Glucose is preferentially utilized for biomass synthesis in pressure-overloaded hearts: evidence from fatty acid-binding protein-4 and-5 knockoutmice

Umbarawan Yogi; Syamsunarno Mas Rizky A. A.; Koitabashi Norimichi; Yamaguchi Aiko; Hanaoka Hirofumi; Hishiki Takako; Nagahata-Naito Yoshiko; Obinata Hideru; Sano Motoaki; Sunaga Hiroaki; Matsui Hiroki; Tsushima Yoshito; Suematsu Makoto; Kurabayashi Masahiko; Iso Tatsuya

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Glucose is preferentially utilized for biomass synthesis in pressure-overloaded hearts: evidence from fatty acid-binding protein-4 and-5 knockoutmice

机译：葡萄糖优先用于压力过载的心脏中的生物质合成：来自脂肪酸结合蛋白-4和-5敲除的证据

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Aims The metabolism of the failing heart is characterized by an increase in glucose uptake with reduced fatty acid (FA) oxidation. We previously found that the genetic deletion of FA-binding protein-4 and -5 [double knockout (DKO)] induces an increased myocardial reliance on glucose with decreased FA uptake in mice. However, whether this fuel switch confers functional benefit during the hypertrophic response remains open to debate. To address this question, we investigated the contractile function and metabolic profile of DKO hearts subjected to pressure overload.

机译：目的是失败的心脏代谢的特征在于葡萄糖摄取的增加，脂肪酸（Fa）氧化。我们以前发现FA结合蛋白-4和-5 [双敲除（DKO）]的遗传缺失诱导对小鼠的降低的FA吸收增加了对葡萄糖的心肌依赖性增加。但是，在肥大反应期间，这种燃料开关是否涉及功能益处仍然是对辩论开放的。为了解决这个问题，我们调查了对压力过载的DKO心脏的收缩功能和代谢概况。

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来源
《Cardiovascular Research》 |2018年第8期|共13页
作者
Umbarawan Yogi; Syamsunarno Mas Rizky A. A.; Koitabashi Norimichi; Yamaguchi Aiko; Hanaoka Hirofumi; Hishiki Takako; Nagahata-Naito Yoshiko; Obinata Hideru; Sano Motoaki; Sunaga Hiroaki; Matsui Hiroki; Tsushima Yoshito; Suematsu Makoto; Kurabayashi Masahiko; Iso Tatsuya;
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作者单位

Gunma Univ Grad Sch Med Dept Cardiovasc Med 3-39-22 Showa Machi Maebashi Gumma 3718511 Japan;

Gunma Univ Grad Sch Med Dept Cardiovasc Med 3-39-22 Showa Machi Maebashi Gumma 3718511 Japan;

Gunma Univ Grad Sch Med Dept Cardiovasc Med 3-39-22 Showa Machi Maebashi Gumma 3718511 Japan;

Gunma Univ Grad Sch Med Dept Bioimaging Informat Anal Maebashi Gumma 3718511 Japan;

Gunma Univ Grad Sch Med Dept Bioimaging Informat Anal Maebashi Gumma 3718511 Japan;

Keio Univ Sch Med Dept Biochem Shinjuku Ku Tokyo 1608582 Japan;

Keio Univ Sch Med Clin &

Translat Res Ctr Shinjuku Ku Tokyo 1608582 Japan;

Gunma Univ Initiat Adv Res GIAR Maebashi Gumma 3718511 Japan;

Keio Univ Dept Cardiol Sch Med Shinjuku Ku Tokyo 1608582 Japan;

Gunma Univ Grad Sch Med Dept Cardiovasc Med 3-39-22 Showa Machi Maebashi Gumma 3718511 Japan;

Gunma Univ Grad Sch Hlth Sci Dept Lab Sci Maebashi Gumma 3718511 Japan;

Gunma Univ Grad Sch Med Dept Diagnost Radiol &

Nucl Med Maebashi Gumma 3718511 Japan;

Keio Univ Sch Med Dept Biochem Shinjuku Ku Tokyo 1608582 Japan;

Gunma Univ Grad Sch Med Dept Cardiovasc Med 3-39-22 Showa Machi Maebashi Gumma 3718511 Japan;

Gunma Univ Grad Sch Med Dept Cardiovasc Med 3-39-22 Showa Machi Maebashi Gumma 3718511 Japan;

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原文格式 PDF
正文语种 eng
中图分类心脏、血管（循环系）疾病;
关键词
Energy metabolism; Heart failure; Cardiac hypertrophy; Glucose; Fatty acid;

机译：能量新陈代谢;心力衰竭;心脏肥大;葡萄糖;脂肪酸;

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专利

1. Glucose is preferentially utilized for biomass synthesis in pressure-overloaded hearts: evidence from fatty acid-binding protein-4 and-5 knockoutmice [J] . Umbarawan Yogi, Syamsunarno Mas Rizky A. A., Koitabashi Norimichi, Cardiovascular Research . 2018,第8期

机译：葡萄糖优先用于压力过载的心脏中的生物质合成：来自脂肪酸结合蛋白-4和-5敲除的证据
2. Development of a sandwich enzyme-linked immunosorbent assay for the determination of human heart type fatty acid-binding protein in plasma and urine by using two different monoclonal antibodies specific for human heart fatty acid-binding protein. [J] . Ohkaru Y, Asayama K, Ishii H, Journal of Immunological Methods . 1995,第1期

机译：通过使用两种对人心脏脂肪酸结合蛋白具有特异性的单克隆抗体，开发了一种夹心酶联免疫吸附测定法，用于测定血浆和尿液中的人心脏型脂肪酸结合蛋白。
3. Prognostic utility of heart-type fatty acid-binding protein in patients with stable coronary artery disease and impaired glucose metabolism: a cohort study [J] . Hui-Wen Zhang, Jing-Lu Jin, Ye-Xuan Cao, Cardiovascular Diabetology . 2020,第1期

机译：稳定冠状动脉疾病患者心脏型脂肪酸结合蛋白的预后效用，葡萄糖新陈代谢受损：群组研究
4. Molecular Cloning and Tissue-specific Expression of the Heart-type Fatty Acid-Binding Protein (H-FABP) Gene in Tianfu Goat [C] . Chengli Zheng, Gangyi Xu, Daihua Wang International Conference on Materials for Environmental Protection and Energy Application . 2012

机译：天福山羊心型脂肪酸结合蛋白（H-FABP）基因的分子克隆和组织特异性表达
5. Synthetic 3-O-methyl-D-mannose polysaccharides (sMMP) and 6-O-methyl-D-glucose polysaccharides (sMGP): Design, synthesis, complex formation with fatty acids, and effects on fatty acid biosynthesis. [D] . Cheon, Hwan-Sung. 2006

机译：合成的3-O-甲基-D-甘露糖多糖（sMMP）和6-O-甲基-D-甘露糖多糖（sMGP）：设计，合成，与脂肪酸的复合物形成以及对脂肪酸生物合成的影响。
6. Glucose is preferentially utilized for biomass synthesis in pressure-overloaded hearts: evidence from fatty acid-binding protein-4 and -5 knockout mice [O] . Yogi Umbarawan, Mas Rizky A A Syamsunarno, Norimichi Koitabashi, -1

机译：葡萄糖优先用于压力超负荷的心脏中的生物量合成：脂肪酸结合蛋白4和-5敲除小鼠的证据
7. Glucose is preferentially utilized for biomass synthesis in pressure-overloaded hearts: evidence from fatty acid-binding protein-4 and -5 knockout mice [O] . Yogi Umbarawan, Mas Rizky A A Syamsunarno, Norimichi Koitabashi, 2018

机译：葡萄糖优先用于压力过载心中的生物质合成：来自脂肪酸结合蛋白-4和-5敲除小鼠的证据

Glucose is preferentially utilized for biomass synthesis in pressure-overloaded hearts: evidence from fatty acid-binding protein-4 and-5 knockoutmice

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