医学部 内分泌・代謝・糖尿病内科学

上野 慎士

ウエノ シンジ  (ueno shinji)

基本情報

所属
藤田医科大学 医学部 内分泌・代謝・糖尿病内科学 助教
学位
学士(医学)

J-GLOBAL ID
201901011218043221
researchmap会員ID
7000029411

論文

 6
  • Shinji Ueno, Yusuke Seino, Shihomi Hidaka, Masashi Nakatani, Keisuke Hitachi, Naoya Murao, Yasuhiro Maeda, Haruki Fujisawa, Megumi Shibata, Takeshi Takayanagi, Katsumi Iizuka, Daisuke Yabe, Yoshihisa Sugimura, Kunihiro Tsuchida, Yoshitaka Hayashi, Atsushi Suzuki
    Journal of diabetes investigation 14(9) 1045-1055 2023年6月9日  
    AIMS/INTRODUCTION: Glucagon is secreted from pancreatic α-cells and plays an important role in amino acid metabolism in liver. Various animal models deficient in glucagon action show hyper-amino acidemia and α-cell hyperplasia, indicating that glucagon contributes to feedback regulation between the liver and the α-cells. In addition, both insulin and various amino acids, including branched-chain amino acids and alanine, participate in protein synthesis in skeletal muscle. However, the effect of hyperaminoacidemia on skeletal muscle has not been investigated. In the present study, we examined the effect of blockade of glucagon action on skeletal muscle using mice deficient in proglucagon-derived peptides (GCGKO mice). MATERIALS AND METHODS: Muscles isolated from GCGKO and control mice were analyzed for their morphology, gene expression and metabolites. RESULTS: GCGKO mice showed muscle fiber hypertrophy, and a decreased ratio of type IIA and an increased ratio of type IIB fibers in the tibialis anterior. The expression levels of myosin heavy chain (Myh) 7, 2, 1 and myoglobin messenger ribonucleic acid were significantly lower in GCGKO mice than those in control mice in the tibialis anterior. GCGKO mice showed a significantly higher concentration of arginine, asparagine, serine and threonine in the quadriceps femoris muscles, and also alanine, aspartic acid, cysteine, glutamine, glycine and lysine, as well as four amino acids in gastrocnemius muscles. CONCLUSIONS: These results show that hyperaminoacidemia induced by blockade of glucagon action in mice increases skeletal muscle weight and stimulates slow-to-fast transition in type II fibers of skeletal muscle, mimicking the phenotype of a high-protein diet.
  • Shinji Ueno, Yusuke Seino, Shihomi Hidaka, Ryuya Maekawa, Yuko Takano, Michiyo Yamamoto, Mika Hori, Kana Yokota, Atsushi Masuda, Tatsuhito Himeno, Shin Tsunekawa, Hideki Kamiya, Jiro Nakamura, Hitoshi Kuwata, Haruki Fujisawa, Megumi Shibata, Takeshi Takayanagi, Yoshihisa Sugimura, Daisuke Yabe, Yoshitaka Hayashi, Atsushi Suzuki
    Nutrients 14(5) 2022年2月25日  
    (1) Background: Protein stimulates the secretion of glucagon (GCG), which can affect glucose metabolism. This study aimed to analyze the metabolic effect of a high-protein diet (HPD) in the presence or absence of proglucagon-derived peptides, including GCG and GLP-1. (2) Methods: The response to HPD feeding for 7 days was analyzed in mice deficient in proglucagon-derived peptides (GCGKO). (3) Results: In both control and GCGKO mice, food intake and body weight decreased with HPD and intestinal expression of Pepck increased. HPD also decreased plasma FGF21 levels, regardless of the presence of proglucagon-derived peptides. In control mice, HPD increased the hepatic expression of enzymes involved in amino acid metabolism without the elevation of plasma amino acid levels, except branched-chain amino acids. On the other hand, HPD-induced changes in the hepatic gene expression were attenuated in GCGKO mice, resulting in marked hyperaminoacidemia with lower blood glucose levels; the plasma concentration of glutamine exceeded that of glucose in HPD-fed GCGKO mice. (4) Conclusions: Increased plasma amino acid levels are a common feature in animal models with blocked GCG activity, and our results underscore that GCG plays essential roles in the homeostasis of amino acid metabolism in response to altered protein intake.
  • Nagaaki Tanaka, Daisuke Yabe, Kenta Murotani, Yuko Yamaguchi, Yuki Fujita, Sodai Kubota, Rena Nakashima-Yasuda, Saki Kubota-Okamoto, Shinji Ueno, Yuji Yamazaki, Hitoshi Kuwata, Koin Watanabe, Takanori Hyo, Yoshiyuki Hamamoto, Takeshi Kurose, Hiroko Higashiyama, Yusuke Seino, Yuichiro Yamada, Yutaka Seino
    Journal of diabetes investigation 12(12) 2221-2231 2021年12月  
    AIMS/INTRODUCTION: This 6-month, single-center, prospective, open-labeled, randomized trial was designed to investigate whether physicians' diabetes self-management education using an education tool developed by the Japan Association of Diabetes Education and Care and a self-monitoring of blood glucose (SMBG) analyzer improves glycemic control in individuals with type 2 diabetes receiving insulin and SMBG. MATERIALS AND METHODS: Participants were randomized into intervention (I) and control (C) groups. Both groups received physicians' diabetes self-management education at each hospital visit, whereas the Japan Association of Diabetes Education and Care education tool and the SMBG readings analyzer was used in group I, but not group C. All participants filled out a diabetes treatment-related quality of life form and an original questionnaire on SMBG use with five questions (Q1-Q5) before and after the study period. RESULTS: A total of 76 individuals were recruited and randomized. Glycated hemoglobin (HbA1c) was significantly improved during the study period in group I, whereas no significant change was observed in group C. The change in HbA1c was greater in group I, although it did not reach statistical significance. The diabetes treatment-related quality of life total score was not changed in either group. Interestingly, the score of Q1 ("How important is SMBG to you?") in the SMBG questionnaire was unchanged in group I, whereas it was significantly decreased in group C. HbA1c change was independently associated with changes in insulin dose and SMBG Q1 score. CONCLUSION: Greater HbA1c-lowering by physicians' diabetes self-management education using the Japan Association of Diabetes Education and Care education tool and SMBG analyzer in individuals with type 2 diabetes receiving insulin and SMBG was suggested, but not confirmed.
  • Yusuke Seino, Shinji Ueno, Daisuke Yabe, Atsushi Suzuki
    Journal of diabetes investigation 10(6) 1405-1407 2019年11月  
    Dishes containing dietary fibers are eaten first, and the protein and fat courses are then followed by the carbohydrate dishes.
  • Mizuho Kondo-Ando, Yusuke Seino, Risa Morikawa, Kana Negi, Hidechika Todoroki, Tsukasa Kawakami, Yohei Asada, Ryo Yoshimoto, Chika Tanaka, Keiko Okamoto, Atsushi Masuda, Eisuke Tomatsu, Izumi Hiratsuka, Yasumasa Yoshino, Wakako Maki, Ayako Kakita, Megumi Shibata, Takeshi Takayanagi, Masaki Makino, Yoshihisa Sugimura, Shiho Asai, Akemi Ito, Shinji Ueno, Yuuka Fujiwara, Hitoshi Kuwata, Daisuke Yabe, Atsushi Suzuki
    Journal of diabetes and its complications 33(11) 107415-107415 2019年11月  
    AIMS: The aim of this study is to investigate the effects of a low-carbohydrate staple food (i.e., low-carbohydrate bread) on glucose and lipid metabolism and pancreatic and enteroendocrine hormone secretion in comparison with meals containing normal-carbohydrate bread, without consideration of the carbohydrate content of the side dishes. METHODS: T2DM patients (n = 41) were provided meals containing low-carbohydrate bread (LB) together with side dishes or normal-carbohydrate bread (NB) together with side dishes every other day as a breakfast. Blood glucose levels were evaluated by using a continuous glucose monitoring system; blood samples were collected before and 1 and 2 h after the breakfast. RESULTS: Postprandial blood glucose levels, plasma insulin, plasma glucose-dependent insulinotropic polypeptide (GIP) and plasma triglyceride were significantly lower and plasma glucagon levels were significantly higher in LB compared with those in NB. Plasma glucagon-like peptide-1 (GLP-1) levels did not differ in the LB and NB groups. CONCLUSIONS: These results indicate that changing only the carbohydrate content of the staple food has benefits on glucose and lipid metabolism in T2DM patients concomitant with the decrease of insulin and GIP secretion, which ameliorate body weight gain and insulin resistance.

MISC

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