Novel protein transduction method by using 11R: an effective new drug delivery system for the treatment of cerebrovascular diseases.

Abstract	BACKGROUND AND PURPOSE: A motif of 11 consecutive arginines (11R) is reported to be one of the most effective protein transduction domains for introducing proteins into the cell membrane. We therefore examined the transduction efficiency of 11R in cerebral arteries. METHODS: Basilar arteries (BAs) obtained from rats were incubated with either 11R-enhanced green fluorescent protein (11R-EGFP) or EGFP without 11R. After incubation, expression of 11R-EGFP or EGFP in BA serial sections was observed by fluorescence microscope. In an additional in vivo experiment, 11R-EGFP or EGFP was injected into the cisterna magna with or without subarachnoid hemorrhage. The 11R-EGFP or EGFP was injected just after the autologous blood injection, and then the expression of 11R-EGFP or EGFP in BA sections was also observed by fluorescence microscope. RESULTS: The 11R-EGFP signal was much stronger than that of EGFP in all layers of the rat BA, in both in vivo and ex vivo experiments. Moreover, the 11R-EGFP was transduced into the BA immediately (2 hours after the injection). Interestingly, 11R-fused fluorescent protein was transduced especially into the tunica media of the BA. CONCLUSIONS: The 11R-fused fluorescent protein effectively penetrates into all layers of the rat BA, especially into the tunica media. This is the first study to our knowledge to demonstrate the successful transduction of a protein transduction domain fused protein into the cerebral arteries.
Authors	Tomoyuki Ogawa, Shigeki Ono, Tomotsugu Ichikawa, Seiji Arimitsu, Keisuke Onoda, Koji Tokunaga, Kenji Sugiu, Kazuhito Tomizawa, Hideki Matsui, Isao Date
Journal	Stroke (Stroke) Vol. 38 Issue 4 Pg. 1354-61 (Apr 2007) ISSN: 1524-4628 [Electronic] United States
PMID	17332457 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
Chemical References	Peptide Fragments enhanced green fluorescent protein Green Fluorescent Proteins Arginine
Topics	Animals Arginine (pharmacokinetics, therapeutic use) Basilar Artery (drug effects, metabolism) Drug Delivery Systems (methods) Green Fluorescent Proteins (pharmacokinetics) Male Microscopy, Fluorescence Peptide Fragments (chemistry, pharmacokinetics, therapeutic use) Protein Structure, Tertiary (physiology) Protein Transport (drug effects, physiology) Rats Rats, Sprague-Dawley Subarachnoid Space (drug effects, metabolism)

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