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Misako Sogawa,
Takahiro Seura,
Shohei Kohno,
Katsuya Hirasaka,
Yasunaga Yamaguchi,
Ryoji Takagaki,
Akiko Harada,
Yuushi Okumura,
Shigeru Yamamoto, Kyoichi Kishi,
Takeshi Nikawa
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ABSTRACT: Drinking tea is recommended for promoting health due to its bioactive nutrients, such as catechins and caffeine. In Tokushima area, we have a unique traditional tea, named Awa tea, which are fermented with Lactobacillus pentosus and Lactobacillus plantarum. The present study was designed to investigate anti-obesity effects of the Awa tea and compare with those of non-fermented green tea. Obese male Wistar rats (19 weeks of age) were given by low energy diets containing 3% of Awa and green tea extracts, respectively, or without any tea extracts (control), for 4 weeks. Awa tea contained smaller amount of catechins than green tea, although they contained similar amounts of polyphenols. This finding indicates that there are distinct kinds of polyphenols from catechins. The diets containing Awa and green tea extracts further decreased whole body weight, fat tissue mass and plasma leptin level, compared with control diet. In addition, their diets increased the daily amount of lipid excreted to feces and total 24-h-energy consumption, compared with the control group. However, there is no significant difference in these anti-obesity effects between Awa tea and green tea. Our results indicate that Awa lactate-fermented tea as well as green tea similarly enhance the effect of diet restriction on obesity, at least in part, through the increase in fat energy consumption and the decrease in fat absorption in rats.
The Journal of Medical Investigation 03/2009; 56(1-2):42-8.
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ABSTRACT: The oligomeric structure and the residual propeptide are distinct characteristics of cathepsin C from other members in the papain superfamily. In this study, we examined the physiological role of the cathepsin C propeptide. The stable overexpression of cathepsin C propeptide significantly decreased the activities of intestinal alkaline phosphatase (IAP) and sucrase in human Caco-2 intestinal epithelial cells, whereas it did not change the proliferation and cathepsin C activity. The overexpression of cathepsin C propeptide significantly decreased the amounts of IAP protein in differentiated Caco-2 cells, compared with the transfection of mock vector, whereas the amounts of IAP transcripts were not changed. Pulse-chase analysis confirmed that the reduction in IAP activity was due to an increase in IAP degradation, but not a decrease in IAP expression. For the mechanism of the enhanced IAP degradation, we identified proteins interacting with cathepsin C propeptide in Caco-2 cells by immunoprecipitation and mass spectrometry. Cathepsin C propeptide interacted with proteins with a molecular mass of approximately 70 kDa, including IAP and heat shock cognate protein 70. Our present results suggest that the propeptide of cathepsin C may stimulate the sorting to the lysosome, at least in part, contributing to the degradation of IAP in Caco-2 cells.
The Journal of Physiological Sciences 05/2008; 58(2):105-11. · 1.61 Impact Factor
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Harumi Furochi,
Seiko Tamura,
Mai Mameoka,
Chiharu Yamada,
Takayuki Ogawa,
Katsuya Hirasaka,
Yuushi Okumura,
Takahito Imagawa,
Sachiko Oguri,
Kazumi Ishidoh, Kyoichi Kishi,
Shigeki Higashiyama,
Takeshi Nikawa
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ABSTRACT: Intact osteoactivin, a novel type I membrane glycoprotein, were shed at a dibasic motif in the juxtamembrane region in C2C12 myoblasts. Extracellular fragments were secreted into the culture media by a putative metalloprotease. Extracellular fragments of osteoactivin, but not control protein, induced matrix metalloprotease-3 (MMP-3) expression in NIH-3T3 fibroblasts. Epidermal growth factor (ERK) kinase inhibitors inhibited the osteoactivin-mediated MMP-3 expression, whereas the extracellular fragment of osteoactivin activated ERK1/2 and p38 in the mitogen-activated protein kinase pathway. Our results suggest that the extracellular fragments of osteoactivin produced by shedding act as a growth factor to induce MMP-3 expression via the ERK pathway in fibroblasts.
FEBS Letters 01/2008; 581(30):5743-50. · 3.54 Impact Factor
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Katsuya Hirasaka,
Shohei Kohno,
Jumpei Goto,
Harumi Furochi,
Kazuaki Mawatari,
Nagakatsu Harada,
Toshio Hosaka,
Yutaka Nakaya,
Kazumi Ishidoh,
Toshiyuki Obata,
Yousuke Ebina,
Hua Gu,
Shin'ichi Takeda, Kyoichi Kishi,
Takeshi Nikawa
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ABSTRACT: c-Cbl plays an important role in whole-body fuel homeostasis by regulating insulin action. In the present study, we examined the role of Cbl-b, another member of the Cbl family, in insulin action.
C57BL/6 (Cbl-b(+/+)) or Cbl-b-deficient (Cbl-b(-/-)) mice were subjected to insulin and glucose tolerance tests and a hyperinsulinemic-euglycemic clamp test. Infiltration of macrophages into white adipose tissue (WAT) was assessed by immunohistochemistry and flow cytometry. We examined macrophage activation using co-cultures of 3T3-L1 adipocytes and peritoneal macrophages.
Elderly Cbl-b(-/-) mice developed glucose intolerance and peripheral insulin resistance; serum insulin concentrations after a glucose challenge were always higher in elderly Cbl-b(-/-) mice than age-matched Cbl-b(+/+) mice. Deficiency of the Cbl-b gene significantly decreased the uptake of 2-deoxyglucose into WAT and glucose infusion rate, whereas fatty liver was apparent in elderly Cbl-b(-/-) mice. Cbl-b deficiency was associated with infiltration of macrophages into the WAT and expression of cytokines, such as tumor necrosis factor-alpha, interleukin-6, and monocyte chemoattractant protein (MCP)-1. Co-culture of Cbl-b(-/-) macrophages with 3T3-L1 adipocytes induced leptin expression and dephosphorylation of insulin receptor substrate 1, leading to impaired glucose uptake in adipocytes. Furthermore, Vav1, a key factor in macrophage activation, was highly phosphorylated in peritoneal Cbl-b(-/-) macrophages compared with Cbl-b(+/+) macrophages. Treatment with a neutralizing anti-MCP-1 antibody improved peripheral insulin resistance and macrophage infiltration into WAT in elderly Cbl-b(-/-) mice.
Cbl-b is a negative regulator of macrophage infiltration and activation, and macrophage activation by Cbl-b deficiency contributes to the peripheral insulin resistance and glucose intolerance via cytokines secreted from macrophages.
Diabetes 11/2007; 56(10):2511-22. · 8.29 Impact Factor
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ABSTRACT: We have previously shown that osteoactivin, a type I membrane glycoprotein expressed in myofibers, upregulated expression of matrix metalloprotease (MMP)-3 and MMP-9 in fibroblasts infiltrated denervated skeletal muscle in mice. To address whether osteoactivin-mediated increase in MMPs in skeletal muscle is useful for regeneration of denervated skeletal muscle, we subjected osteoactivin-transgenic mice to long-term denervation for 70 or 90 days. Long-term denervation caused severe degeneration of myofibers and fibrosis in skeletal muscle of wild-type mice. However, overexpression of osteoactivin protected skeletal muscle from such changes. Infiltration of fibroblast-like cells and collagen deposition were sustained at low levels after long-term denervation in skeletal muscle of osteoactivin-transgenic mice. This cytoprotective effect of osteoactivin was supported by the expression of regeneration/degeneration-associated genes in the gastrocnemius muscle during denervation. Denervation significantly upregulated the expression of anti-fibrotic genes, such as glypican-1 and decorin-1, in the gastrocnemius muscle of osteoactivin-transgenic mice, compared with wild-type mice. In contrast, overexpression of osteoactivin caused a significant reduction in denervation-induced expression of elongation factor 1A-1, an indicator for the persistence of degenerated cells. Our results suggest that an osteoactivin-mediated increase in MMPs in skeletal muscle might be useful for protecting injured muscle from fibrosis, leading to full regeneration after denervation.
The Journal of Medical Investigation 09/2007; 54(3-4):248-54.
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ABSTRACT: Several specific locations in brain, including pyriform cortex and hypothalamus, are associated with regulation of food intake. Although lesions of these locations significantly alter food intake, their involvement in the selection of macronutrients is not well characterized. In this study, we examined distinct effects of anterior pyriform cortex (APC) and lateral hypothalamus (LH) lesions on protein intake in rats. The APC or LH of male adult rats were lesioned by treatment with kainic acid, and the rats were then given free access to two kinds of casein diets containing high (60%) and low (5%) protein. Total energy content of these diets was kept constant by changing the carbohydrate content. Following the APC lesions, body weight and food intake decreased, but returned to control levels on day 13 and day 4, respectively. APC lesions did not change the ratio of protein intake. In contrast, LH lesions disturbed body weight gain and the selection of a high protein diet for at least two weeks, although food intake returned to control levels by day 2. Our results suggest that LH, but not APC, may play an important role in the selection of protein intake in rats.
The Journal of Medical Investigation 09/2007; 54(3-4):255-60.
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ABSTRACT: Rokumi-gan (TJ-87) has beneficial effects on renal diseases, including pollakisuria, dysuria and edema. We previously reported that its long-term administration clinically improved serum protein concentration and edema in renal failure. In this study, we focused on amino acid/protein contents in Rokumi-gan as one of its effectors. Commercially prepared Rokumi-gan contained arginine, aspartate and glutamate at the high levels, alanine, phenylalanine and serine at the moderate levels, and glycine, histidine, isoleucine, leucine, lysine and valine at the low levels. To examine effects of Rokumi-gan on serum amino acid concentrations, 6 healthy Japanese volunteers were treated with commercially prepared Rokumi-gan, an amino acid mixture, and lactose. In subjects treated with an amino acid mixture containing similar amounts of amino acids in Rokumi-gan (10 g), or lactose, serum amounts of many amino acids, except for arginine, gradually and significantly decreased until 6 hr after their treatments. In contrast, a single treatment with Rokumi-gan (10 g) increased serum levels of several amino acids, alanine, arginine, glutamate, glycine and serine. Serum concentrations of almost of all tested amino acids showed the peak value 1-2 hr after administration, and they were sustained at the basal level even 6 hr after the treatment. Our present results suggest that Rokumi-gan may be a beneficial amino acid supplier, because it could sustain serum amino acid concentration at the higher level than an amino acid mixture supplement.
The Journal of Medical Investigation 03/2007; 54(1-2):91-8.
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Takayuki Ogawa,
Harumi Furochi,
Mai Mameoka,
Katsuya Hirasaka,
Yuko Onishi,
Naoto Suzue,
Motoko Oarada,
Motoki Akamatsu,
Hiroshi Akima,
Tetsuo Fukunaga, Kyoichi Kishi,
Natsuo Yasui,
Kazumi Ishidoh,
Hideoki Fukuoka,
Takeshi Nikawa
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ABSTRACT: In animal models, several ubiquitin ligases play an important role in skeletal muscle atrophy caused by unloading. In this study we examined protein ubiquitination and ubiquitin ligase gene expression in quadriceps femoris muscle from healthy volunteers after 20-day bedrest to clarify ubiquitin-dependent proteolysis in human muscles after unloading. During bedrest, thickness and cross-sectional area of the quadriceps femoris muscle decreased significantly by 4.6% and 3.7%, respectively. Ubiquitinated proteins accumulated in these atrophied human muscles. A real-time reverse transcription-polymerase chain reaction system showed that bedrest significantly upregulated expression of two ubiquitin ligase genes, Cbl-b and atrogin-1. We also performed DNA microarray analysis to examine comprehensive gene expression in the atrophied muscle. Bedrest mainly suppressed the expression of muscle genes associated with control of gene expression in skeletal muscle. Our results suggest that, in humans, Cbl-b- or atrogin-1-mediated ubiquitination plays an important role in unloading-induced muscle atrophy, and that unloading stress may preferentially inhibit transcriptional responses in skeletal muscle.
Muscle & Nerve 11/2006; 34(4):463-9. · 2.37 Impact Factor
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ABSTRACT: In hepatic disorders, abnormal plasma amino acid profiles are observed. In this study, we examined whether soy protein isolate (SPI) improved plasma methionine concentration in the model animals. Portacaval shunt (PCS) increased alanine aminotransferase (ALT) activity and methionine concentration in blood of rats fed a 40% casein diet supplemented with 0.6% methionine (casein-M diet). A 40% SPI diet supplemented with 1.28% methionine (SPI-M diet), which contained the same amount of methionine as that in 40% casein-M diet, normalized plasma ALT activity and methionine level in PCS rats. These effects of a SPI diet may be due to its amino acid composition, since an amino acid mixture diet mimicking a 40% SPI-M diet was also effective to hypermethioninemia of PCS rats. To find key enzymes for the beneficial effect of soy protein, we examined effects of a 40% SPI-M or casein-M diet on the activities of three methionine-metabolizing enzymes in liver of PCS rats. A SPI-M diet stimulated only the activity of cystathionine gamma-lyase, compared with a casein-M diet. A SPI diet has a preventive effect on hypermethioninemia, at least in part, by stimulating cystathionine gamma-lyase activity in liver and may be used for nutritional management of liver disorders with hypermethioninemia.
The Journal of Medical Investigation 09/2006; 53(3-4):255-63.
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Naoto Suzue,
Takeshi Nikawa,
Yuko Onishi,
Chiharu Yamada,
Katsuya Hirasaka,
Takayuki Ogawa,
Harumi Furochi,
Hirofumi Kosaka,
Kazumi Ishidoh,
Hua Gu,
Shin'ichi Takeda,
Naozumi Ishimaru,
Yoshio Hayashi,
Hironori Yamamoto, Kyoichi Kishi,
Natsuo Yasui
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ABSTRACT: Unloading can prevent bone formation by osteoblasts. To study this mechanism, we focused on a ubiquitin ligase, Cbl-b, which was highly expressed in osteoblastic cells during denervation. Our results suggest that Cbl-b may mediate denervation-induced osteopenia by inhibiting IGF-I signaling in osteoblasts.
Unloading, such as denervation (sciatic neurectomy) and spaceflight, suppresses bone formation by osteoblasts, leading to osteopenia. The resistance of osteoblasts to growth factors contributes to such unloading-mediated osteopenia. However, a detailed mechanism of this resistance is unknown. We first found that a RING-type ubiquitin ligase, Cbl-b, was highly expressed in osteoblastic cells after sciatic neurectomy in mice. In this study, we reasoned that Cbl-b played an important role in the resistance of osteoblasts to IGF-I.
Cbl-b-deficient (Cbl-b(-/-)) or wildtype (Cbl-b(+/+)) mice were subjected to sciatic neurectomy. Bone formation in these mice was assessed by calcein labeling and histomorphometric analyses. We examined IGF-I signaling molecules in femora of these mice by Western blot and immunohistochemical analyses. We also examined the mitogenic response of Cbl-b-overexpressing or -deficient osteoblastic cells to various growth factors.
In Cbl-b(+/+) mice, denervation decreased femur mass and bone formation, whereas it increased the expression of Cbl-b protein in osteoprogenitor cells and in osteocalcin-positive cells (osteoblastic cells) in hindlimb bone. In contrast, in Cbl-b(-/-) mice, bone mass and bone formation were sustained during denervation. Denervation inhibited the mitogenic response of osteoprogenitor cells most significantly to IGF-I. Therefore, we focused on Cbl-b-mediated modification of IGF-I signaling. Denervation decreased the amounts of insulin receptor substrate-1 (IRS-1), phosphatidly inositol 3-phosphate kinase (PI3K), and Akt-1 proteins in femora of Cbl-b(+/+) mice, whereas the amounts of these IGF-I signaling molecules in femora of Cbl-b(-/-) mice were constant after denervation. On a cellular level, primary osteoblastic cells from Cbl-b(-/-) mice were more stimulated to proliferate by IGF-I treatment compared with those from Cbl-b(+/+) mice. Furthermore, overexpression of Cbl-b increased ubiquitination and degradation of IRS-1 in primary Cbl-b(-/-) osteoblastic cells, leading to their impaired mitogenic response to IGF-I.
These results suggest that Cbl-b induces resistance of osteoblasts to IGF-I during denervation by increasing IRS-1 degradation and that Cbl-b-mediated modification of IGF-I signaling may contribute to decreased bone formation during denervation.
Journal of Bone and Mineral Research 06/2006; 21(5):722-34. · 6.37 Impact Factor
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Naoto Suzue,
PhD Takeshi Nikawa MD,
Yuko Onishi,
Chiharu Yamada,
Katsuya Hirasaka,
Takayuki Ogawa,
Harumi Furochi,
Hirofumi Kosaka,
Kazumi Ishidoh,
Hua Gu,
Shin'ichi Takeda,
Naozumi Ishimaru,
Yoshio Hayashi,
Hironori Yamamoto, Kyoichi Kishi,
Natsuo Yasui
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ABSTRACT: Unloading can prevent bone formation by osteoblasts. To study this mechanism, we focused on a ubiquitin ligase, Cbl-b, which was highly expressed in osteoblastic cells during denervation. Our results suggest that Cbl-b may mediate denervation-induced osteopenia by inhibiting IGF-I signaling in osteoblasts.Introduction: Unloading, such as denervation (sciatic neurectomy) and spaceflight, suppresses bone formation by osteoblasts, leading to osteopenia. The resistance of osteoblasts to growth factors contributes to such unloading-mediated osteopenia. However, a detailed mechanism of this resistance is unknown. We first found that a RING-type ubiquitin ligase, Cbl-b, was highly expressed in osteoblastic cells after sciatic neurectomy in mice. In this study, we reasoned that Cbl-b played an important role in the resistance of osteoblasts to IGF-I.Materials and Methods: Cbl-b–deficient (Cbl-b–/–) or wildtype (Cbl-b+/+) mice were subjected to sciatic neurectomy. Bone formation in these mice was assessed by calcein labeling and histomorphometric analyses. We examined IGF-I signaling molecules in femora of these mice by Western blot and immunohistochemical analyses. We also examined the mitogenic response of Cbl-b–overexpressing or –deficient osteoblastic cells to various growth factors.Results: In Cbl-b+/+ mice, denervation decreased femur mass and bone formation, whereas it increased the expression of Cbl-b protein in osteoprogenitor cells and in osteocalcin-positive cells (osteoblastic cells) in hindlimb bone. In contrast, in Cbl-b−/− mice, bone mass and bone formation were sustained during denervation. Denervation inhibited the mitogenic response of osteoprogenitor cells most significantly to IGF-I. Therefore, we focused on Cbl-b–mediated modification of IGF-I signaling. Denervation decreased the amounts of insulin receptor substrate-1 (IRS-1), phosphatidly inositol 3-phosphate kinase (PI3K), and Akt-1 proteins in femora of Cbl-b+/+ mice, whereas the amounts of these IGF-I signaling molecules in femora of Cbl-b–/– mice were constant after denervation. On a cellular level, primary osteoblastic cells from Cbl-b–/– mice were more stimulated to proliferate by IGF-I treatment compared with those from Cbl-b+/+ mice. Furthermore, overexpression of Cbl-b increased ubiquitination and degradation of IRS-1 in primary Cbl-b–/– osteoblastic cells, leading to their impaired mitogenic response to IGF-I.Conclusions: These results suggest that Cbl-b induces resistance of osteoblasts to IGF-I during denervation by increasing IRS-1 degradation and that Cbl-b–mediated modification of IGF-I signaling may contribute to decreased bone formation during denervation.
Journal of bone and mineral research: the official journal of the American Society for Bone and Mineral Research 04/2006; 21(5):722 - 734. · 6.04 Impact Factor
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ABSTRACT: NADPH oxidase 1 (Nox1), a homolog of gp91(phox), is dominantly expressed in large intestinal epithelium, and reactive oxygen species derived from Nox1 are suggested to serve a role in host defense. We report that interferon (IFN)-gamma, a crucial transactivator of the gp91(phox) gene, also stimulates expression of Nox1 mRNA and protein in large intestinal epithelium (T84 cells), leading to fourfold upregulation of superoxide anion (O(2)(-)) generation. Introduction of small interfering Nox1 RNA completely blocked this priming. We cloned the region from -4,831 to +195 bp of the human Nox1 gene. To reveal IFN-gamma-responsive cis elements, we performed transient expression assays using a reporter gene driven by serially truncated Nox1 promoters in T84 cells. IFN-gamma-responsive elements were located between -4.3 and -2.6 kb, and one gamma-activated sequence (GAS) element present at -3,818 to -3,810 bp exhibited this IFN-gamma-dependent promoter activity. IFN-gamma caused tyrosine phosphorylation of signal transducer and activator of transcription 1 (STAT1) and produced a protein-GAS complex that was recognized by anti-STAT1 antibody. The introduction of three-point mutation of GAS, which did not interact with STAT1, completely canceled the IFN-gamma-dependent promoter activity of the region from -4,831 to +195 bp. A Janus protein tyrosine kinase 2 inhibitor (AG490) blocked the IFN-gamma-stimulated tyrosine phosphorylation of STAT1, promoter activity of the -4,831 to +195 bp region, Nox1 mRNA expression, and O(2)(-) production, also suggesting a crucial role of STAT1 and GAS in the IFN-gamma-stimulated transcription of the Nox1 gene. Our results support a potential contribution of Nox1 to mucosal host defense and inflammation in the colon.
AJP Cell Physiology 03/2006; 290(2):C433-43. · 3.54 Impact Factor
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Yuko Onishi,
Katsuya Hirasaka,
Ibuki Ishihara,
Motoko Oarada,
Jumpei Goto,
Takayuki Ogawa,
Naoto Suzue,
Shunji Nakano,
Harumi Furochi,
Kazumi Ishidoh, Kyoichi Kishi,
Takeshi Nikawa
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ABSTRACT: We previously reported that oxidative stress is associated with unloading-mediated ubiquitination of muscle proteins. To further elucidate the involvement of oxidative stress in ubiquitination, we examined the ubiquitination profile in rat myoblastic L6 cells after treatment with hydrogen peroxide. Hydrogen peroxide induced many ubiquitinated proteins with low molecular masses (less than 60 kDa) as well as high molecular masses (more than 160 kDa). Among them, a 42-kDa-ubiquitinated protein was abundantly accumulated and immediately disappeared after the treatment. Microsequencing revealed that the 42-kDa-protein was identical to the mono-ubiquitinated form of rat lactate dehydrogenase A (LDH-A), and we confirmed that hydrogen peroxide induced the mono-ubiquitination of LDH-A in COS7 cells overexpressing LDH-A and ubiquitin. Under unloading conditions, such as tail-suspension and spaceflight, mono-ubiquitinated LDH was accumulated in gastrocnemius muscle. Interestingly, E-64-d plus pepstatin, lysosomal protease inhibitors, further accumulated mono-ubiquitinated LDH-A in the cells after treatment with hydrogen peroxide, while they did not affect the amount of poly-ubiquitinated LDH. In contrast, epoxomicin, a potent proteasome inhibitor, did not change the amount of mono-ubiquitinated LDH-A in L6 cells treated with hydrogen peroxide, although it significantly increased the amount of poly-ubiquitinated LDH. Our results suggest that oxidative stress induces not only poly-ubiquitination but also mono-ubiquitination of LDH-A, which may be involved in its lysosomal degradation during unloading.
Biochemical and Biophysical Research Communications 11/2005; 336(3):799-806. · 2.48 Impact Factor
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Takayuki Ogawa,
Takeshi Nikawa,
Harumi Furochi,
Miki Kosyoji,
Katsuya Hirasaka,
Naoto Suzue,
Koichi Sairyo,
Shunji Nakano,
Takashi Yamaoka,
Mitsuo Itakura, Kyoichi Kishi,
Natsuo Yasui
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ABSTRACT: In this study, we examined pathophysiological roles of osteoactivin, a functionally unknown type I membrane glycoprotein, in mouse skeletal muscle atrophied by denervation (sciatic neurectomy). Denervation increased the amounts of osteoactivin, vimentin, matrix metalloproteinase-3 (MMP-3), and MMP-9 in mouse gastrocnemius muscle. Interestingly, immunohistochemical analysis revealed that vimentin, MMP-3, and MMP-9 were mainly present in fibroblast-like cells infiltrated into denervated mouse gastrocnemius muscle, whereas osteoactivin was expressed in the sarcolemma of myofibers adjacent to the fibroblast-like cells. On the basis of these findings, we reasoned that osteoactivin in myocytes was involved in activation of the infiltrated fibroblasts. To address this issue, we examined effects of osteoactivin on expression of MMPs in fibroblasts in vitro and in vivo. Overexpression of osteoactivin in NIH-3T3 fibroblasts induced expression of MMP-3, but not in mouse C(2)C(12) myoblasts, indicating that osteoactivin might functionally target fibroblasts. Treatment with recombinant mouse osteoactivin increased the amounts of collagen type I, MMP-3, and MMP-9 in mouse NIH-3T3 fibroblasts. The upregulated expression of these fibroblast marker proteins was significantly inhibited by heparin, but not by an integrin inhibitor, indicating that a heparin-binding motif in the extracellular domain might be an active site of osteoactivin. In osteoactivin-transgenic mice, denervation further enhanced expression of MMP-3 and MMP-9 in fibroblasts infiltrated into gastrocnemius muscle, compared with wild-type mice. Our present results suggest that osteoactivin might function as an activator for fibroblasts infiltrated into denervated skeletal muscles and play an important role in regulating degeneration/regeneration of extracellular matrix.
AJP Cell Physiology 10/2005; 289(3):C697-707. · 3.54 Impact Factor
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Katsuya Hirasaka,
Takeshi Nikawa,
Louis Yuge,
Ibuki Ishihara,
Akira Higashibata,
Noriaki Ishioka,
Atsuko Okubo,
Takashi Miyashita,
Naoto Suzue,
Takayuki Ogawa,
Motoko Oarada, Kyoichi Kishi
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ABSTRACT: In this study, we examined effects of the three-dimensional (3D)-clinorotation, a simulated-model of microgravity, on proliferation/differentiation of rat myoblastic L6 cells. Differentiation of L6 cells into myotubes was significantly disturbed in the 3D-clinorotation culture system, although the 3D-clinorotation had no effect on the proliferation. The 3D-clinorotation also suppressed the expression of myogenesis marker proteins, such as myogenin and myosin heavy chain (MHC), at the mRNA level. In association with this reduced differentiation, we found that the 3D-clinorotation prevented accumulation of ubiquitinated proteins, compared with non-rotation control cells. Based on these findings, we focused on the ubiquitin-dependent degradation of I kappa B, a myogenesis inhibitory protein, to clarify the mechanism of this impaired differentiation. A decline in the amount of I kappa B protein in L6 cells was significantly prevented by the rotation, while the amount of the protein in the non-rotated cells decreased along with the differentiation. Furthermore, the 3D-clinorotation reduced the NF-kappaB-binding activity in L6 cells and prevented the ubiquitination of I kappa B proteins in the I kappa B- and ubiquitin-expressing Cos7 cells. Other myogenic regulatory factors, such as deubiquitinases, cyclin E and oxygen, were not associated with the differentiation impaired by the clinorotation. Our present results suggest that simulated microgravity such as the 3D-clinorotation may disturb skeletal muscle cell differentiation, at least in part, by inhibiting the NF-kappa B pathway.
Biochimica et Biophysica Acta 04/2005; 1743(1-2):130-40. · 4.66 Impact Factor
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ABSTRACT: We previously reported that spaceflight (STS-90) and tail-suspension stimulated muscle protein ubiquitination and accumulated the degradation fragments. However, in space experiments the side-effects of hypergravity on samples are inevitable during the launch of a space shuttle into space or the reentry. To examine whether hypergravity also caused protein-ubiquitination in skeletal muscle cells, we exposed rat myoblastic L6 cells to various hypergravity conditions. Immunoblot analysis showed that the centrifugation at 2, 3, 30 or 100 G for 10 min did not increase the amount of ubiquitinated proteins in L6 cells, whereas the centrifugation at 100 G for 1 or 2 hrs significantly induced the protein-ubiquitination. In contrast, heat shock protein 70 (HSP70), another stress-responsive protein, in L6 cells was accumulated only by centrifugation at 100 G for more than 10 min. Short-term (10 min) hypergravity including 3 or 100 G did not affect the proliferation and morphological changes in L6 cells. Our present results suggest that the ubiquitination of muscle proteins is less sensitive to hypergravity than the induction of HSP70, and that the effect of hypergravity on protein-ubiquitination and proliferation of skeletal muscle cells may be negligible, as far as its duration is short-term.
Biological Sciences in Space 04/2005; 19(1):3-7.
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ABSTRACT: Helicobacter pylori LPS activates a homolog of gp91(phox), NADPH oxidase 1 (Nox1), in guinea pig gastric mucosal cells cultured in 10% FBS-containing medium. RT-PCR and Northern hybridization demonstrated that H. pylori LPS stimulated expression of Nox1 and a novel p47(phox) homolog (Noxo1) mRNAs with a peak at 4 h, followed by upregulation of superoxide anion (O2-) generation. Pretreatment with 10 mg/ml of a nonabsorbable antigastric ulcer drug, ecabet sodium (ecabet), completely blocked these two mRNA expressions and the upregulation of O2- production. Under low (0.1%)-FBS conditions, H. pylori LPS predominantly caused apoptosis of the cells. Ecabet completely blocked the LPS-triggered phosphorylation of transforming growth factor-beta-activated kinase 1 (TAK1) and TAK1-binding protein 1, activation of caspase 8, loss of mitochondrial membrane potential, release of cytochrome c, activation of caspase 3, and appearance of apoptotic cells. In contrast, ecabet had no effect on ethanol- or etoposide-initiated apoptosis. The ecabet-pretreated cells exhibited the responsiveness to H. pylori LPS, similarly as untreated control cells did, when ecabet was removed by washing before the addition of H. pylori LPS. Incubation of H. pylori LPS with ecabet eliminated the toxic effects of the LPS, and nondenatured polyacrylamide gel electrophoresis indicated the formation of higher molecular mass complexes between H. pylori LPS and ecabet, suggesting that ecabet may interact with H. pylori LPS and block the activation of Toll-like receptor 4 (TLR4). Our results suggest that ecabet may suppress TLR4-mediated inflammation or accelerated apoptosis caused H. pylori infection.
AJP Gastrointestinal and Liver Physiology 03/2005; 288(2):G300-7. · 3.43 Impact Factor
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Takeshi Nikawa,
Kazumi Ishidoh,
Katsuya Hirasaka,
Ibuki Ishihara,
Madoka Ikemoto,
Mihoko Kano,
Eiki Kominami,
Ikuya Nonaka,
Takayuki Ogawa,
Gregory R Adams,
Kenneth M Baldwin,
Natsuo Yasui, Kyoichi Kishi,
Shin'ichi Takeda
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ABSTRACT: Skeletal muscles are vulnerable to marked atrophy under microgravity. This phenomenon is due to the transcriptional alteration of skeletal muscle cells to weightlessness. To further investigate this issue at a subcellular level, we examined the expression of approximately 26,000 gastrocnemius muscle genes in space-flown rats by DNA microarray analysis. Comparison of the changes in gene expression among spaceflight, tail-suspended, and denervated rats revealed that such changes were unique after spaceflight and not just an extension of simulated weightlessness. The microarray data showed two spaceflight-specific gene expression patterns: 1) imbalanced expression of mitochondrial genes with disturbed expression of cytoskeletal molecules, including putative mitochondria-anchoring proteins, A-kinase anchoring protein, and cytoplasmic dynein, and 2) up-regulated expression of ubiquitin ligase genes, MuRF-1, Cbl-b, and Siah-1A, which are rate-limiting enzymes of muscle protein degradation. Distorted expression of cytoskeletal genes during spaceflight resulted in dislocation of the mitochondria in the cell. Several oxidative stress-inducible genes were highly expressed in the muscle of spaceflight rats. We postulate that mitochondrial dislocation during spaceflight has deleterious effects on muscle fibers, leading to atrophy in the form of insufficient energy provision for construction and leakage of reactive oxygen species from the mitochondria.
The FASEB Journal 04/2004; 18(3):522-4. · 5.71 Impact Factor
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ABSTRACT: The NADPH oxidase 1 (Nox1) is a gp91(phox) homologue preferentially expressed in the colon. We have established primary cultures of guinea pig large intestinal epithelial cells giving 90% purity of surface mucous cells. These cells spontaneously released superoxide anion (O(2)(-)) of 160 nmol/mg protein/h and expressed the Nox1, p22(phox), p67(phox), and Rac1 mRNAs, but not the gp91(phox), Nox4, p47(phox), p40(phox), and Rac2 mRNAs. They also expressed novel homologues of p47(phox) and p67(phox) (p41(nox) and p51(nox), respectively). Human colon cancer cell lines (T84 and Caco2 cells) expressed the Nox1, p22(phox), p51(nox), and Rac1 mRNAs, but not the other NADPH component mRNAs, and secreted only small amounts of O(2)(-) (<2 nmol/mg protein/h). Cotransfection of p41(nox) and p51(nox) cDNAs in T84 cells enhanced PMA-stimulated O(2)(-) release 5-fold. Treatment of the transfected T84 cells with recombinant flagellin (rFliC) from Salmonella enteritidis further augmented the O(2)(-) release in association with the induction of Nox1 protein. The enhanced O(2)(-) production by cotransfection of p41(nox) and p51(nox) vectors further augmented the rFliC-stimulated IL-8 release from T84 cells. T84 cells expressed the Toll-like receptor 5, and rFliC rapidly phosphorylated TGF-beta-activated kinase 1 and TGF-beta-activated kinase 1-binding protein 1. A potent inhibitor for NF-kappaB (pyrrolidine dithiocarbamate) significantly blocked the rFliC-primed increase in O(2)(-) production and induction of Nox1 protein. These results suggest that p41(nox) and p51(nox) are involved in the Nox1 activation in surface mucous cells of the colon, and besides that, epithelial cells discern pathogenicities among bacteria to appropriately operate Nox1 for the host defense.
The Journal of Immunology 03/2004; 172(5):3051-8. · 5.79 Impact Factor
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Mihoko Kano,
Takako Kitano,
Madoka Ikemoto,
Katsuya Hirasaka,
Yuki Asanoma,
Takayuki Ogawa,
Shinichi Takeda,
Ikuya Nonaka,
Gregory R Adams,
Kenneth M Baldwin,
Motoko Oarada, Kyoichi Kishi,
Takeshi Nikawa
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ABSTRACT: We obtained the skeletal muscle of rats exposed to weightless conditions during a 16-day-spaceflight (STS-90). By using a differential display technique, we identified 6 up-regulated and 3 down-regulated genes in the gastrocnemius muscle of the spaceflight rats, as compared to the ground control. The up-regulated genes included those coding Casitas B-lineage lymphoma-b, insulin growth factor binding protein-1, titin and mitochondrial gene 16 S rRNA and two novel genes (function unknown). The down-regulated genes included those encoding RNA polymerase II elongation factor-like protein, NADH dehydrogenase and one novel gene (function unknown). In the present study, we isolated and characterized one of two novel muscle genes that were remarkably up-regulated by spaceflight. The deduced amino acid sequence of the spaceflight-induced gene (sfig) comprises 86 amino acid residues and is well conserved from Drosophila to Homo sapiens. A putative leucine-zipper structure located at the N-terminal region of sfig suggests that this gene may encode a transcription factor. The up-regulated expression of this gene, confirmed by Northern blot analysis, was observed not only in the muscles of spaceflight rats but also in the muscles of tail-suspended rats, especially in the early stage of tail-suspension when gastrocnemius muscle atrophy initiated. The gene was predominantly expressed in the kidney, liver, small intestine and heart. When rat myoblastic L6 cells were grown to 100% confluence in the cell culture system, the expression of sfig was detected regardless of the cell differentiation state. These results suggest that spaceflight has many genetic effects on rat skeletal muscle.
The Journal of Medical Investigation 03/2003; 50(1-2):39-47.
