Short Polymers of Arginine Rapidly Translocate Into Vascular Cells : Effects on Nitric Oxide Synthesis
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概要
- 論文の詳細を見る
The present study was designed to determine the efficiency of translocation of short polymers of arginine into vascular smooth muscle cells (VSMC) and to determine their effect on nitric oxide (NO) synthesis. Immunostaining revealed that heptamers of L-arginine (R7) rapidly translocated into the VSMC. This rapid transport was not observed with shorter polymers of L-arginine (R5) nor heptamers of lysine (K7). Translocation of R7 was not inhibited by the addition of free L-arginine into the media. When cells were transiently pretreated with R7 or a nonamer of arginine (R9), NO_2 production from cytokine stimulated VSMC was significantly increased, whereas incubation with R5 and K7 had no effect. Short polymers of arginine not only have a unique ability of rapid VSMC translocation but once internalized enhance NO production. Heptamers (or larger polypeptides) of arginine may be useful in therapy to enhance NO production in the vascular system.
- 社団法人日本循環器学会の論文
- 2002-11-20
著者
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Uemura Shiro
Department Of Cardiovascular Medicine Nara Medical University
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Uemura Shiro
Department Of Medicine Stanford University School Of Medicine
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Cooke John
Department Of Medicine Stanford University School Of Medicine
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Matsushita Hidetsugu
Department of Geriatric Medicine, Osaka University
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Rothbard Jonathan
CellGate Inc
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Tsao Philip
Department of Medicine, Stanford University School of Medicine
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Fathman C.
Department of Medicine, Stanford University School of Medicine
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Fathman C.
Department Of Medicine Stanford University School Of Medicine
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Fathman C.
Department Of Medicine Division Of Immunology And Rheumatology Stanford University School Of Medicin
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Tsao Philip
Department Of Medicine Stanford University School Of Medicine
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Matsushita Hidetsugu
Department Of Geriatric Medicine Osaka University
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Matsushita Hidetsugu
Department Of Medicine Stanford University School Of Medicine
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