy. Increased expressions of HSP25, phosphorylated at serine 15 (p-Ser15) and dual-phosphorylated form, were noted, when atrophied muscles were reloaded. Myofibrillar HSP25 was also noted in reloaded muscle. Histochemical analysis further indicated the localization of p-Ser15 in the regions with disorganization of Z-disc structure in reloaded muscle fibers. HSP25 formed a large molecular complex in the cytoplasmic fraction of normal muscle, whereas dissociation of free HSP25 with Ser15 phosphorylation was noted in reloaded muscle. The interaction of p-Ser15 with desmin and actinin was detected in Z-discs by proximity ligation assay. Strong interaction between p-Ser15 and desmin, but not actinin, was noted in the disorganized areas. These results indicated that HSP25 contributed to the desmin cytoskeletal organization following the phosphorylation at Ser15 during reloading and regrowing of soleus muscle.
  Journal of Applied Physiology 01/2012; 112(1):176-86. · 3.75 Impact Factor
• Source

  Available from: PubMed Central

  Article: Effects of mechanical over-loading on the properties of soleus muscle fibers, with or without damage, in wild type and mdx mice.

  Masahiro Terada, Fuminori Kawano, Takashi Ohira, Naoya Nakai, Norihiro Nishimoto, Yoshinobu Ohira
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  ABSTRACT: Effects of mechanical over-loading on the characteristics of regenerating or normal soleus muscle fibers were studied in dystrophin-deficient (mdx) and wild type (WT) mice. Damage was also induced in WT mice by injection of cardiotoxin (CTX) into soleus muscle. Over-loading was applied for 14 days to the left soleus muscle in mdx and intact and CTX-injected WT mouse muscles by ablation of the distal tendons of plantaris and gastrocnemius muscles. All of the myonuclei in normal muscle of WT mice were distributed at the peripheral region. But, central myonuclei were noted in all fibers of WT mice regenerating from CTX-injection-related injury. Further, many fibers of mdx mice possessed central myonuclei and the distribution of such fibers was increased in response to over-loading, suggesting a shift of myonuclei from peripheral to central region. Approximately 1.4% branched fibers were seen in the intact muscle of mdx mice, although these fibers were not detected in WT mice. The percentage of these fibers in mdx, not in WT, mice was increased by over-loading (∼51.2%). The fiber CSA in normal WT mice was increased by over-loading (p<0.05), but not in mdx and CTX-injected WT mice. It was suggested that compensatory hypertrophy is induced in normal muscle fibers of WT mice following functional over-loading. But, it was also indicated that muscle fibers in mdx mice are susceptible to mechanical over-loading and fiber splitting and shift of myonuclei from peripheral to central region are induced.
  PLoS ONE 01/2012; 7(4):e34557. · 4.09 Impact Factor
• Source

  Available from: Enrico Alleva

  Article: Evaluation of gene, protein and neurotrophin expression in the brain of mice exposed to space environment for 91 days.

  Daniela Santucci, Fuminori Kawano, Takashi Ohira, Masahiro Terada, Naoya Nakai, Nadia Francia, Enrico Alleva, Luigi Aloe, Toshimasa Ochiai, Ranieri Cancedda, Katsumasa Goto, Yoshinobu Ohira
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  ABSTRACT: Effects of 3-month exposure to microgravity environment on the expression of genes and proteins in mouse brain were studied. Moreover, responses of neurobiological parameters, nerve growth factor (NGF) and brain derived neurotrophic factor (BDNF), were also evaluated in the cerebellum, hippocampus, cortex, and adrenal glands. Spaceflight-related changes in gene and protein expression were observed. Biological processes of the up-regulated genes were related to the immune response, metabolic process, and/or inflammatory response. Changes of cellular components involving in microsome and vesicular fraction were also noted. Molecular function categories were related to various enzyme activities. The biological processes in the down-regulated genes were related to various metabolic and catabolic processes. Cellular components were related to cytoplasm and mitochondrion. The down-regulated molecular functions were related to catalytic and oxidoreductase activities. Up-regulation of 28 proteins was seen following spaceflight vs. those in ground control. These proteins were related to mitochondrial metabolism, synthesis and hydrolysis of ATP, calcium/calmodulin metabolism, nervous system, and transport of proteins and/or amino acids. Down-regulated proteins were related to mitochondrial metabolism. Expression of NGF in hippocampus, cortex, and adrenal gland of wild type animal tended to decrease following spaceflight. As for pleiotrophin transgenic mice, spaceflight-related reduction of NGF occurred only in adrenal gland. Consistent trends between various portions of brain and adrenal gland were not observed in the responses of BDNF to spaceflight. Although exposure to real microgravity influenced the expression of a number of genes and proteins in the brain that have been shown to be involved in a wide spectrum of biological function, it is still unclear how the functional properties of brain were influenced by 3-month exposure to microgravity.
  PLoS ONE 01/2012; 7(7):e40112. · 4.09 Impact Factor
• Source

  Available from: Elena Germinario

  Article: Adaptation of mouse skeletal muscle to long-term microgravity in the MDS mission.

  Dorianna Sandonà, Jean-Francois Desaphy, Giulia M Camerino, Elisa Bianchini, Stefano Ciciliot, Daniela Danieli-Betto, Gabriella Dobrowolny, Sandra Furlan, Elena Germinario, Katsumasa Goto, [......], Yoshitaka Ohno, Anne Picard, Michele Salanova, Gudrun Schiffl, Dieter Blottner, Antonio Musarò, Yoshinobu Ohira, Romeo Betto, Diana Conte, Stefano Schiaffino
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  ABSTRACT: The effect of microgravity on skeletal muscles has so far been examined in rat and mice only after short-term (5-20 day) spaceflights. The mice drawer system (MDS) program, sponsored by Italian Space Agency, for the first time aimed to investigate the consequences of long-term (91 days) exposure to microgravity in mice within the International Space Station. Muscle atrophy was present indistinctly in all fiber types of the slow-twitch soleus muscle, but was only slightly greater than that observed after 20 days of spaceflight. Myosin heavy chain analysis indicated a concomitant slow-to-fast transition of soleus. In addition, spaceflight induced translocation of sarcolemmal nitric oxide synthase-1 (NOS1) into the cytosol in soleus but not in the fast-twitch extensor digitorum longus (EDL) muscle. Most of the sarcolemmal ion channel subunits were up-regulated, more in soleus than EDL, whereas Ca(2+)-activated K(+) channels were down-regulated, consistent with the phenotype transition. Gene expression of the atrophy-related ubiquitin-ligases was up-regulated in both spaceflown soleus and EDL muscles, whereas autophagy genes were in the control range. Muscle-specific IGF-1 and interleukin-6 were down-regulated in soleus but up-regulated in EDL. Also, various stress-related genes were up-regulated in spaceflown EDL, not in soleus. Altogether, these results suggest that EDL muscle may resist to microgravity-induced atrophy by activating compensatory and protective pathways. Our study shows the extended sensitivity of antigravity soleus muscle after prolonged exposition to microgravity, suggests possible mechanisms accounting for the resistance of EDL, and individuates some molecular targets for the development of countermeasures.
  PLoS ONE 01/2012; 7(3):e33232. · 4.09 Impact Factor
• Article: Effects of hindlimb unloading on neurogenesis in the hippocampus of newly weaned rats.

  Sachiko Nomura, Katsuya Kami, Fuminori Kawano, Yoshihiko Oke, Naoya Nakai, Takashi Ohira, Ryo Fujita, Masahiro Terada, Kazuhiko Imaizumi, Yoshinobu Ohira
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  ABSTRACT: Effects of hindlimb suspension (HS) and ambulation recovery on hippocampal neurogenesis of newly weaned rats were studied by using immunohistochemical techniques. The number of proliferating cell nuclear antigen-positive (PCNA(+)) cells in the subgranular zone (SGZ) markedly decreased during normal growth. However, neither HS nor subsequent recovery caused additional changes in the number of PCNA(+) cells. The number of doublecortin-positive (DCX(+)) neurons decreased gradually during normal growth. HS resulted in a further decrease in these neurons. However, DCX(+) cell numbers became identical to the levels in age-matched controls after 14 days of recovery. PCNA and DCX-double positive cells in the SGZ were also observed, and their cell numbers were not affected by HS and 14-day ambulation. Thus, HS suppressed the generation of DCX(+) neurons without affecting PCNA(+) cells in the SGZ of weaned rats. Taken together, hippocampal neurogenesis in weaned rats was not severely affected by HS while it decreased significantly as they had grown.
  Neuroscience Letters 12/2011; 509(2):76-81. · 2.11 Impact Factor
• Article: Responses of HSC70 expression in diencephalon to iron deficiency anemia in rats.

  Fuminori Kawano, Yoshihiko Oke, Sachiko Nomura, Ryo Fujita, Takashi Ohira, Naoya Nakai, Yoshinobu Ohira
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  ABSTRACT: A powdered diet containing 100 or 3 ppm Fe was fed to rats starting at the age of 3 weeks. The voluntary activity level was checked using a wheel in the cage during the 17th week after the beginning of supplementation. Significantly less activity was seen in the 3 ppm Fe group during both light and dark periods. After 20 weeks, the blood and diencephalon were sampled from both groups. Lower hematocrit and blood hemoglobin content was observed in the 3 ppm Fe group. The level of 70 kDa heat shock cognate (HSC70) expression was greater in the diencephalon of the 3 ppm Fe group. In addition, the distribution of HSC70 was determined by proximity ligation assay. More HSC70-positive as well as total cells were noted in several areas of the diencephalon of the iron-deficient rats. The altered expression and distribution of HSC70 might play some role in the neurological changes.
  The Journal of Physiological Sciences 08/2011; 61(6):445-56. · 1.61 Impact Factor
• Article: Effects of creatine and its analog, β-guanidinopropionic acid, on the differentiation of and nucleoli in myoblasts.

  Yoshinobu Ohira, Yoshikazu Matsuoka, Fuminori Kawano, Akihiko Ogura, Yoko Higo, Takashi Ohira, Masahiro Terada, Yoshihiko Oke, Naoya Nakai
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  ABSTRACT: The effects of supplementation with creatine (Cr) and its analog, β-guanidinopropionic acid (β-GPA), on the differentiation of myoblasts and the numbers of nucleoli were studied in C2C12 cells. The cells were cultured in differentiation medium for 4 d. Then Cr (1 mM) or β-GPA (1 mM) was added to the cells, and the mixture was cultured for an additional 2 d. Although the number of myotubes was not different among the groups, myotube diameters and nuclear numbers in myotubes were increased by Cr and β-GPA treatment respectively. The expression of differentiation marker proteins, myogenin, and the myosine heavy chain, was increased in the β-GPA group. Supplementation with β-GPA also increased the percentage of p21 (inhibitor for cell cycle progression)-positive myoblasts. Supplementation with Cr inhibited the decrease in nucleoli numbers, whereas β-GPA increased nucleolar sizes in the myotubes. These results suggest that β-GPA supplementation stimulated the differentiation of myoblasts into multi-nucleated myotubes through induction of p21 expression.
  Bioscience Biotechnology and Biochemistry 06/2011; 75(6):1085-9. · 1.28 Impact Factor
• Source

  Available from: PubMed Central

  Article: Region-specific responses of adductor longus muscle to gravitational load-dependent activity in Wistar Hannover rats.

  Takashi Ohira, Masahiro Terada, Fuminori Kawano, Naoya Nakai, Akihiko Ogura, Yoshinobu Ohira
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  ABSTRACT: Response of adductor longus (AL) muscle to gravitational unloading and reloading was studied. Male Wistar Hannover rats (5-wk old) were hindlimb-unloaded for 16 days with or without 16-day ambulation recovery. The electromyogram (EMG) activity in AL decreased after acute unloading, but that in the rostral region was even elevated during continuous unloading. The EMG levels in the caudal region gradually increased up to 6th day, but decreased again. Approximately 97% of fibers in the caudal region were pure type I at the beginning of experiment. Mean percentage of type I fibers in the rostral region was 61% and that of type I+II and II fiber was 14 and 25%, respectively. The percent type I fibers decreased and de novo appearance of type I+II was noted after unloading. But the fiber phenotype in caudal, not rostral and middle, region was normalized after 16-day ambulation. Pronounced atrophy after unloading and re-growth following ambulation was noted in type I fibers of the caudal region. Sarcomere length in the caudal region was passively shortened during unloading, but that in the rostral region was unchanged or even stretched slightly. Growth-associated increase of myonuclear number seen in the caudal region of control rats was inhibited by unloading. Number of mitotic active satellite cells decreased after unloading only in the caudal region. It was indicated that the responses of fiber properties in AL to unloading and reloading were closely related to the region-specific neural and mechanical activities, being the caudal region more responsive.
  PLoS ONE 01/2011; 6(6):e21044. · 4.09 Impact Factor
• Article: Mechanical stretch activates signaling events for protein translation initiation and elongation in C2C12 myoblasts.

  Naoya Nakai, Fuminori Kawano, Yoshihiko Oke, Sachiko Nomura, Takashi Ohira, Ryo Fujita, Yoshinobu Ohira
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  ABSTRACT: It has been proposed that mechanically induced tension is the critical factor in the induction of muscle hypertrophy. However, the molecular mechanisms involved in this process are still under investigation. In the present study, the effect of mechanical stretch on intracellular signaling for protein translation initiation and elongation was studied in C2C12 myoblasts. Cells were grown on a silicone elastomer chamber and subjected to 30-min of 5 or 15% constant static or cyclic (60 cycles/min) uniaxial stretch. Western blot analyses revealed that p70 S6 kinase (p70S6K) and eukaryotic elongation factor 2 (eEF2), which are the markers for translation initiation and peptide chain elongation, respectively, were activated by both static and cyclic stretch. The magnitude of activation was greater in response to the 15% cyclic stretch. Cyclic stretch also increased the phosphorylation of MAP kinases (p38 MAPK, ERK1/2 and JNK). However, the pharmacological inhibition of MAP kinases did not block the stretch-induced activation of p70S6K and eEF2. An inhibitor of the mammalian target of rapamycin (mTOR) blocked the stretch-induced phosphorylation of p70S6K but did not affect the eEF2 activation. A broad-range tyrosine kinase inhibitor, genistein, blocked the stretch-induced activation of p70S6K and eEF2, whereas Src tyrosine kinase and Janus kinase (JAK) inhibitors did not. These results suggest that the stretch-induced activation of protein translation initiation and elongation in mouse myoblast cell lines is mediated by tyrosine kinase(s), except for Src kinase or JAK.
  Molecules and Cells 10/2010; 30(6):513-8. · 2.18 Impact Factor
• Article: Role(s) of gravitational loading during developing period on the growth of rat soleus muscle fibers.

  Fuminori Kawano, Katsumasa Goto, Xiao Dong Wang, Masahiro Terada, Takashi Ohira, Naoya Nakai, Toshitada Yoshioka, Yoshinobu Ohira
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  ABSTRACT: Effects of gravitational loading or unloading on the gain of the characteristics in soleus muscle fibers were studied in rats. The tail suspension was performed in newborn rats from postnatal day 4 to month 3, and the reloading was allowed for 3 mo in some rats. Single expression of type I myosin heavy chain (MHC) was observed in approximately 82% of fibers in 3-mo-old controls, but the fibers expressing multiple MHC isoforms were noted in the unloaded rats. Although 97% of fibers in 3-mo-old controls had a single neuromuscular junction at the central region of fiber, fibers with multiple nerve endplates were seen in the unloaded group. Faster contraction speed and lower maximal tension development, even after normalization with fiber size, were observed in the unloaded pure type I MHC fibers. These parameters generally returned to the age-matched control levels after reloading. It was suggested that antigravity-related tonic activity plays an important role in the gain of single neural innervation and of slow contractile properties and phenotype in soleus muscle fibers.
  Journal of Applied Physiology 03/2010; 108(3):676-85. · 3.75 Impact Factor
• Article: Myonucleus-related properties in soleus muscle fibers of mdx mice.

  Masahiro Terada, Yong Bo Lan, Fuminori Kawano, Takashi Ohira, Yoko Higo, Naoya Nakai, Kazuhiko Imaizumi, Akihiko Ogura, Norihiro Nishimoto, Yasuo Adachi, Yoshinobu Ohira
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  ABSTRACT: Distribution and total number of myonuclei in single soleus muscle fibers, sampled from tendon to tendon, were analyzed in mdx and wild-type (WT) mice. Apoptotic myonuclei and the microscopic structure around the myonuclei were also analyzed. Three types of muscle fibers of mdx mice with myonuclear distribution at either central, peripheral, or both central and peripheral regions were observed in the longitudinal analyses. All of the myonuclei were located at the peripheral region in WT mice. The total number of myonuclei counted in the whole length of fibers with peripheral myonuclei only was 17% less in mdx than in WT mice (p < 0.05). But the total myonuclear numbers in mdx mouse fibers with different distribution (peripheral vs. central) of myonuclei were identical, and the peripheral nucleus was noted where the central nucleus was missing. Myonuclei located between the center and peripheral regions were also seen in the cross-sectional analyses of muscle fibers. The cross-sectional area and length of fibers, sarcomere number, myonuclear size, myosin heavy chain expression, satellite cell number and neuromuscular junction were identical between each type of fiber. Apoptosis was not detected in any myonuclei located either in central or peripheral regions of muscle fibers. Thus, it was suggested that apoptosis-related loss of central myonuclei and regeneration-related new accretion at the peripheral region is not the cause of different distribution of myonuclei seen in muscle fibers in mdx mice. However, it was speculated that cross-sectional migration of myonuclei from central to peripheral regions may be induced in response to regeneration, because the total myonuclear numbers in fibers with different distribution of myonuclei were identical, and the peripheral nucleus was noted where the central nucleus was missing. Further, myonuclei located between the center and peripheral regions were also seen. However, the question remains as to how or why nuclei might migrate to the periphery in a regenerating muscle fiber, since there was no microscopic evidence of any structural changes around the myonuclei that may be responsible for the movement of the nucleus.
  Cells Tissues Organs 09/2009; 191(3):248-59. · 2.20 Impact Factor
• Article: Essential role of satellite cells in the growth of rat soleus muscle fibers.

  Fuminori Kawano, Yoshiaki Takeno, Naoya Nakai, Yoko Higo, Masahiro Terada, Takashi Ohira, Ikuya Nonaka, Yoshinobu Ohira
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  ABSTRACT: Effects of gravitational loading or unloading on the growth-associated increase in the cross-sectional area and length of fibers, as well as the total fiber number, in soleus muscle were studied in rats. Furthermore, the roles of satellite cells and myonuclei in growth of these properties were also investigated. The hindlimb unloading by tail suspension was performed in newborn rats from postnatal day 4 to month 3 with or without 3-mo reloading. The morphological properties were measured in whole muscle and/or single fibers sampled from tendon to tendon. Growth-associated increases of soleus weight and fiber cross-sectional area in the unloaded group were approximately 68% and 69% less than the age-matched controls. However, the increases of number and length of fibers were not influenced by unloading. Growth-related increases of the number of quiescent satellite cells and myonuclei were inhibited by unloading. And the growth-related decrease of mitotically active satellite cells, seen even in controls (20%, P > 0.05), was also stimulated (80%). The increase of myonuclei during 3-mo unloading was only 40 times vs. 92 times in controls. Inhibited increase of myonuclear number was not related to apoptosis. The size of myonuclear domain in the unloaded group was less and that of single nuclei, which was decreased by growth, was larger than controls. However, all of these parameters, inhibited by unloading, were increased toward the control levels generally by reloading. It is suggested that the satellite cell-related stimulation in response to gravitational loading plays an essential role in the cross-sectional growth of soleus muscle fibers.
  AJP Cell Physiology 08/2008; 295(2):C458-67. · 3.54 Impact Factor
• Source

  Available from: sitemix.jp

  Article: Effects of peroxisome proliferator-activated receptor alpha (PPARalpha) agonists on leucine-induced phosphorylation of translational targets in C2C12 cells.

  Naoya Nakai, Fuminori Kawano, Masahiro Terada, Yoshihiko Oke, Takashi Ohira, Yoshinobu Ohira
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  ABSTRACT: Effect of peroxisome proliferator-activated receptor alpha (PPARalpha) agonists, WY-14,643 (WY) and/or clofibrate, on the leucine-induced phosphorylation of translational targets in C2C12 myoblasts was studied. C2C12 cells were treated with WY or clofibrate for 24 h prior to stimulation with leucine. Western blot analyses revealed that the leucine-induced phosphorylation of p70 S6 kinase (p70S6K), a key regulator of translation initiation, was significantly higher in WY-treated cells than in control and clofibrate-treated cells. Phosphorylation of extracellular-regulated kinase (ERK1/2) was higher in WY-treated cells. WY treatment also increased the leucine-induced phosphorylation of ribosomal protein S6 and eukaryotic initiation factor 4B. In contrast, eukaryotic elongation factor 2, a marker for peptide chain elongation process, was significantly activated (dephosphorylated) only in leucine-stimulated control cells. Pre-treatment of the cells with PD98059 (ERK1/2 kinase inhibitor) prevented the phosphorylation of ERK1/2 and decreased the leucine-induced phosphorylation of p70S6K. It is concluded that WY increased the leucine-induced phosphorylation of target proteins involving in translation initiation via ERK/p70S6K pathway, but impaired the signaling for elongation process, suggesting that p70S6K phosphorylation may be essential, but not sufficient for the activation of entire targets for protein translation in WY-treated cells.
  Biochimica et Biophysica Acta 07/2008; 1780(10):1101-5. · 4.66 Impact Factor
• Article: Clinical aspects of physical exercise for diabetes/metabolic syndrome.

  Yuzo Sato, Masaru Nagasaki, Masakazu Kubota, Tomoko Uno, Naoya Nakai
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  ABSTRACT: Evidence-based medicine (EBM) has come to be regarded as essential in all fields of medical sciences and practical medicine. In the field of diabetes and exercise, among the epidemiological studies of physical exercise, recent mega-trials such as the Diabetes Prevention Program (DPP) in the U.S. have shown that lifestyle intervention programs involving diet and/or exercise reduce the progression of impaired glucose tolerance (IGT) to type 2 diabetes. In studies examining the endocrinological and metabolic effects of exercise, it has been demonstrated that physical exercise promotes the utilization of blood glucose and free fatty acids in muscles and lowers blood glucose levels in well-controlled diabetic patients. Long-term, mild, regular jogging increases the action of insulin in both carbohydrate and lipid metabolism without influencing body mass index or maximal oxygen uptake. A significant correlation has been observed between delta MCR (Deltainsulin sensitivity) and the average number of steps performed in a day. Our recent data suggested that the improved effectiveness of insulin that occurs as a result of physical exercise is attributable, at least in part, to increases in GLUT4 protein, IRS1 and PI3-kinase protein in skeletal muscle. As a prescription for exercise, aerobic exercise of mild to moderate intensity, including walking and jogging, 10-30 min a day, 3-5 days a week, is recommended. Resistance training of mild intensity with the use of light dumbbells and stretch cords should be combined in elderly individuals who have decreased muscle strength. An active lifestyle is essential in the management of diabetes, which is one of typical lifestyle-related diseases.
  Diabetes Research and Clinical Practice 10/2007; 77 Suppl 1:S87-91. · 2.75 Impact Factor
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  Available from: sitemix.jp

  Article: Leucine-induced activation of translational initiation is partly regulated by the branched-chain alpha-keto acid dehydrogenase complex in C2C12 cells.

  Naoya Nakai, Yoshiharu Shimomura, Tomohiro Tamura, Noriko Tamura, Koichiro Hamada, Fuminori Kawano, Yoshinobu Ohira
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  ABSTRACT: Branched-chain amino acid leucine has been shown to activate the translational regulators through the mammalian target of rapamycin. However, the leucine's effects are self-limiting because leucine promotes its own disposal by an oxidative pathway. The irreversible and rate-limiting step in the leucine oxidation pathway is catalyzed by the branched-chain alpha-keto acid dehydrogenase (BCKDH) complex. The complex contains E1 (alpha2beta2), E2, and E3 subunits, and its activity is abolished by phosphorylation of the E1alpha subunit by BCKDH kinase. The relationship between the activity of BCKDH complex and leucine-mediated activation of the protein translation was investigated using the technique of RNA interference. The activity of BCKDH complex in C2C12 cell was modulated by transfection of small interfering RNA (siRNA) for BCKDH E2 subunit or BCKDH kinase. Transfection of siRNAs decreased the mRNA expression and protein amount of corresponding gene. Suppression of either E2 subunit or kinase produced opposite effects on the cell proliferation and the activation of translational regulators by leucine. Suppression of BCKDH kinase for 48h resulted in decreasing cell proliferation. In contrast, E2 suppression led to increased amount of total cellular protein. The phosphorylation of p70 S6 kinase by leucine was increased in E2-siRNA transfected C2C12 cells, whereas the leucine's effect was diminished in kinase-siRNA transfected cells. These results suggest that the activation of the translational regulators by leucine was partly regulated by the activity of BCKDH complex.
  Biochemical and Biophysical Research Communications 06/2006; 343(4):1244-50. · 2.48 Impact Factor
• Article: Acanthopanax senticosus Harms as a prophylactic for MPTP-induced Parkinson's disease in rats.

  Takahiko Fujikawa, Shinji Miguchi, Nariyasu Kanada, Naoya Nakai, Masato Ogata, Ikukatsu Suzuki, Kunio Nakashima
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  ABSTRACT: The aim of this study was to determine whether Acanthopanax senticosus Harms (ASH) offers protection against Parkinson's disease (PD) and its related depressive behaviors in rats administered 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). We examined how ASH affected the MPTP-induced loss of tyrosine hydroxylase (TH)-positive neurons in the midbrain of rats. Extract from the stem bark of ASH prepared with hot water was dissolved in distilled water. Rats were then orally administered ASH (250 mg/kg) once a day for 2 weeks before ASH administration plus an intraperitoneal injection of MPTP (20 mg/kg). The pole test and catalepsy test were used to evaluate the effects of ASH administration on bradykinesia and depressive behaviors in the PD model of rats given MPTP for 2 weeks. Treatment with ASH for 2 weeks resulted in prophylactic effects on MPTP-induced Parkinsonian bradykinesia and catalepsy. Immunohistochemistical analysis using TH antibody showed that ASH provided cytoprotective effects against MPTP-induced loss of dopamine (DA) cells. The present results suggest that it may be possible to use ASH for the prevention of nigral degenerative disorders, e.g., PD with depression, caused by exposure to toxic substances.
  Journal of Ethnopharmacology 03/2005; 97(2):375-81. · 3.01 Impact Factor
• Article: Estrogen controls branched-chain amino acid catabolism in female rats.

  Mariko Obayashi, Yoshiharu Shimomura, Naoya Nakai, Nam Ho Jeoung, Masaru Nagasaki, Taro Murakami, Yuzo Sato, Robert A Harris
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  ABSTRACT: A diurnal rhythm occurs in the activity state of branched-chain alpha-keto acid dehydrogenase complex (BCKDC) in female but not male rats. We attempted to determine the role played by ovarian hormones in this difference in enzyme regulation. A series of experiments examined the effects of the 4-d estrous cycle, ovariectomy, and replacement of female sex steroids on the catabolism of BCAAs. A proestrous decrease in the activity state of the complex corresponded to an increase in the plasma 17beta-estradiol level. Withdrawal of gonadal steroids by ovariectomy resulted in an increase in the activity state of BCKDC and a decrease in the activity of the branched-chain alpha-keto acid dehydrogenase kinase (BDK). However, 17beta-estradiol reversed these effects, resulting in an increase in the BDK activity, thereby decreasing the activity of the complex. Progesterone administration was ineffective. The changes in the percentage of active BCKDC caused by 17beta-estradiol withdrawal and replacement resulted from changes in the amount of BDK protein associated with the complex and therefore its activity. Thus, the marked diurnal variation in the activity state of BCKDC exhibited by female rats involves estrogenic control of BDK activity. We hypothesize that the 17beta-estradiol-controlled feeding pattern produces these variations in BCKDC activity. This may function in female rats to conserve essential amino acids for protein synthesis.
  Journal of Nutrition 11/2004; 134(10):2628-33. · 3.92 Impact Factor
• Article: Identification of promoter region of ghrelin gene in human medullary thyroid carcinoma cell line.

  Naoya Nakai, Masabumi Kaneko, Nobuhiro Nakao, Takahiko Fujikawa, Kunio Nakashima, Masato Ogata, Minoru Tanaka
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  ABSTRACT: Ghrelin, an endogenous ligand for growth hormone (GH) secretagogue receptor, stimulates GH secretion. The ghrelin gene is expressed most abundantly in stomach. The mRNA is also detected in other tissues and cell lines. However, the mechanism of the transcriptional regulation of the ghrelin gene has not yet been clarified. In the present study, we have investigated the regulatory region of the ghrelin gene expression in the human medullary thyroid carcinoma cell line (TT cells). PCR analysis of the 5'-region for human ghrelin gene revealed the presence of the first exon corresponding to the short non-coding first exon of the mouse ghrelin gene. The first exon is located at the 502 bp upstream from the 5'-end of the formerly reported human ghrelin gene. RT-PCR analysis showed the expression of the first exon in the stomach and TT cells. The expression of the first exon in the human stomach was confirmed by 5'-RACE method. Significant level of promoter activity was observed in the 1225-1107 bp up-stream region of the translation initiation site by luciferase assay. Specific protein binding to the promoter region of -1129 to -1100 was detected by electrophoretic mobility shift assay with nuclear extract from TT cells. These results suggest that the ghrelin gene expression in TT cells might be regulated by the upstream region of the first exon.
  Life Sciences 10/2004; 75(18):2193-201. · 2.53 Impact Factor
• Source

  Available from: Takeshi Ohkubo

  Article: Characterization of structure and expression of the growth hormone receptor gene of the Japanese flounder (Paralichtys olivaceus).

  Nobuhiro Nakao, Yoshifumi Higashimoto, Takeshi Ohkubo, Hideo Yoshizato, Naoya Nakai, Kunio Nakashima, Minoru Tanaka
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  ABSTRACT: Growth hormone receptor (GHR) cDNA and gene of the Japanese flounder (Paralicthys olivaceus) were cloned and their molecular structures were characterized. The 641 amino acid sequence predicted from the cDNA sequence showed more than 75% overall sequence similarity with GHRs of other teleosts such as turbot and goldfish, and contained common structural features of vertebrate GHRs. The extracellular domain of flounder GHR had three pairs of cysteines and an FGEFS motif with a replacement E to D. The cytoplasmic domain contained two conserved motifs referred to as box 1 and box 2. The flounder GHR gene was cloned by PCR using primers designed from the sequence of the GHR cDNA. The GHR gene was composed of 10 exons. The sequence of exon 1 corresponded to the 5'-untranslated region of the cDNA, and exons 2-6 encoded most parts of the extracellular domain. The transmembrane domain was found in exon 7, and the intracellular domain was encoded in exons 8-10. Exon 10 also encoded the 3'-untranslated region. Comparison of the flounder GHR gene with the human GHR gene shows that the flounder gene contains no exons corresponding to exon 3 of the human GHR gene, and that the region corresponding to exon 10 in the human GHR gene is encoded by exons 9 and 10 in the flounder GHR gene. These findings indicate that the flounder GHR gene diverged from those of mammalian and avian GHR genes, especially in the organization of the exons encoding the cytoplasmic domain. In addition to the regular form of GHR mRNA, a 3'-truncated form lacking the region derived from exons 9 and 10 was detected as a minor species in the liver by RT-PCR and by RNase protection assay. RT-PCR analysis showed that both the regular and the 3'-truncated GHR mRNAs are expressed in a wide range of flounder tissues with the highest levels being found in the liver. The 5'-flanking region of the flounder GHR gene was cloned by inverse PCR, and three transcription start points were identified with similar frequency by RNase protection assay.
  Journal of Endocrinology 08/2004; 182(1):157-64. · 3.55 Impact Factor
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  Article: Exercise promotes BCAA catabolism: effects of BCAA supplementation on skeletal muscle during exercise.

  Yoshiharu Shimomura, Taro Murakami, Naoya Nakai, Masaru Nagasaki, Robert A Harris
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  ABSTRACT: Branched-chain amino acids (BCAAs) are essential amino acids that can be oxidized in skeletal muscle. It is known that BCAA oxidation is promoted by exercise. The mechanism responsible for this phenomenon is attributed to activation of the branched-chain alpha-keto acid dehydrogenase (BCKDH) complex, which catalyzes the second-step reaction of the BCAA catabolic pathway and is the rate-limiting enzyme in the pathway. This enzyme complex is regulated by a phosphorylation-dephosphorylation cycle. The BCKDH kinase is responsible for inactivation of the complex by phosphorylation, and the activity of the kinase is inversely correlated with the activity state of the BCKDH complex, which suggests that the kinase is the primary regulator of the complex. We found recently that administration of ligands for peroxisome proliferator-activated receptor-alpha (PPARalpha) in rats caused activation of the hepatic BCKDH complex in association with a decrease in the kinase activity, which suggests that promotion of fatty acid oxidation upregulates the BCAA catabolism. Long-chain fatty acids are ligands for PPARalpha, and the fatty acid oxidation is promoted by several physiological conditions including exercise. These findings suggest that fatty acids may be one of the regulators of BCAA catabolism and that the BCAA requirement is increased by exercise. Furthermore, BCAA supplementation before and after exercise has beneficial effects for decreasing exercise-induced muscle damage and promoting muscle-protein synthesis; this suggests the possibility that BCAAs are a useful supplement in relation to exercise and sports.
  Journal of Nutrition 07/2004; 134(6 Suppl):1583S-1587S. · 3.92 Impact Factor