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2. Rivaroxaban Monotherapy in Patients With Atrial Fibrillation After Coronary Stenting

Author

Matoba, Tetsuya, primary, Yasuda, Satoshi, additional, Kaikita, Koichi, additional, Akao, Masaharu, additional, Ako, Junya, additional, Nakamura, Masato, additional, Miyauchi, Katsumi, additional, Hagiwara, Nobuhisa, additional, Kimura, Kazuo, additional, Hirayama, Atsushi, additional, Matsui, Kunihiko, additional, Ogawa, Hisao, additional, Matoba, Tetsuya, additional, Koretsune, Yukihiro, additional, Hiro, Takafumi, additional, Sumiyoshi, Tetsuya, additional, Kimura, Kazumi, additional, Hashimoto, Yoichiro, additional, Hirano, Teruyuki, additional, Daida, Hiroyuki, additional, Okada, Yasushi, additional, Yamazaki, Tsutomu, additional, Nakamura, A., additional, Tamiya, E., additional, Yamamoto, T., additional, Suetake, S., additional, Noguchi, T., additional, Nakamura, S., additional, Matsumura, A., additional, Kojima, J., additional, Suwa, S., additional, Yamaguchi, H., additional, Kaikita, K., additional, Yasu, T., additional, Nakajima, A., additional, Yamada, T., additional, Arai, H., additional, Hata, Y., additional, Sakanashi, T., additional, Tateishi, H., additional, Nakayama, T., additional, Nozaki, Y., additional, Akao, M., additional, Okumura, Y., additional, Tokue, M., additional, Kuroki, N., additional, Maruyama, Y., additional, Matoba, T., additional, Hagiwara, N., additional, Suzuki, H., additional, Nishida, Y., additional, Ajioka, M., additional, Yumoto, K., additional, Shimizu, S., additional, Aoyama, T., additional, Shimomura, H., additional, Takeda, T., additional, Oshiro, K., additional, Sugishita, N., additional, Shibata, Y., additional, Otonari, T., additional, Kihara, H., additional, Ogawa, H., additional, Ohno, A., additional, Hazama, M., additional, Shimizu, M., additional, Tsukahara, K., additional, Haruta, S., additional, Wakeyama, T., additional, Haruna, T., additional, Ito, M., additional, Fujii, K., additional, Atsuchi, N., additional, Sata, M., additional, Kimura, K., additional, Hasebe, N., additional, Kobayasi, Y., additional, Ohsato, K., additional, Hironaga, K., additional, Naganuma, Y., additional, Anzaki, K., additional, Oiwa, K., additional, Okazaki, S., additional, Nakagawa, Y., additional, Tokuhiro, K., additional, Tanaka, K., additional, Momose, T., additional, Fukushima, Y., additional, Kametani, R., additional, Kawamitsu, K., additional, Saito, Y., additional, Akashi, S., additional, Kumagai, K., additional, Eshima, K., additional, Tobaru, T., additional, Seo, T., additional, Okuhara, K., additional, Kozuma, K., additional, Ikari, Y., additional, Takahashi, T., additional, Michishita, I., additional, Fujikura, H., additional, Momomura, S., additional, Yamamoto, Y., additional, Otomo, K., additional, Matsubara, T., additional, Tashiro, H., additional, Inoue, T., additional, Ishihara, M., additional, Shiojima, I., additional, Tachibana, E., additional, Ako, J., additional, Sumii, K., additional, Yamamoto, N., additional, Ohmura, N., additional, Nakamura, T., additional, Morita, Y., additional, Takahashi, N., additional, Watanabe, K., additional, Fujinaga, H., additional, Maruyama, M., additional, Oka, T., additional, Shirayama, T., additional, Amano, T., additional, Fukui, K., additional, Ando, K., additional, Oshima, S., additional, Kagiyama, S., additional, Teragawa, H., additional, Yuge, M., additional, Ono, S., additional, Koga, T., additional, Fujiu, K., additional, Kuwabara, M., additional, Ohya, Y., additional, Yumoto, Y., additional, Kuji, N., additional, Ikemura, M., additional, Kario, K., additional, Chatani, K., additional, Sato, K., additional, Miyagi, H., additional, Murakami, M., additional, Saito, K., additional, Hoshiga, M., additional, Sato, S., additional, Kubo, N., additional, Sakamoto, Y., additional, Ashida, K., additional, Sakamoto, H., additional, Murasaki, S., additional, Uehara, H., additional, Akasaka, T., additional, Ooba, Y., additional, Nakahara, S., additional, Hanaoka, Y., additional, Nishimiya, T., additional, Tsunoda, R., additional, Onuma, Y., additional, Higuchi, S., additional, Tani, A., additional, Wada, A., additional, Kato, M., additional, Obata, H., additional, Higuchi, Y., additional, Endo, T., additional, Katou, R., additional, Matsunaga, T., additional, Matsuoka, T., additional, Noguchi, H., additional, Usui, M., additional, Hayashi, T., additional, Otsuji, Y., additional, Osaki, T., additional, Zaizen, H., additional, Yoshihara, H., additional, Kadota, K., additional, Hirose, T., additional, Miyazawa, T., additional, Mori, A., additional, Takano, M., additional, Shimizu, W., additional, Wake, M., additional, Oriso, S., additional, Yoshiyama, M., additional, Kakinoki, S., additional, Nishioka, T., additional, Ozaki, T., additional, Nomoto, K., additional, Seki, K., additional, Kawai, K., additional, Ozaki, Y., additional, Miura, S., additional, Kawasaki, M., additional, Funada, R., additional, Dote, K., additional, Nagano, T., additional, Okamoto, S., additional, Kubo, T., additional, Murozono, Y., additional, Owada, T., additional, Doke, T., additional, Matsumura, T., additional, Horiuchi, M., additional, Takaishi, A., additional, Yamamoto, M., additional, Nakashima, H., additional, Munemasa, M., additional, Sakata, Y., additional, Inoue, N., additional, Ota, T., additional, Hamano, Y., additional, Abe, N., additional, Tsubokura, T., additional, Goto, M., additional, Kubota, I., additional, Yano, M., additional, Umetani, K., additional, Date, T., additional, Morimoto, H., additional, Noda, T., additional, Goto, S., additional, Hibi, K., additional, Nakano, A., additional, Hiramitsu, S., additional, Kihara, Y., additional, Sugi, M., additional, Shiba, N., additional, Izumi, D., additional, Sato, T., additional, Tayama, S., additional, Matsui, T., additional, Suzuki, A., additional, Ajiki, K., additional, Oishi, M., additional, Kiryu, M., additional, Ko, T., additional, Ando, H., additional, Miyazaki, S., additional, Kinugawa, T., additional, Otake, H., additional, Kitaoka, H., additional, Hirata, Y., additional, Honda, S., additional, Manita, M., additional, Ishii, Y., additional, Oka, H., additional, Nanba, Y., additional, Nishino, M., additional, Sakamoto, T., additional, Saito, T., additional, Sakai, H., additional, Ichikawa, M., additional, Namiuchi, S., additional, Inoue, K., additional, Komiyama, N., additional, Akashi, Y., additional, Nakamura, Y., additional, Komaru, T., additional, Hosokawa, T., additional, Chikamori, T., additional, Tanaka, H., additional, Arasaki, O., additional, Aonuma, K., additional, Wakasa, Y., additional, Yoshizawa, T., additional, Sugano, T., additional, Yokota, N., additional, Kakutani, A., additional, Suzuki, T., additional, Abe, Y., additional, Kataoka, T., additional, Okayama, H., additional, Yokoi, H., additional, Chin, K., additional, Hasegawa, K., additional, Tomita, H., additional, Honzyo, H., additional, Kawai, H., additional, Yamamoto, K., additional, Morino, Y., additional, Tsujiyama, S., additional, Hamasaki, S., additional, Niijima, Y., additional, Mizuno, Y., additional, Maki, A., additional, Tanabe, K., additional, Murohara, T., additional, Naomi, S., additional, Arikawa, M., additional, Kato, T., additional, Matsumoto, N., additional, Minamino, T., additional, Sairenji, H., additional, Miyamoto, N., additional, Ito, H., additional, Matsuura, Y., additional, Hata, S., additional, Nakatsu, Y., additional, Onodera, T., additional, Yoshimura, M., additional, Amano, H., additional, Tokutake, E., additional, Kasao, M., additional, Moriguchi, M., additional, Tsuji, M., additional, Yamamoto, H., additional, Yanbe, Y., additional, Iwasawa, T., additional, Suzuki, M., additional, and Mori, H., additional

Published
2021
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6. USP15 attenuates IGF-I signaling by antagonizing Nedd4-induced IRS-2 ubiquitination

Author

Fukushima, Toshiaki, Yoshihara, H., Furuta, H., Hakuno, F., Iemura, S. I., Natsume, T., Nakatsu, Y., Kamata, H., Asano, T., Komada, M., and Takahashi, S. I.

Subjects
0301 basic medicine, Ubiquitination, Signal Transduction/*physiology, Ubiquitin-Protein Ligases, Nedd4 Ubiquitin Protein Ligases, Biophysics, NEDD4, Ubiquitin-Protein Ligases/*metabolism, macromolecular substances, Ubiquitinated Proteins/metabolism, Biochemistry, Receptor tyrosine kinase, 03 medical and health sciences, chemistry.chemical_compound, Ubiquitin, Humans, Endosomal Sorting Complexes Required for Transport/*metabolism, Ubiquitin-specific protease 15 (USP15), Insulin-Like Growth Factor I, Molecular Biology, PI3K/AKT/mTOR pathway, Insulin receptor substrate (IRS)-2, Nedd4, biology, Endosomal Sorting Complexes Required for Transport, Chemistry, Insulin Receptor Substrate Proteins/*metabolism, Tyrosine phosphorylation, Cell Biology, Insulin-like growth factor (IGF), Ubiquitinated Proteins, Ubiquitin ligase, Ubiquitination/*physiology, Insulin receptor, 030104 developmental biology, HEK293 Cells, biology.protein, Cancer research, Insulin Receptor Substrate Proteins, Insulin-Like Growth Factor I/*metabolism, Phosphorylation, Ubiquitin-Specific Proteases, Ubiquitin-Specific Proteases/*metabolism, Signal Transduction
Abstract

Insulin receptor substrates (IRSs) are phosphorylated by IGF-I receptor tyrosine kinase in a ligand-dependent manner. In turn, they bind to and activate effector proteins such as PI3K, leading to various cell responses including cell proliferation. We had reported that ubiquitin ligase Nedd4 induces mono-ubiquitination of IRS-2, thereby enhancing IRS-2 tyrosine phosphorylation, leading to increased IGF signaling and mitogenic activity. Here we show that ubiquitin-specific protease 15 (USP15) antagonizes the effect of Nedd4 on IRS-2. We identified USP15 as a protein that preferentially bound to IRS-2 when IRS-2 was conjugated with ubiquitin. In HEK293 cells, Nedd4 overexpression induced IRS-2 ubiquitination, which was decreased by USP15 co-expression while increased by USP15 knockdown. Nedd4 overexpression enhanced IGF-I-dependent IRS-2 tyrosine phosphorylation, and USP15 co-expression suppressed it. Conversely, USP15 knockdown increased IRS-2 tyrosine phosphorylation and downstream signaling in prostate cancer PC-3 cells. We concluded that USP15 attenuates IGF-I signaling by antagonizing Nedd4-induced IRS-2 ubiquitination.

Published
2017

8. Prolyl isomerase Pin1 negatively regulates AMP-activated protein kinase (AMPK) by associating with the CBS domain in the gamma subunit

Author

Nakatsu, Y., Iwashita, M., Sakoda, H., Ono, H., Nagata, K., Matsunaga, Y., Fukushima, Toshiaki, Fujishiro, M., Kushiyama, A., Kamata, H., Takahashi, S., Katagiri, H., Honda, H., Kiyonari, H., Uchida, T., and Asano, T.

Subjects
Glucose/chemistry, muscle, prolyl isomerase, CBS domain, AMP-Activated Protein Kinases, Biochemistry, RNA, Small Interfering/metabolism, Mice, Muscles/pathology, AMP-activated protein kinase, energy metabolism, Protein Phosphatase 2, Peptidylprolyl Isomerase/*metabolism, RNA, Small Interfering, Phosphorylation, Mice, Knockout, Recombinant Proteins/metabolism, biology, diabetes, Chemistry, Muscles, Hep G2 Cells, Peptidylprolyl Isomerase, Metformin, Recombinant Proteins, PIN1, AMP-activated kinase (AMPK), Protein Phosphatase 2/*metabolism, Protein subunit, Metformin/chemistry, Mice, Transgenic, Gene Expression Regulation, Enzymologic, metabolic syndrome, Dephosphorylation, Animals, Humans, Gene Silencing, Protein kinase A, Molecular Biology, AMPK, Cell Biology, Lipid Metabolism, NIMA-Interacting Peptidylprolyl Isomerase, Mice, Inbred C57BL, Glucose, Metabolism, HEK293 Cells, Gene Expression Regulation, biology.protein, AMP-Activated Protein Kinases/*metabolism, Metabolic Syndrome X/metabolism
Abstract

AMP-activated protein kinase (AMPK) plays a critical role in metabolic regulation. In this study, first, it was revealed that Pin1 associates with any isoform of γ, but not with either the α or the β subunit, of AMPK. The association between Pin1 and the AMPK γ1 subunit is mediated by the WW domain of Pin1 and the Thr(211)-Pro-containing motif located in the CBS domain of the γ1 subunit. Importantly, overexpression of Pin1 suppressed AMPK phosphorylation in response to either 2-deoxyglucose or biguanide stimulation, whereas Pin1 knockdown by siRNAs or treatment with Pin1 inhibitors enhanced it. The experiments using recombinant Pin1, AMPK, LKB1, and PP2C proteins revealed that the protective effect of AMP against PP2C-induced AMPKα subunit dephosphorylation was markedly suppressed by the addition of Pin1. In good agreement with the in vitro data, the level of AMPK phosphorylation as well as the expressions of mitochondria-related genes, such as PGC-1α, which are known to be positively regulated by AMPK, were markedly higher with reduced triglyceride accumulation in the muscles of Pin1 KO mice as compared with controls. These findings suggest that Pin1 plays an important role in the pathogenic mechanisms underlying impaired glucose and lipid metabolism, functioning as a negative regulator of AMPK.

Published
2015

9. DPP-IV inhibitor anagliptin exerts anti-inflammatory effects on macrophages, adipocytes, and mouse livers by suppressing NF-κB activation

Author

Shinjo, T., Nakatsu, Y., Iwashita, M., Sano, T., Sakoda, H., Ishihara, H., Kushiyama, A., Fujishiro, M., Fukushima, Toshiaki, Tsuchiya, Y., Kamata, H., Nishimura, F., and Asano, T.

Subjects
Male, Lipopolysaccharide, Physiology, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, Adipocytes, White, Gene Expression Regulation/drug effects, Adipose tissue, Mice, chemistry.chemical_compound, Genes, Reporter, Signal Transduction/drug effects, Response Elements/drug effects, Phosphorylation, Cell Line, Transformed, Pyrimidines/*pharmacology/therapeutic use, Anti-Inflammatory Agents, Non-Steroidal, Systemic Inflammatory Response Syndrome/blood/immunology/metabolism/prevention &, NF-kappa B, Phosphorylation/drug effects, Systemic Inflammatory Response Syndrome, Cytokine, Adipocytes, White/*drug effects/immunology/metabolism/secretion, Liver, NF-kappa B/agonists/*antagonists & inhibitors/genetics/metabolism, Anagliptin, Cytokines, Tumor necrosis factor alpha, medicine.symptom, Signal Transduction, medicine.drug, medicine.medical_specialty, Dipeptidyl Peptidase 4, Inflammation, Biology, Response Elements, Proinflammatory cytokine, Dipeptidyl-Peptidase IV Inhibitors/*pharmacology/therapeutic use, 3T3-L1 Cells, Physiology (medical), Internal medicine, medicine, Animals, Dipeptidyl-Peptidase IV Inhibitors, Macrophages, Protein Processing, Post-Translational/drug effects, Dipeptidyl Peptidase 4/chemistry/genetics/metabolism, Cytokines/agonists/antagonists & inhibitors/genetics/metabolism, Macrophages/*drug effects/immunology/metabolism/secretion, Coculture Techniques, Mice, Inbred C57BL, IκBα, Pyrimidines, Endocrinology, Genes, Reporter/drug effects, Gene Expression Regulation, chemistry, Liver/*drug effects/immunology/metabolism, Anti-Inflammatory Agents, Non-Steroidal/*pharmacology/therapeutic use, control, Protein Processing, Post-Translational
Abstract

Dipeptidyl peptidase IV (DPP-IV) expression in visceral adipose tissue is reportedly increased in obese patients, suggesting an association of DPP-IV with inflammation. In this study, first, lipopolysaccharide (LPS)- or palmitate-induced elevations of inflammatory cytokine mRNA expressions in RAW264.7 macrophages were shown to be significantly suppressed by coincubation with a DPP-IV inhibitor, anagliptin (10 μM), despite low DPP-IV expression in the RAW264.7 cells. Regarding the molecular mechanism, LPS-induced degradation of IκBα and phosphorylations of p65, JNK, and p38, as well as NF-κB and AP-1 promoter activities, were revealed to be suppressed by incubation with anagliptin, indicating suppressive effects of anagliptin on both NF-κB and AP-1 signaling pathways. Anagliptin also acted on 3T3-L1 adipocytes, weakly suppressing the inflammatory cytokine expressions induced by LPS and TNFα. When 3T3-L1 and RAW cells were cocultured and stimulated with LPS, the effects of anagliptin on the suppression of cytokine expressions in 3T3-L1 adipocytes were more marked and became evident at the 10 μM concentration. Anti-inflammatory effects of anagliptin were also observed in vivo on the elevated hepatic and adipose expressions and serum concentrations of inflammatory cytokines in association with the suppression of hepatic NF-κB transcriptional activity in LPS-infused mice. Taking these observations together, the anti-inflammatory properties of anagliptin may be beneficial in terms of preventing exacerbation of diabetes and cardiovascular events.

Published
2015

10. Reduced SHARPIN and LUBAC Formation May Contribute to CCl4- or Acetaminophen-Induced Liver Cirrhosis in Mice

Author

Yamamotoya, T., Nakatsu, Y., Matsunaga, Y., Fukushima, Toshiaki, Yamazaki, H., Kaneko, S., Fujishiro, M., Kikuchi, T., Kushiyama, A., Tokunaga, F., Asano, T., and Sakoda, H.

Subjects
0301 basic medicine, Male, LUBAC, CCl4 and APAP-induced hepatitis, inflammation, fibrosis, hepatocyte apoptosis, Small hairpin RNA, lcsh:Chemistry, Mice, Ubiquitin, Apoptosis/genetics, Carrier Proteins/genetics/*metabolism, lcsh:QH301-705.5, Spectroscopy, Tumor Necrosis Factor-alpha/metabolism, biology, General Medicine, Computer Science Applications, Cell biology, Ubiquitin ligase, medicine.anatomical_structure, Hepatocyte, Gene Knockdown Techniques, Tumor necrosis factor alpha, medicine.symptom, Inflammation/genetics/metabolism/pathology, Acetaminophen/adverse effects, Protein Binding, CCL4, Inflammation, Catalysis, Multiprotein Complexes/*metabolism, Inorganic Chemistry, 03 medical and health sciences, Carbon Tetrachloride/adverse effects, Ubiquitin-Protein Ligases/metabolism, Cell Line, Tumor, medicine, Animals, Liver Cirrhosis/chemically induced/genetics/*metabolism/pathology, Physical and Theoretical Chemistry, Molecular Biology, business.industry, Organic Chemistry, Hepatocytes/metabolism, Disease Models, Animal, 030104 developmental biology, Gene Expression Regulation, lcsh:Biology (General), lcsh:QD1-999, Apoptosis, Immunology, biology.protein, business
Abstract

Linear ubiquitin chain assembly complex (LUBAC), composed of SHARPIN (SHANK-associated RH domain-interacting protein), HOIL-1L (longer isoform of heme-oxidized iron-regulatory protein 2 ubiquitin ligase-1), and HOIP (HOIL-1L interacting protein), forms linear ubiquitin on nuclear factor-κB (NF-κB) essential modulator (NEMO) and induces NF-κB pathway activation. SHARPIN expression and LUBAC formation were significantly reduced in the livers of mice 24 h after the injection of either carbon tetrachloride (CCl₄) or acetaminophen (APAP), both of which produced the fulminant hepatitis phenotype. To elucidate its pathological significance, hepatic SHARPIN expression was suppressed in mice by injecting shRNA adenovirus via the tail vein. Seven days after this transduction, without additional inflammatory stimuli, substantial inflammation and fibrosis with enhanced hepatocyte apoptosis occurred in the livers. A similar but more severe phenotype was observed with suppression of HOIP, which is responsible for the E3 ligase activity of LUBAC. Furthermore, in good agreement with these in vivo results, transduction of Hepa1-6 hepatoma cells with SHARPIN, HOIL-1L, or HOIP shRNA adenovirus induced apoptosis of these cells in response to tumor necrosis factor-α (TNFα) stimulation. Thus, LUBAC is essential for the survival of hepatocytes, and it is likely that reduction of LUBAC is a factor promoting hepatocyte death in addition to the direct effect of drug toxicity.

Published
2017
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11. Valsartan restores inflammatory response by macrophages in adipose and hepatic tissues of LPS-infused mice

Author

Iwashita, M., Nakatsu, Y., Sakoda, H., Fujishiro, M., Kushiyama, A., Fukushima, Toshiaki, Kumamoto, S., Shinjo, T., Kamata, H., Nishimura, F., and Asano, T.

Subjects
medicine.medical_specialty, Histology, Lipopolysaccharide, Adipose tissue, Peroxisome proliferator-activated receptor, Inflammation, macrophage, adipocyte, valsartan, Proinflammatory cytokine, chemistry.chemical_compound, Insulin resistance, Internal medicine, Adipocyte, medicine, chemistry.chemical_classification, business.industry, Brief Report, Cell Biology, medicine.disease, ARB, Endocrinology, chemistry, Valsartan, inflammation, type 2 diabetes, medicine.symptom, business, medicine.drug
Abstract

Inflammation involving adipose tissue is regarded as one of the major molecular mechanisms underlying obesity-related insulin resistance. Recent studies have suggested a series of angiotensin II receptor blockers (ARBs) to improve insulin resistance or protect against the development of diabetes mellitus. We previously demonstrated that valsartan suppresses the inflammatory response of macrophages. Interestingly, however, this effect did not occur via peroxisome proliferator-activated receptor (PPAR) γ or the AT1a receptor. This suppression appears to secondarily lead to amelioration of insulin resistance and reductions in abnormal gene expressions in adipocytes. In addition to these in vitro findings, we herein demonstrate the in vivo effects of valsartan, using mice constitutively infused with lipopolysaccharide (LPS) for 4 weeks. Oral administration of valsartan to LPS-infused mice normalized the increased expressions of inflammatory cytokines in adipose and liver tissues. These results raise the possibility that valsartan not only contributes to normalization of obesity-related insulin resistance, but is also beneficial for the treatment of other diseases with inflammation related to the metabolic syndrome such as atherosclerosis and non-alcoholic steatohepatitis. Further study is necessary to clarify these issues.

Published
2014

12. Lactobacillus caseistrain Shirota protects against nonalcoholic steatohepatitis development in a rodent model

Author

Okubo, H., Sakoda, H., Kushiyama, A., Fujishiro, M., Nakatsu, Y., Fukushima, Toshiaki, Matsunaga, Y., Kamata, H., Asahara, T., Yoshida, Y., Chonan, O., Iwashita, M., Nishimura, F., and Asano, T.

Subjects
Lactobacillus casei, Lipopolysaccharide, Physiology, Gut flora, digestive system, Microbiology, Mice, chemistry.chemical_compound, Methionine, Non-alcoholic Fatty Liver Disease, Oral administration, Fibrosis, Physiology (medical), Lactobacillus, medicine, Animals, Gastrointestinal Tract/metabolism/microbiology, Choline Deficiency/metabolism, Bifidobacterium, Inflammation, Inflammation/metabolism/pathology, Methionine/deficiency/metabolism, Liver/metabolism/pathology, Hepatology, biology, Gene Expression Profiling, Microbiota, Gastroenterology, nutritional and metabolic diseases, Lipid Metabolism, biology.organism_classification, medicine.disease, Fatty Liver/metabolism/pathology/prevention & control, Microbiota/*physiology, eye diseases, digestive system diseases, Choline Deficiency, Lactic acid, Fatty Liver, Gastrointestinal Tract, Mice, Inbred C57BL, Lacticaseibacillus casei, Disease Models, Animal, Bifidobacterium/isolation & purification/metabolism, Liver, chemistry, Lactobacillus casei/*metabolism, Gene Expression Profiling/methods
Abstract

Gut microbiota alterations are associated with various disorders. In this study, gut microbiota changes were investigated in a methionine-choline-deficient (MCD) diet-induced nonalcoholic steatohepatitis (NASH) rodent model, and the effects of administering Lactobacillus casei strain Shirota (LcS) on the development of NASH were also investigated. Mice were divided into three groups, given the normal chow diet (NCD), MCD diet, or the MCD diet plus daily oral administration of LcS for 6 wk. Gut microbiota analyses for the three groups revealed that lactic acid bacteria such as Bifidobacterium and Lactobacillus in feces were markedly reduced by the MCD diet. Interestingly, oral administration of LcS to MCD diet-fed mice increased not only the L. casei subgroup but also other lactic acid bacteria. Subsequently, NASH development was evaluated based on hepatic histochemical findings, serum parameters, and various mRNA and/or protein expression levels. LcS intervention markedly suppressed MCD-diet-induced NASH development, with reduced serum lipopolysaccharide concentrations, suppression of inflammation and fibrosis in the liver, and reduced colon inflammation. Therefore, reduced populations of lactic acid bacteria in the colon may be involved in the pathogenesis of MCD diet-induced NASH, suggesting normalization of gut microbiota to be effective for treating NASH.

Published
2013

13. Par14 protein associates with insulin receptor substrate 1 (IRS-1), thereby enhancing insulin-induced IRS-1 phosphorylation and metabolic actions

Author

Zhang, J., Nakatsu, Y., Shinjo, T., Guo, Y., Sakoda, H., Yamamotoya, T., Otani, Y., Okubo, H., Kushiyama, A., Fujishiro, M., Fukushima, Toshiaki, Tsuchiya, Y., Kamata, H., Iwashita, M., Nishimura, F., Katagiri, H., Takahashi, S., Kurihara, H., Uchida, T., and Asano, T.

Subjects
medicine.medical_treatment, Obesity/blood/genetics, Mice, Obese, Biochemistry, Binding Sites/genetics, Glucose Intolerance/genetics, Insulin/*pharmacology, Phosphatidylinositol 3-Kinases, Mice, Proto-Oncogene Proteins c-akt/metabolism, Insulin, Phosphorylation, Mice, Knockout, Insulin Receptor Substrate Proteins/genetics/*metabolism, Peptidylprolyl Isomerase/genetics/*metabolism, Phosphorylation/drug effects, Hep G2 Cells, Peptidylprolyl Isomerase, Hyperglycemia/genetics/therapy, Liver, RNA Interference, Signal transduction, Phosphatidylinositol 3-Kinases/metabolism, Protein Binding, Liver/metabolism, medicine.medical_specialty, Insulin Receptor Substrate Proteins, Proto-Oncogene Proteins c-akt, Immunoblotting, Biology, Hypoglycemic Agents/pharmacology, Internal medicine, Glucose Intolerance, medicine, Hypoglycemic Agents, Animals, Humans, Obesity, Molecular Biology, Protein kinase B, Binding Sites, Cell Biology, IRS1, NIMA-Interacting Peptidylprolyl Isomerase, Mice, Inbred C57BL, Insulin receptor, Endocrinology, Metabolism, HEK293 Cells, Hyperglycemia, Mutation, biology.protein
Abstract

Pin1 and Par14 are parvulin-type peptidyl-prolyl cis/trans isomerases. Although numerous proteins have been identified as Pin1 substrates, the target proteins of Par14 remain largely unknown. Par14 expression levels are increased in the livers and embryonic fibroblasts of Pin1 KO mice, suggesting a compensatory relationship between the functions of Pin1 and Par14. In this study, the association of Par14 with insulin receptor substrate 1 (IRS-1) was demonstrated in HepG2 cells overexpressing both as well as endogenously in the mouse liver. The analysis using deletion-mutated Par14 and IRS-1 constructs revealed the N-terminal portion containing the basic domain of Par14 and the two relatively C-terminal portions of IRS-1 to be involved in these associations, in contrast to the WW domain of Pin1 and the SAIN domain of IRS-1. Par14 overexpression in HepG2 markedly enhanced insulin-induced IRS-1 phosphorylation and its downstream events, PI3K binding with IRS-1 and Akt phosphorylation. In contrast, treating HepG2 cells with Par14 siRNA suppressed these events. In addition, overexpression of Par14 in the insulin-resistant ob/ob mouse liver by adenoviral transfer significantly improved hyperglycemia with normalization of hepatic PEPCK and G6Pase mRNA levels, and gene suppression of Par14 using shRNA adenovirus significantly exacerbated the glucose intolerance in Pin1 KO mice. Therefore, although Pin1 and Par14 associate with different portions of IRS-1, the prolyl cis/trans isomerization in multiple sites of IRS-1 by these isomerases appears to be critical for efficient insulin receptor-induced IRS-1 phosphorylation. This process is likely to be one of the major mechanisms regulating insulin sensitivity and also constitutes a potential therapeutic target for novel insulin-sensitizing agents. Background: Par14 is a parvulin-type peptidyl-prolyl cis/trans isomerase homologous with Pin1, but its functions remain largely unknown. Results: Par14 markedly enhanced insulin signaling by associating with IRS-1, and hepatic overexpression of Par14 normalized hyperglycemia in diabetic mice. Conclusion: Par14 exhibits an insulin-sensitizing effect. Significance: This is the first report showing the roles of Par14 in metabolism and signal transduction.

Published
2013

14. Integrator complex plays an essential role in adipose differentiation

Author

Otani, Y., Nakatsu, Y., Sakoda, H., Fukushima, Toshiaki, Fujishiro, M., Kushiyama, A., Okubo, H., Tsuchiya, Y., Ohno, H., Takahashi, S., Nishimura, F., Kamata, H., Katagiri, H., and Asano, T.

Subjects
Small interfering RNA, Time Factors, RNA, Messenger/genetics/metabolism, Integrator complex, Cellular differentiation, PPAR gamma/genetics/metabolism, Blotting, Western, RNA, Small Interfering/genetics/metabolism, Biophysics, Glucose Transporter Type 4/genetics/metabolism, Adipose tissue, Biology, Fatty Acid-Binding Proteins, Transfection, Biochemistry, DEAD-box RNA Helicases/genetics/*metabolism, Adenoviridae, DEAD-box RNA Helicases, Mice, 3T3-L1 Cells, Adipocytes, Animals, RNA, Messenger, RNA, Small Interfering, Adenoviridae/metabolism, Adipogenesis, Molecular Biology, Transcription factor, Regulation of gene expression, Glucose Transporter Type 4, Adipocytes/*cytology/metabolism, Tumor Suppressor Proteins, RNA-Binding Proteins, Fibroblasts/cytology/metabolism, Cell Biology, Fibroblasts, Molecular biology, Fatty Acid-Binding Proteins/genetics/metabolism, PPAR gamma, Multiprotein Complexes/genetics/*metabolism, Gene Expression Regulation, Multiprotein Complexes, Perilipin
Abstract

The dynamic process of adipose differentiation involves stepwise expressions of transcription factors and proteins specific to the mature fat cell phenotype. In this study, it was revealed that expression levels of IntS6 and IntS11, subunits of the Integrator complex, were increased in 3T3-L1 cells in the period when the cells reached confluence and differentiated into adipocytes, while being reduced to basal levels after the completion of differentiation. Suppression of IntS6 or IntS11 expression using siRNAs in 3T3-L1 preadipocytes markedly inhibited differentiation into mature adipocytes, based on morphological findings as well as mRNA analysis of adipocyte-specific genes such as Glut4, perilipin and Fabp4. Although Pparγ2 protein expression was suppressed in IntS6 or IntS11-siRNA treated cells, adenoviral forced expression of Pparγ2 failed to restore the capacity for differentiation into mature adipocytes. Taken together, these findings demonstrate that increased expression of Integrator complex subunits is an indispensable event in adipose differentiation. Although further study is necessary to elucidate the underlying mechanism, the processing of U1, U2 small nuclear RNAs may be involved in cell differentiation steps.

Published
2013

15. Role of Pin1 Protein in the Pathogenesis of Nonalcoholic Steatohepatitis in a Rodent Model

Author

Nakatsu, Y., Otani, Y., Sakoda, H., Zhang, J., Guo, Y., Okubo, H., Kushiyama, A., Fujishiro, M., Kikuch, T., Fukushima, Toshiaki, Ohno, H., Tsuchiya, Y., Kamata, H., Nagamachi, A., Inaba, T., Nishimura, F., Katagiri, H., Takahashi, S., Kurihara, H., Uchida, T., and Asano, T.

Subjects
Male, Inflammation, Fatty Liver/*enzymology/genetics/pathology, Biology, digestive system, Biochemistry, Proinflammatory cytokine, Mice, Non-alcoholic Fatty Liver Disease, Fibrosis, medicine, Animals, Humans, Molecular Biology, Mice, Knockout, Peptidylprolyl isomerase, Peptidylprolyl Isomerase/genetics/*metabolism, Fatty liver, Liver/enzymology, nutritional and metabolic diseases, Cell Biology, Peptidylprolyl Isomerase, medicine.disease, digestive system diseases, Fatty Liver, Mice, Inbred C57BL, NIMA-Interacting Peptidylprolyl Isomerase, Disease Models, Animal, Metabolism, Liver, Immunology, Cancer research, Female, Tumor necrosis factor alpha, Steatosis, medicine.symptom, Hepatic fibrosis
Abstract

Nonalcoholic steatohepatitis (NASH) is a disorder characterized by simultaneous fat accumulation and chronic inflammation in the liver. In this study, Pin1 expression was revealed to be markedly increased in the livers of mice with methionine choline-deficient (MCD) diet-induced NASH, a rodent model of NASH. In addition, Pin1 KO mice were highly resistant to MCD-induced NASH, based on a series of data showing simultaneous fat accumulation, chronic inflammation, and fibrosis in the liver. In terms of Pin1-induced fat accumulation, it was revealed that the expression levels of peroxisome proliferator-activated receptor α and its target genes were higher in the livers of Pin1 KO mice than in controls. Thus, resistance of Pin1 KO mice to hepatic steatosis is partially attributable to the lack of Pin1-induced down-regulation of peroxisome proliferator-activated receptor α, although multiple other mechanisms are apparently involved. Another mechanism involves the enhancing effect of hematopoietic Pin1 on the expressions of inflammatory cytokines such as tumor necrosis factor and monocyte chemoattractant protein 1 through NF-κB activation, eventually leading to hepatic fibrosis. Finally, to distinguish the roles of hematopoietic or nonhematopoietic Pin1 in NASH development, mice lacking Pin1 in either nonhematopoietic or hematopoietic cells were produced by bone marrow transplantation between wild-type and Pin1 KO mice. The mice having nonhematopoietic Pin1 exhibited fat accumulation without liver fibrosis on the MCD diet. Thus, hepatic Pin1 appears to be directly involved in the fat accumulation in hepatocytes, whereas Pin1 in hematopoietic cells contributes to inflammation and fibrosis. In summary, this is the first study to demonstrate that Pin1 plays critical roles in NASH development. This report also raises the possibility that hepatic Pin1 inhibition to the appropriate level might provide a novel therapeutic strategy for NASH.

Published
2012

16. Involvement of resistin-like molecule β in the development of methionine-choline deficient diet-induced non-alcoholic steatohepatitis in mice

Author

Okubo, H., Kushiyama, A., Sakoda, H., Nakatsu, Y., Iizuka, M., Taki, N., Fujishiro, M., Fukushima, Toshiaki, Kamata, H., Nagamachi, A., Inaba, T., Nishimura, F., Katagiri, H., Asahara, T., Yoshida, Y., Chonan, O., Encinas, J., and Asano, T.

Subjects
Male, 0301 basic medicine, medicine.medical_specialty, Transcription, Genetic, Lipopolysaccharide, Colon, Kupffer Cells, Biology, Gut flora, digestive system, Article, Mice, 03 medical and health sciences, chemistry.chemical_compound, Methionine, Immune system, Non-alcoholic Fatty Liver Disease, Internal medicine, medicine, Animals, Mice, Knockout, Multidisciplinary, Macrophages, Methionine choline deficient diet, nutritional and metabolic diseases, Non alcoholic, biology.organism_classification, medicine.disease, digestive system diseases, Choline Deficiency, Diet, Gastrointestinal Microbiome, Lactic acid, Toll-Like Receptor 4, Disease Models, Animal, 030104 developmental biology, Endocrinology, Gene Expression Regulation, Liver, chemistry, Hormones, Ectopic, Immunology, Intercellular Signaling Peptides and Proteins, Resistin, Steatohepatitis, Biomarkers
Abstract

Resistin-like molecule β (RELMβ) reportedly has multiple functions including local immune responses in the gut. In this study, we investigated the possible contribution of RELMβ to non-alcoholic steatohepatitis (NASH) development. First, RELMβ knock-out (KO) mice were shown to be resistant to methionine-choline deficient (MCD) diet-induced NASH development. Since it was newly revealed that Kupffer cells in the liver express RELMβ and that RELMβ expression levels in the colon and the numbers of RELMβ-positive Kupffer cells were both increased in this model, we carried out further experiments using radiation chimeras between wild-type and RELMβ-KO mice to distinguish between the contributions of RELMβ in these two organs. These experiments revealed the requirement of RELMβ in both organs for full manifestation of NASH, while deletion of each one alone attenuated the development of NASH with reduced serum lipopolysaccharide (LPS) levels. The higher proportion of lactic acid bacteria in the gut microbiota of RELMβ-KO than in that of wild-type mice may be one of the mechanisms underlying the lower serum LPS level the former. These data suggest the contribution of increases in RELMβ in the gut and Kupffer cells to NASH development, raising the possibility of RELMβ being a novel therapeutic target for NASH.

Published
2016

17. Valsartan, independently of AT1 receptor or PPARγ, suppresses LPS-induced macrophage activation and improves insulin resistance in cocultured adipocytes

Author

Iwashita, M., Sakoda, H., Kushiyama, A., Fujishiro, M., Ohno, H., Nakatsu, Y., Fukushima, Toshiaki, Kumamoto, S., Tsuchiya, Y., Kikuchi, T., Kurihara, H., Akazawa, H., Komuro, I., Kamata, H., Nishimura, F., and Asano, T.

Subjects
Lipopolysaccharide, Physiology, Anti-Inflammatory Agents, Non-Steroidal/*pharmacology, Endocrinology, Diabetes and Metabolism, Adipocytes, White, Tetrazoles, Adipose tissue, Tetrazoles/*pharmacology, Mice, chemistry.chemical_compound, Adipocyte, Macrophage, Valine/*analogs & derivatives/pharmacology, RNA, Small Interfering, Cells, Cultured, Mice, Knockout, Anti-Inflammatory Agents, Non-Steroidal, Valine, PPAR gamma/antagonists & inhibitors/*metabolism, Receptor, Angiotensin, Type 1/chemistry/genetics/*metabolism, Valsartan, RNA Interference, medicine.symptom, medicine.medical_specialty, Adipocytes, White/*drug effects/immunology/metabolism, Inflammation, Receptor, Angiotensin, Type 1, Cell Line, Insulin resistance, 3T3-L1 Cells, Angiotensin II Type 1 Receptor Blockers/pharmacology, Physiology (medical), Internal medicine, medicine, Animals, Humans, Macrophages/drug effects/immunology/metabolism, Angiotensin II receptor type 1, Macrophages, Macrophage Activation/*drug effects, Macrophage Activation, Insulin Resistance, medicine.disease, Angiotensin II, Coculture Techniques, PPAR gamma, Mice, Inbred C57BL, Endocrinology, chemistry, Angiotensin II Type 1 Receptor Blockers
Abstract

Macrophages are integrated into adipose tissues and interact with adipocytes in obese subjects, thereby exacerbating adipose insulin resistance. This study aimed to elucidate the molecular mechanism underlying the insulin-sensitizing effect of the angiotensin II receptor blocker (ARB) valsartan, as demonstrated in clinical studies. Insulin signaling, i.e., insulin receptor substrate-1 and Akt phosphorylations, in 3T3-L1 adipocytes was impaired markedly by treatment with tumor necrosis factor-α (TNFα) or in the culture medium of lipopolysaccharide (LPS)-stimulated RAW 264.7 murine macrophages, and valsartan had no effects on these impairments. However, in contrast, when cocultured with RAW 264.7 cells using a transwell system, the LPS-induced insulin signaling impairment in 3T3-L1 adipocytes showed almost complete normalization with coaddition of valsartan. Furthermore, valsartan strongly suppressed LPS-induced productions of cytokines such as interleukin (IL)-1β, IL-6, and TNFα with nuclear factor-κB activation and c-Jun NH2-terminal kinase phosphorylation in RAW 264.7 and primary murine macrophages. Very interestingly, this effect of valsartan was also observed in THP-1 cells treated with angiotensin II type 1 (AT1) siRNA or a peroxisome proliferator-activated receptor-γ (PPARγ) antagonist as well as macrophages from AT1a receptor-knockout mice. We conclude that valsartan suppresses the inflammatory response of macrophages, albeit not via PPARγ or the AT1a receptor. This suppression appears to secondarily improve adipose insulin resistance.

Published
2012

18. Xanthine Oxidoreductase Is Involved in Macrophage Foam Cell Formation and Atherosclerosis Development

Author

Kushiyama, A., Okubo, H., Sakoda, H., Kikuchi, T., Fujishiro, M., Sato, H., Kushiyama, S., Iwashita, M., Nishimura, F., Fukushima, Toshiaki, Nakatsu, Y., Kamata, H., Kawazu, S., Higashi, Y., Kurihara, H., and Asano, T.

Subjects
Cell physiology, Xanthine Dehydrogenase, Allopurinol, Lipoproteins, Cellular differentiation, Lipoproteins/metabolism, Xanthine Dehydrogenase/antagonists & inhibitors/drug effects/*physiology, ATP-binding cassette transporter, Biology, Lipid Metabolism/drug effects, Mice, Apolipoproteins E, medicine, Animals, Humans, Macrophage, Enzyme Inhibitors, ATP-Binding Cassette Transporters/metabolism, Apolipoproteins E/deficiency/genetics, Cells, Cultured, ATP Binding Cassette Transporter, Subfamily G, Member 1, Foam cell, Enzyme Inhibitors/pharmacology, Mice, Knockout, Macrophages, Cytokines/metabolism, Macrophages/drug effects/metabolism/*pathology, Cell Differentiation, Lipid metabolism, Atherosclerosis, Lipid Metabolism, Allopurinol/pharmacology, Cell Differentiation/*physiology, Disease Models, Animal, Xanthine dehydrogenase, Biochemistry, Atherosclerosis/*metabolism/*physiopathology, Cytokines, ATP-Binding Cassette Transporters, lipids (amino acids, peptides, and proteins), Cardiology and Cardiovascular Medicine, Foam Cells/drug effects/metabolism/*pathology, Foam Cells, ATP Binding Cassette Transporter 1, medicine.drug
Abstract

Objective— Hyperuricemia is common in patients with metabolic syndrome. We investigated the role of xanthine oxidoreductase (XOR) in atherosclerosis development, and the effects of the XOR inhibitor allopurinol on this process. Methods and Results— Oral administration of allopurinol to ApoE knockout mice markedly ameliorated lipid accumulation and calcification in the aorta and aortic root. In addition, allopurinol treatment or siRNA-mediated gene knockdown of XOR suppressed transformation of J774.1 murine macrophage cells, treated with acetylated LDL or very low density lipoprotein (VLDL) into foam cells. This inhibitory effect of allopurinol was also observed in primary cultured human macrophages. In contrast, overexpression of XOR promoted transformation of J774.1 cells into foam cells. Interestingly, SR-A1, SR-B1, SR-B II, and VLDL receptors in J774.1 cells were reduced by XOR knockdown, and increased by XOR overexpression. Conversely, expressions of ABCA1 and ABCG1 were increased by XOR knockdown and suppressed by XOR overexpression. Finally, productions of inflammatory cytokines accompanied by foam cell formation were also reduced by allopurinol administration. Conclusion— These results strongly suggest XOR activity and/or its expression level to contribute to macrophage foam cell formation. Thus, XOR inhibitors may be useful for preventing atherosclerosis.

Published
2012

19. Pin1 Associates with and Induces Translocation of CRTC2 to the Cytosol, Thereby Suppressing cAMP-responsive Element Transcriptional Activity

Author

Nakatsu, Y., Sakoda, H., Kushiyama, A., Ono, H., Fujishiro, M., Horike, N., Yoneda, M., Ohno, H., Tsuchiya, Y., Kamata, H., Tahara, H., Isobe, T., Nishimura, F., Katagiri, H., Oka, Y., Fukushima, Toshiaki, Takahashi, S., Kurihara, H., Uchida, T., and Asano, T.

Subjects
Cytosol/metabolism, Transcription, Genetic, Cyclic AMP/*metabolism, Colforsin/pharmacology, Nuclear Localization Signals, Transcription Factors/genetics/*metabolism, Cell Nucleus/genetics/*metabolism, Trans-Activators/genetics/*metabolism, Biochemistry, Mice, Cytosol, Cyclic AMP, Cyclic AMP Response Element-Binding Protein, Transcription, Genetic/drug effects/*physiology, Gene knockdown, Cyclic AMP Response Element-Binding Protein/genetics/metabolism, Peptidylprolyl Isomerase/genetics/*metabolism, biology, Hep G2 Cells, Peptidylprolyl Isomerase, CREB-Binding Protein, CRTC1, CRTC2, medicine.anatomical_structure, Liver, Gene Knockdown Techniques, PIN1, Liver/metabolism, phosphoenolpyruvate carboxykinase (PEPCK), Active Transport, Cell Nucleus/drug effects/physiology, Active Transport, Cell Nucleus, CREB, Pin1, medicine, Animals, Humans, CREB-binding protein, Molecular Biology, Transcription factor, Cell Nucleus, CREB-Binding Protein/genetics/metabolism, Colforsin, Nuclear Localization Signals/genetics/*metabolism, Cell Biology, Molecular biology, NIMA-Interacting Peptidylprolyl Isomerase, Cell nucleus, Metabolism, cAMP responsive element (CRE), biology.protein, Trans-Activators, Nuclear localization sequence, Transcription Factors
Abstract

Pin1 is a unique regulator, which catalyzes the conversion of a specific phospho-Ser/Thr-Pro-containing motif in target proteins. Herein, we identified CRTC2 as a Pin1-binding protein by overexpressing Pin1 with Myc and FLAG tags in mouse livers and subsequent purification of the complex containing Pin1. The association between Pin1 and CRTC2 was observed not only in overexpression experiments but also endogenously in the mouse liver. Interestingly, Ser(136) in the nuclear localization signal of CRTC2 was shown to be involved in the association with Pin1. Pin1 overexpression in HepG2 cells attenuated forskolin- induced nuclear localization of CRTC2 and cAMP-responsive element (CRE) transcriptional activity, whereas gene knockdown of Pin1 by siRNA enhanced both. Pin1 also associated with CRTC1, leading to their cytosol localization, essentially similar to the action of CRTC2. Furthermore, it was shown that CRTC2 associated with Pin1 did not bind to CREB. Taken together, these observations indicate the association of Pin1 with CRTC2 to decrease the nuclear CBP.CRTC.CREB complex. Indeed, adenoviral gene transfer of Pin1 into diabetic mice improved hyperglycemia in conjunction with normalizing phosphoenolpyruvate carboxykinase mRNA expression levels, which is regulated by CRE transcriptional activity. In conclusion, Pin1 regulates CRE transcriptional activity, by associating with CRTC1 or CRTC2.

Published
2010

21. Mosapride citrate improves nonalcoholic steatohepatitis with increased fecal lactic acid bacteria and plasma glucagon-like peptide-1 level in a rodent model

Author

Okubo, H., Nakatsu, Y., Sakoda, H., Kushiyama, A., Fujishiro, M., Fukushima, Toshiaki, Matsunaga, Y., Ohno, H., Yoneda, M., Kamata, H., Shinjo, T., Iwashita, M., Nishimura, F., and Asano, T.

Subjects
Nonalcoholic steatohepatitis, Liver Cirrhosis, medicine.medical_specialty, Physiology, Morpholines, Inflammation, Peptide, Non-alcoholic Fatty Liver Disease/*drug therapy/metabolism, Gut flora, Glucagon-Like Peptide 1/*blood, digestive system, chemistry.chemical_compound, Feces, Glucagon-Like Peptide 1, Non-alcoholic Fatty Liver Disease, Physiology (medical), Internal medicine, medicine, Animals, Morpholines/*pharmacology, Lactic Acid, Choline Deficiency/metabolism, Inflammation/*metabolism, chemistry.chemical_classification, Hepatology, biology, Benzamides/*pharmacology, Gastroenterology, nutritional and metabolic diseases, biology.organism_classification, Gastrointestinal Tract/drug effects/metabolism, Liver/*drug effects/metabolism, Liver Cirrhosis/metabolism, Glucagon-like peptide-1, eye diseases, Lactic acid, Choline Deficiency, Gastrointestinal Tract, Mice, Inbred C57BL, Endocrinology, chemistry, Liver, Feces/chemistry/*microbiology, Benzamides, Lactic Acid/*metabolism, medicine.symptom, Bacteria
Abstract

Several lines of evidence have suggested a role of gut microbiota in the etiology of nonalcoholic steatohepatitis (NASH). NASH subjects reportedly showed a prolonged orocecal transit time coexistent with small intestinal bacterial overgrowth. We considered the possibility that enhanced gastrointestinal motility would influence gut microbiota and thus investigated the effects of the gastroprokinetic agent mosapride citrate (MC) on gut microbiota and the development of NASH using a methionine-choline deficient (MCD) diet-fed rodent model. Mice were divided into three groups, given the normal chow diet (NCD), the MCD diet, or the MCD diet containing 10 mg·kg−1·day−1of MC (MCD plus MC) for 6 wk. NASH development was evaluated based on hepatic histochemical findings, serum parameters and various mRNA and/or protein expression levels. MC treatment suppressed MCD diet-induced NASH development, with reduced serum lipopolysaccharide and increased plasma glucagon-like peptide-1 (GLP-1) concentrations. Calculation of the relative abundance of each strain based on gut microbiota analyses indicated lactic acid bacteria specifically, such as Bifidobacterium and Lactobacillus, in feces to be decreased in the MCD, compared with the NCD group. Interestingly, the reduction in lactic acid bacteria in the MCD diet group was reversed in the MCD plus MC group. In addition, colon inflammation observed in the MCD diet group was reduced in the MCD plus MC group. Therefore, MC showed a protective effect against MCD diet-induced NASH development in our rodent model, with possible involvements of increased fecal lactic acid bacteria, protection against colon inflammation and elevated plasma GLP-1.

Published
2015

22. LUBAC Formation Is Impaired in the Livers of Mice with MCD-Dependent Nonalcoholic Steatohepatitis

Author

Matsunaga, Y., Nakatsu, Y., Fukushima, Toshiaki, Okubo, H., Iwashita, M., Sakoda, H., Fujishiro, M., Yamamotoya, T., Kushiyama, A., Takahashi, S., Tsuchiya, Y., Kamata, H., Tokunaga, F., Iwai, K., and Asano, T.

Subjects
Male, Article Subject, Ubiquitin-Protein Ligases, Immunology, Palmitates, Proinflammatory cytokine, Mice, chemistry.chemical_compound, Methionine, Ubiquitin, Non-alcoholic Fatty Liver Disease, Fibrosis, lcsh:Pathology, medicine, Animals, biology, Intracellular Signaling Peptides and Proteins, Cell Biology, medicine.disease, Choline Deficiency, Cell biology, Mice, Inbred C57BL, Blot, Liver, chemistry, Biochemistry, Apoptosis, Ubiquitin ligase complex, biology.protein, Tumor necrosis factor alpha, Carrier Proteins, lcsh:RB1-214, Research Article
Abstract

Nonalcoholic steatohepatitis (NASH) is a disorder characterized by hepatic lipid accumulation followed by the inflammation-induced death of hepatocytes and fibrosis. In this process, oxidative stress contributes to the induction of several inflammatory cytokines including TNF-αand IL-1βin macrophages, while, in hepatocytes, NF-κB reportedly induces the expressions of cell survival genes for protection from apoptosis. Recently, it was reported that the new ubiquitin ligase complex termed linear ubiquitin chain assembly complex (LUBAC), composed of SHARPIN (SHANK-associated RH domain-interacting protein), HOIL-1L (longer isoform of heme-oxidized iron-regulatory protein 2 ubiquitin ligase-1), and HOIP (HOIL-1L interacting protein), forms linear ubiquitin on NF-κB essential modulator (NEMO) and thereby induces NF-κB pathway activation. In this study, we demonstrated the formation of LUBAC to be impaired in the livers of NASH rodent models produced by methionine and choline deficient (MCD) diet feeding, first by either gel filtration or Blue Native-PAGE, with subsequent confirmation by western blotting. The reduction of LUBAC is likely to be attributable to markedly reduced expression of SHARPIN, one of its components. Thus, impaired LUBAC formation, which would result in insufficient NF-κB activation, may be one of the molecular mechanisms underlying the enhanced apoptotic response of hepatocytes in MCD diet-induced NASH livers.

Published
2015
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23. Pin1 Inhibitor Juglone Exerts Anti-Oncogenic Effects on LNCaP and DU145 Cells despite the Patterns of Gene Regulation by Pin1 Differing between These Cell Lines

Author

Kanaoka, R., Kushiyama, A., Seno, Y., Nakatsu, Y., Matsunaga, Y., Fukushima, Toshiaki, Tsuchiya, Y., Sakoda, H., Fujishiro, M., Yamamotoya, T., Kamata, H., Matsubara, A., and Asano, T.

Subjects
Male, Science, Mice, Nude, Biology, urologic and male genital diseases, chemistry.chemical_compound, Prostate cancer, Mice, DU145, Cell Line, Tumor, LNCaP, medicine, Animals, Humans, Regulation of gene expression, Multidisciplinary, Cell growth, Microarray analysis techniques, Prostatic Neoplasms, Peptidylprolyl Isomerase, Peptidylprolyl Isomerase/*antagonists & inhibitors/genetics/metabolism, medicine.disease, Xenograft Model Antitumor Assays, Neoplasm Proteins, Naphthoquinones/*pharmacology, Gene Expression Regulation, Neoplastic, NIMA-Interacting Peptidylprolyl Isomerase, chemistry, Gene Expression Regulation, Neoplastic/*drug effects, Cell culture, Neoplasm Proteins/*antagonists & inhibitors/genetics/metabolism, Cancer research, Prostatic Neoplasms/*drug therapy/enzymology/genetics/pathology, Medicine, Juglone, Naphthoquinones, Research Article
Abstract

Background Prostate cancer initially develops in an androgen-dependent manner but, during its progression, transitions to being androgen-independent in the advanced stage. Pin1, one of the peptidyl-prolyl cis/trans isomerases, is reportedly overexpressed in prostate cancers and is considered to contribute to accelerated cell growth, which may be one of the major factors contributing to their androgen-independent growth. Thus, we investigated how Pin1 modulates the gene expressions in both androgen-dependent and androgen-independent prostate cancer cell lines using microarray analysis. In addition, the effects of Juglone, a commercially available Pin1 inhibitor were also examined. Methods Two prostate cancer cell-lines, LNCaP (androgen-dependent) and DU145 (androgen-independent), were treated with Pin1 siRNA and its effects on gene expressions were analyzed by microarray. Individual gene regulations induced by Pin1 siRNA or the Pin1 inhibitor Juglone were examined using RT-PCR. In addition, the effects of Juglone on the growth of LNCaP and DU145 transplanted into mice were investigated. Results Microarray analysis revealed that transcriptional factors regulated by Pin1 differed markedly between LNCaP and DU145 cells, the only exception being that Nrf was regulated in the same way by Pin1 siRNA in both cell lines. Despite this marked difference in gene regulations, Pin1 siRNA and Juglone exert a strong inhibitory effect on both the LNCaP and the DU145 cell line, suppressing in vitro cell proliferation as well as tumor enlargement when transplanted into mice. Conclusions Despite Pin1-regulated gene expressions differing between these two prostate cancer cell-lines, LNCaP (androgen-dependent) and DU145 (androgen-independent), Pin1 inhibition suppresses proliferation of both cell-lines. These findings suggest the potential effectiveness of Pin1 inhibitors as therapeutic agents for prostate cancers, regardless of their androgen sensitivity.

Published
2015

24. Nedd4-induced monoubiquitination of IRS-2 enhances IGF signalling and mitogenic activity

Author

Fukushima, Toshiaki, Yoshihara, H., Furuta, H., Kamei, H., Hakuno, F., Luan, J., Duan, C., Saeki, Y., Tanaka, K., Iemura, S., Natsume, T., Chida, K., Nakatsu, Y., Kamata, H., Asano, T., and Takahashi, S.

Subjects
Cell Proliferation/*genetics, Male, Ubiquitin-Protein Ligases/*genetics, Nedd4 Ubiquitin Protein Ligases, General Physics and Astronomy, Receptor tyrosine kinase, Receptor, IGF Type 1, chemistry.chemical_compound, Insulin receptor substrate, Cyclic AMP, Cyclic AMP/metabolism, Monoubiquitination, Insulin-Like Growth Factor I, Phosphorylation, Zebrafish, Multidisciplinary, biology, Prostatic Neoplasms/genetics, Insulin Receptor Substrate Proteins/*metabolism, Cell biology, Ubiquitin ligase, Biological sciences, Insulin-Like Growth Factor I/*metabolism, Mitosis/*genetics, Ubiquitination, Ubiquitin-Protein Ligases, Mitosis, macromolecular substances, General Biochemistry, Genetics and Molecular Biology, Cell Line, Somatomedins, Zebrafish Proteins/genetics, Cell Line, Tumor, Animals, Humans, Endosomal Sorting Complexes Required for Transport/*genetics, Receptor, IGF Type 1/metabolism, Cell Proliferation, Endosomal Sorting Complexes Required for Transport, Cell growth, HEK 293 cells, Prostatic Neoplasms, Adaptor Proteins, Vesicular Transport/metabolism, Tyrosine phosphorylation, General Chemistry, Zebrafish Proteins, Rats, Adaptor Proteins, Vesicular Transport, HEK293 Cells, chemistry, biology.protein, Cancer research, Insulin Receptor Substrate Proteins
Abstract

UTokyo Research掲載「動物の成長や細胞の増殖の新しい調節機構を発見」 URI: http://www.u-tokyo.ac.jp/ja/utokyo-research/research-news/novel-regulatory-mechanisms-of-animal-growth-and-cell-proliferation.html, UTokyo Research "Novel regulatory mechanisms of animal growth and cell proliferation" URI: http://www.u-tokyo.ac.jp/en/utokyo-research/research-news/novel-regulatory-mechanisms-of-animal-growth-and-cell-proliferation.html

Published
2014

25. Resistin-like molecule β is abundantly expressed in foam cells and is involved in atherosclerosis development

Author

Kushiyama, A., Sakoda, H., Oue, N., Okubo, M., Nakatsu, Y., Ono, H., Fukushima, Toshiaki, Kamata, H., Nishimura, F., Kikuchi, T., Fujishiro, M., Nishiyama, K., Aburatani, H., Kushiyama, S., Iizuka, M., Taki, N., Encinas, J., Sentani, K., Ogonuki, N., Ogura, A., Kawazu, S., Yasui, W., Higashi, Y., Kurihara, H., Katagiri, H., and Asano, T.

Subjects
Male, Vasculitis, Foam Cells/immunology/*metabolism/pathology, Macrophages, Peritoneal/immunology/metabolism/pathology, Primary Cell Culture, Inflammation, Biology, Cell Line, Mice, Immune system, Apolipoproteins E, Homologous chromosome, medicine, Macrophage, Animals, Humans, Aorta, Mice, Knockout, Atherosclerosis/immunology/*metabolism/pathology, Vasculitis/immunology/metabolism/pathology, Fatty Acids, Antibodies, Monoclonal, Hormones, Ectopic/genetics/immunology/*metabolism, Aorta/immunology/metabolism/pathology, Intercellular Signaling Peptides and Proteins/immunology/*metabolism, Atherosclerosis, Antibodies, Monoclonal/pharmacology, Fatty Acids/pharmacology, Cell biology, CD11c Antigen, Antigens, CD11c/metabolism, Secretory protein, Immunology, Hormones, Ectopic, Macrophages, Peritoneal, Intercellular Signaling Peptides and Proteins, Resistin, Female, medicine.symptom, Cardiology and Cardiovascular Medicine, Apolipoproteins E/genetics, Foam Cells
Abstract

Objective— Resistin-like molecule (RELM) β is a secretory protein homologous to resistin and reportedly contributes to local immune response regulation in gut and bronchial epithelial cells. However, we found that activated macrophages also express RELMβ and thus investigated the role of RELMβ in the development of atherosclerosis. Approach and Results— It was demonstrated that foam cells in atherosclerotic lesions of the human coronary artery abundantly express RELMβ. RELMβ knockout ( −/− ) and wild-type mice were mated with apolipoprotein E–deficient background mice. RELMβ −/− apolipoprotein E–deficient mice exhibited less lipid accumulation in the aortic root and wall than RELMβ +/+ apolipoprotein E–deficient mice, without significant changes in serum lipid parameters. In vitro, RELMβ −/− primary cultured peritoneal macrophages (PCPMs) exhibited weaker lipopolysaccharide-induced nuclear factor-κB classical pathway activation and inflammatory cytokine secretion than RELMβ +/+ , whereas stimulation with RELMβ upregulated inflammatory cytokine expressions and increased expressions of many lipid transporters and scavenger receptors in PCPMs. Flow cytometric analysis revealed inflammatory stimulation–induced RELMβ in F4/80(+) CD11c(+) PCPMs. In contrast, the expressions of CD11c and tumor necrosis factor were lower in RELMβ −/− PCPMs, but both were restored by stimulation with recombinant RELMβ. Conclusions— RELMβ is abundantly expressed in foam cells within plaques and contributes to atherosclerosis development via lipid accumulation and inflammatory facilitation.

Published
2013

26. Peptidyl-prolyl cis/trans isomerase NIMA-interacting 1 associates with insulin receptor substrate-1 and enhances insulin actions and adipogenesis

Author

Nakatsu, Y., Sakoda, H., Kushiyama, A., Zhang, J., Ono, H., Fujishiro, M., Kikuchi, T., Fukushima, Toshiaki, Yoneda, M., Ohno, H., Horike, N., Kanna, M., Tsuchiya, Y., Kamata, H., Nishimura, F., Isobe, T., Ogihara, T., Katagiri, H., Oka, Y., Takahashi, S., Kurihara, H., Uchida, T., and Asano, T.

Subjects
medicine.medical_treatment, Mice, Obese, Insulin/*metabolism, Biochemistry, WW domain, Mice, Phosphatidylinositol 3-Kinases, Insulin receptor substrate, Glucose Intolerance, medicine, Animals, Humans, Insulin, Phosphorylation, Molecular Biology, Mice, Knockout, Insulin Receptor Substrate Proteins/genetics/*metabolism, Liver/*metabolism, Adipogenesis, biology, Peptidylprolyl Isomerase/genetics/*metabolism, Signal Transduction/physiology, Phosphorylation/physiology, Glucose Intolerance/genetics/metabolism, Cell Biology, Hep G2 Cells, Protein Binding/physiology, Peptidylprolyl Isomerase, Cell biology, IRS1, Protein Structure, Tertiary, Phosphatidylinositol 3-Kinases/genetics/metabolism, NIMA-Interacting Peptidylprolyl Isomerase, Insulin receptor, Metabolism, Liver, PIN1, biology.protein, Insulin Receptor Substrate Proteins, Proto-Oncogene Proteins c-akt/genetics/metabolism, Proto-Oncogene Proteins c-akt, Adipogenesis/*physiology, Protein Binding, Signal Transduction
Abstract

Peptidyl-prolyl cis/trans isomerase NIMA-interacting 1 (Pin1) is a unique enzyme that associates with the pSer/Thr-Pro motif and catalyzes cis-trans isomerization. We identified Pin1 in the immunoprecipitates of overexpressed IRS-1 with myc and FLAG tags in mouse livers and confirmed the association between IRS-1 and Pin1 by not only overexpression experiments but also endogenously in the mouse liver. The analysis using deletion- and point-mutated Pin1 and IRS-1 constructs revealed the WW domain located in the N terminus of Pin1 and Ser-434 in the SAIN (Shc and IRS-1 NPXY binding) domain of IRS-1 to be involved in their association. Subsequently, we investigated the role of Pin1 in IRS-1 mediation of insulin signaling. The overexpression of Pin1 in HepG2 cells markedly enhanced insulin-induced IRS-1 phosphorylation and its downstream events: phosphatidylinositol 3-kinase binding with IRS-1 and Akt phosphorylation. In contrast, the treatment of HepG2 cells with Pin1 siRNA or the Pin1 inhibitor Juglone suppressed these events. In good agreement with these in vitro data, Pin1 knock-out mice exhibited impaired insulin signaling with glucose intolerance, whereas adenoviral gene transfer of Pin1 into the ob/ob mouse liver mostly normalized insulin signaling and restored glucose tolerance. In addition, it was also demonstrated that Pin1 plays a critical role in adipose differentiation, making Pin1 knock-out mice resistant to diet-induced obesity. Importantly, Pin1 expression was shown to be up-regulated in accordance with nutrient conditions such as food intake or a high-fat diet. Taken together, these observations indicate that Pin1 binds to IRS-1 and thereby markedly enhances insulin action, essential for adipogenesis.

Published
2011

27. 4F2hc stabilizes GLUT1 protein and increases glucose transport activity

Author

Ohno, H., Nakatsu, Y., Sakoda, H., Kushiyama, A., Ono, H., Fujishiro, M., Otani, Y., Okubo, H., Yoneda, M., Fukushima, Toshiaki, Tsuchiya, Y., Kamata, H., Nishimura, F., Kurihara, H., Katagiri, H., Oka, Y., and Asano, T.

Subjects
Male, endocrine system, Snf3, Small interfering RNA, Fusion Regulatory Protein 1, Heavy Chain, Physiology, Glucose uptake, Cycloheximide, RNA, Small Interfering/pharmacology, chemistry.chemical_compound, Mice, Two-Hybrid System Techniques, Antigens, CD98 Heavy Chain/*metabolism, Animals, Humans, RNA, Small Interfering, chemistry.chemical_classification, Protein Synthesis Inhibitors, Glucose Transporter Type 1, biology, Glucose transporter, nutritional and metabolic diseases, Biological Transport, Glucose Transporter Type 1/*metabolism, Cell Biology, Amino acid, carbohydrates (lipids), Biological Transport/drug effects/physiology, HEK293 Cells, Protein Synthesis Inhibitors/pharmacology, chemistry, Biochemistry, biology.protein, GLUT1, Cycloheximide/pharmacology, hormones, hormone substitutes, and hormone antagonists, HeLa Cells
Abstract

Glucose transporter 1 (GLUT1) is widely distributed throughout various tissues and contributes to insulin-independent basal glucose uptake. Using a split-ubiquitin membrane yeast two-hybrid system, we newly identified 4F2 heavy chain (4F2hc) as a membrane protein interacting with GLUT1. Though 4F2hc reportedly forms heterodimeric complexes between amino acid transporters, such as LAT1 and LAT2, and regulates amino acid uptake, we investigated the effects of 4F2hc on GLUT1 expression and the associated glucose uptake. First, FLAG-tagged 4F2hc and hemagglutinin-tagged GLUT1 were overexpressed in human embryonic kidney 293 cells and their association was confirmed by coimmunoprecipitation. The green fluorescent protein-tagged 4F2hc and DsRed-tagged GLUT1 showed significant, but incomplete, colocalization at the plasma membrane. In addition, an endogenous association between GLUT1 and 4F2hc was demonstrated using mouse brain tissue and HeLa cells. Interestingly, overexpression of 4F2hc increased the amount of GLUT1 protein in HeLa and HepG2 cells with increased glucose uptake. In contrast, small interfering RNA (siRNA)-mediated 4F2hc gene suppression markedly reduced GLUT1 protein in both cell types, with reduced glucose uptake. While GLUT1 mRNA levels were not affected by overexpression or gene silencing of 4F2hc, GLUT1 degradation after the addition of cycloheximide was significantly suppressed by 4F2hc overexpression and increased by 4F2hc siRNA treatment. Taken together, these observations indicate that 4F2hc is likely to be involved in GLUT1 stabilization and to contribute to the regulation of not only amino acid but also glucose metabolism.

Published
2011

30. An XMCD-PEEM study on magnetized Dy-doped Nd-Fe-B permanent magnets

Author

Yamaguchi, R., primary, Terashima, K., additional, Fukumoto, K., additional, Takada, Y., additional, Kotsugi, M., additional, Miyata, Y., additional, Mima, K., additional, Komori, S., additional, Itoda, S., additional, Nakatsu, Y., additional, Yano, M., additional, Miyamoto, N., additional, Nakamura, T., additional, Kinoshita, T., additional, Watanabe, Y., additional, Manabe, A., additional, Suga, S., additional, and Imada, S., additional

Published
2011
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34. Do all nuclei recoil on photoemission in compounds?

Author

Suga, S, primary, Sekiyama, A, additional, Fujiwara, H, additional, Nakatsu, Y, additional, Miyamachi, T, additional, Imada, S, additional, Baltzer, P, additional, Niitaka, S, additional, Takagi, H, additional, Yoshimura, K, additional, Yabashi, M, additional, Tamasaku, K, additional, Higashiya, A, additional, and Ishikawa, T, additional

Published
2009
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36. XAB2, a novel tetratricopeptide repeat protein, involved in transcription-coupled repair and transcription.

Author

Nakatsu, Y. (Yoshimichi), Asahina, H. (Hiroshi), Citterio, E. (Elisabetta), Rademakers, S. (Suzanne), Vermeulen, W. (Wim), Kamiuchi, S. (Shinya), Ping, Y.J., Cheh, K.M., Saijo, M. (Masafumi), Kodo, N. (Naohiko), Matsuda, T. (Toshiro), Hoeijmakers, J.H.J. (Jan), Tanaka, K. (Kiyoji), Nakatsu, Y. (Yoshimichi), Asahina, H. (Hiroshi), Citterio, E. (Elisabetta), Rademakers, S. (Suzanne), Vermeulen, W. (Wim), Kamiuchi, S. (Shinya), Ping, Y.J., Cheh, K.M., Saijo, M. (Masafumi), Kodo, N. (Naohiko), Matsuda, T. (Toshiro), Hoeijmakers, J.H.J. (Jan), and Tanaka, K. (Kiyoji)

Abstract

Nucleotide excision repair is a highly versatile DNA repair system responsible for elimination of a wide variety of lesions from the genome. It is comprised of two subpathways: transcription-coupled repair that accomplishes efficient removal of damage blocking transcription and global genome repair. Recently, the basic mechanism of global genome repair has emerged from biochemical studies. However, little is known about transcription-coupled repair in eukaryotes. Here we report the identification of a novel protein designated XAB2 (XPA-binding protein 2) that was identified by virtue of its ability to interact with XPA, a factor central to both nucleotide excision repair subpathways. The XAB2 protein of 855 amino acids consists mainly of 15 tetratricopeptide repeats. In addition to interacting with XPA, immunoprecipitation experiments demonstrated that a fraction of XAB2 is able to interact with the transcription-coupled repair-specific proteins CSA and CSB as well as RNA polymerase II. Furthermore, antibodies against XAB2 inhibited both transcription-coupled repair and transcription in vivo but not global genome repair when microinjected into living fibroblasts. These results indicate that XAB2 is a novel component involved in transcription-coupled repair and transcription.

Published
2000
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37. XAB2, a novel tetratricopeptide repeat protein involved in transcription-coupled DNA repair and transcription

Author

Nakatsu, Y, Asahina, H, Citterio, E (Elisabetta), Rademakers, Suzanne, Vermeulen, Wim, Kamiuchi, S, Yeo, J-P, Khaw, M-C, Saijo, M, Kodo, N, Matsuda, T, Hoeijmakers, Jan, Tanaka, K, Nakatsu, Y, Asahina, H, Citterio, E (Elisabetta), Rademakers, Suzanne, Vermeulen, Wim, Kamiuchi, S, Yeo, J-P, Khaw, M-C, Saijo, M, Kodo, N, Matsuda, T, Hoeijmakers, Jan, and Tanaka, K

Published
2000

41. Enhancement of damage-specific DNA binding of XPA by interaction with the ERCC1 DNA repair protein

Author

Nagai, A., Saijo, M. (Masafumi), Kuraoka, I., Matsuda, T. (Toshiro), Kodo, N. (Naohiko), Nakatsu, Y. (Yoshimichi), Mimaki, T., Mino, M., Biggerstaff, M. (Maureen), Wood, R.D. (Richard), Sijbers, A.M. (Anneke), Hoeijmakers, J.H.J. (Jan), Tanaka, K. (Kiyoji), Nagai, A., Saijo, M. (Masafumi), Kuraoka, I., Matsuda, T. (Toshiro), Kodo, N. (Naohiko), Nakatsu, Y. (Yoshimichi), Mimaki, T., Mino, M., Biggerstaff, M. (Maureen), Wood, R.D. (Richard), Sijbers, A.M. (Anneke), Hoeijmakers, J.H.J. (Jan), and Tanaka, K. (Kiyoji)

Abstract

The human XPA and ERCC1 proteins, which are involved in early steps of nucleotide excision repair of DNA, specifically interacted in an in vitro binding assay and a yeast two-hybrid assay. A stretch of consecutive glutamic acid residues in XPA was needed for binding to ERCC1. Binding of XPA to damaged DNA was markedly increased by the interaction of the XPA and ERCC1 proteins. ERCC1 did not enhance binding to DNA when a truncated XPA protein, MF122, was used in place of the XPA protein. MF122 retains damaged DNA binding activity but lacks the region for protein-protein interaction including the E-cluster region. These results suggest that the XPA/ERCC1 interaction may participate in damage-recognition as well as in incision at the 5′ site of damage during nucleotide excision repair.

Published
1995
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42. BTKgene targeting by homologous recombination using a helper-dependent adenovirus/adeno-associated virus hybrid vector

Author

Yamamoto, H, Ishimura, M, Ochiai, M, Takada, H, Kusuhara, K, Nakatsu, Y, Tsuzuki, T, Mitani, K, and Hara, T

Abstract

X-linked agammaglobulinemia (XLA) is one of the most common humoral immunodeficiencies, which is caused by mutations in Bruton’s tyrosine kinase (BTK) gene. To examine the possibility of using gene therapy for XLA, we constructed a helper-dependent adenovirus/adeno-associated virus BTKtargeting vector (HD-Ad.AAV BTK vector) composed of a genomic sequence containing BTKexons 6–19 and a green fluorescence protein-hygromycin cassette driven by a cytomegalovirus promoter. We first used NALM-6, a human male pre-B acute lymphoblastic leukemia cell line, as a recipient to measure the efficiency of gene targeting by homologous recombination. We identified 10 clones with the homologous recombination of the BTKgene among 107 hygromycin-resistant stable clones isolated from two independent experiments. We next used cord blood CD34+cells as the recipient cells for the gene targeting. We isolated colonies grown in medium containing cytokines and hygromycin. We found that the targeting of the BTKgene occurred in four of the 755 hygromycin-resistant colonies. Importantly, the gene targeting was also observed in CD19+lymphoid progenitor cells that were differentiated from the homologous recombinant CD34+cells during growth in selection media. Our study shows the potential for the BTKgene therapy using the HD-Ad.AAV BTK vector via homologous recombination in hematopoietic stem cells.

Published
2016
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46. The γ-aminobutyric acid receptor γ3 subunit gene (GABRG3) is tightly linked to the α5 subunit gene (GABRA5) on human chromosome 15q11–q13 and is transcribed in the same orientation

Author

Greger, V., primary, Knoll, J.H.M., additional, Woolf, E., additional, Glatt, K., additional, Tyndale, R.F., additional, Delorey, T.M., additional, Olsen, R.W., additional, Tobin, A.J., additional, Sikela, J.M., additional, Nakatsu, Y., additional, Brilliant, M.H., additional, Whiting, P.J., additional, and Lalande, M., additional

Published
1995
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