ID | 111600 |
タイトル別表記 | ナトリウム依存性リン酸トランスポーターとニコチンアミドホスホリボシルトランスフェラーゼは血漿無機リン酸濃度の日内変動に関与する
Liver-kidney axis and plasma Pi rhythm
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著者 |
宮川, 淳美
徳島大学大学院栄養生命科学教育部(人間栄養科学専攻)
Takahama, Wako
Tokushima University
Fujii, Osamu
Tokushima University
Nagamoto, Kenta
Tokushima University
Kinoshita, Emi
Tokushima University
Nomura, Kengo
Tokushima University
Ikuta, Kayo
Tokushima University
Fujii, Toru
Tokushima University
Hanazaki, Ai
Tokushima University
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キーワード | daily oscillation
phosphate
NAD
Nampt
Npt2a
Npt2c
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資料タイプ |
学位論文
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抄録 | Circulating inorganic phosphate exhibits a remarkable daily oscillation based on food intake. In humans and rodents, the daily oscillation in response to food intake may be coordinated to control the intestinal absorption, renal excretion, cellular shifts, and extracellular concentration of inorganic phosphate. However, mechanisms regulating the resulting oscillation are unknown. Here we investigated the roles of the sodium phosphate cotransporter SLC34 (Npt2) family and nicotinamide phosphoribosyltransferase (Nampt) in the daily oscillation of plasma inorganic phosphate levels. First, it is roughly linked to urinary inorganic phosphate excretion. Second, expression of renal Npt2a and Npt2c, and intestinal Npt2b proteins also exhibit a dynamic daily oscillation. Analyses of Npt2a, Npt2b, and Npt2c knockout mice revealed the importance of renal inorganic phosphate reabsorption and cellular inorganic phosphate shifts in the daily oscillation. Third, experiments in which nicotinamide and a specific Nampt inhibitor (FK866) were administered in the active and rest phases revealed that the Nampt/NAD+ system is involved in renal inorganic phosphate excretion. Additionally, for cellular shifts, liver-specific Nampt deletion disturbed the daily oscillation of plasma phosphate during the rest but not the active phase. In systemic Nampt+/- mice, NAD levels were significantly reduced in the liver, kidney, and intestine, and the daily oscillation (active and rest phases) of the plasma phosphate concentration was attenuated. Thus, the Nampt/ NAD+ system for Npt2 regulation and cellular shifts to tissues such as the liver play an important role in generating daily oscillation of plasma inorganic phosphate levels.
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掲載誌名 |
Kidney International
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ISSN | 00852538
15231755
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cat書誌ID | AA00710996
AA11629608
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出版者 | Elsevier|International Society of Nephrology
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巻 | 93
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号 | 5
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開始ページ | 1073
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終了ページ | 1085
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発行日 | 2018-02-15
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備考 | 内容要旨・審査要旨・論文本文の公開
本論文は, 著者Atsumi Miyagawaの学位論文として提出され, 学位審査・授与の対象となっている。 著者の申請により要約(2018-05-17公開)に替えて論文全文を公開(2018-08-06) |
EDB ID | |
出版社版DOI | |
出版社版URL | |
フルテキストファイル | |
言語 |
eng
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著者版フラグ |
博士論文全文を含む
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文科省報告番号 | 甲第3138号
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学位記番号 | 甲栄第247号
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学位授与年月日 | 2018-02-22
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学位名 |
博士(栄養学)
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学位授与機関 |
徳島大学
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部局 |
医学系
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