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APOPTOSIS SERVED ON AN ORIGAMI PLATE
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<h1>APOPTOSIS SERVED ON AN ORIGAMI PLATE</h1>
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===Abstract===
===Abstract===
 
<html><div style="float: left; width: 50%"></html>
Our team, Nano Creators, have developed a DNA origami based nano drug that is designed to induce apoptosis in metastasizing cancer cells. Two origamis, a double-layered plate and a single-layered hemisphere, are connected through peptides containing a cleavage site for matrix metalloprotease 2, which is overexpressed by some actively metastasizing cancer cells. Thus, the structure will be opened within close proximity of the target cells and reveal its content. Two approaches have been developed. One with cholesterol conjugated to the plate enabling attachment to the cell membrane and facilitating the induction of apoptosis by photosensitizers, which produce singlet oxygen when irradiated by UV light. Another with cell penetrating peptides (CPPs) conjugated to small internally segmented interfering RNAs (sisiRNAs) linked to the plate through the cleavable peptide. Upon cleavage, the CPPs will transport the sisiRNAs into the cell where it induces apoptosis by selective gene knockdown through RNAi.
Our team, Nano Creators, have developed a DNA origami
 
based nano drug that is designed to induce apoptosis in metastasizing
cancer cells. Two origamis, a double-layered plate and a single-layered
hemisphere, are connected through peptides containing a cleavage site
for matrix metalloprotease 2, which is overexpressed by some actively
metastasizing cancer cells. Thus, the structure will be opened within
close proximity of the target cells and reveal its content. Two
approaches have been developed. One with cholesterol conjugated to the
plate enabling attachment to the cell membrane and facilitating the
induction of apoptosis by photosensitizers, which produce singlet oxygen
when irradiated by UV light. Another with cell penetrating peptides
(CPPs) conjugated to small internally segmented interfering RNAs
(sisiRNAs) linked to the plate through the cleavable peptide. Upon
cleavage, the CPPs will transport the sisiRNAs into the cell where it
induces apoptosis by selective gene knockdown through RNAi.
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Revision as of 11:23, 25 October 2013


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Abstract

<html><div style="float: left; width: 50%"></html> Our team, Nano Creators, have developed a DNA origami based nano drug that is designed to induce apoptosis in metastasizing cancer cells. Two origamis, a double-layered plate and a single-layered hemisphere, are connected through peptides containing a cleavage site for matrix metalloprotease 2, which is overexpressed by some actively metastasizing cancer cells. Thus, the structure will be opened within close proximity of the target cells and reveal its content. Two approaches have been developed. One with cholesterol conjugated to the plate enabling attachment to the cell membrane and facilitating the induction of apoptosis by photosensitizers, which produce singlet oxygen when irradiated by UV light. Another with cell penetrating peptides (CPPs) conjugated to small internally segmented interfering RNAs (sisiRNAs) linked to the plate through the cleavable peptide. Upon cleavage, the CPPs will transport the sisiRNAs into the cell where it induces apoptosis by selective gene knockdown through RNAi. <html></div></html> <html> <div style="float:right"> <iframe width="420" height="315" src="//www.youtube.com/embed/LqLGu1R6ycg" frameborder="0" allowfullscreen></iframe> </div> </html>


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</style> </head> <body> <div id="indexing"> <div id="sitemap"> <p id="sitemapTitle">SITEMAP | BIOMOD 2013 NANO CREATORS | Aarhus University</p> <div id="footer-contents"> <div class="footer-section"> <p class="footer-section-title">INTRODUCTION</p> <ul> <li><a href="/wiki/Biomod/2013/Aarhus">Home, abstract, animation and video</a></li> <li><a href="/wiki/Biomod/2013/Aarhus/Introduction">Introduction</a></li </ul> </div> <div class="footer-section"> <p class="footer-section-title">RESULTS AND DISCUSSION</p> <ul> <li><a href="/wiki/Biomod/2013/Aarhus/Results_And_Discussion/Origami">Origami</a></li> <li><a href="/wiki/Biomod/2013/Aarhus/Results_And_Discussion/Peptide_lock">Peptide lock</a></li> <li><a href="/wiki/Biomod/2013/Aarhus/Results_And_Discussion/Chemical_Modification">Chemical modification</a></li> <li><a href="/wiki/Biomod/2013/Aarhus/Results_And_Discussion/sisiRNA">sisiRNA</a></li> <li><a href="/wiki/Biomod/2013/Aarhus/Results_And_Discussion/System_In_Action">System in action</a></li> </ul> </div> <div class="footer-section"> <p class="footer-section-title">MATERIALS AND METHODS</p> <ul> <li><a href="/wiki/Biomod/2013/Aarhus/Materials_And_Methods/Origami">Origami</a></li> <li><a href="/wiki/Biomod/2013/Aarhus/Materials_And_Methods/Peptide_lock">Peptide lock</a></li> <li><a href="/wiki/Biomod/2013/Aarhus/Materials_And_Methods/Chemical_Modification">Chemical modification</a></li> <li><a href="/wiki/Biomod/2013/Aarhus/Materials_And_Methods/sisiRNA">sisiRNA</a></li> <li><a href="/wiki/Biomod/2013/Aarhus/Materials_And_Methods/System_In_Action">System in action</a></li> <li><a href="/wiki/Biomod/2013/Aarhus/Materials_And_Methods/Methods">Methods</a></li> </ul> </div> <div class="footer-section"> <p class="footer-section-title">SUPPLEMENTARY</p> <ul> <li><a href="/wiki/Biomod/2013/Aarhus/Supplementary/Team_And_Acknowledgments">Team and acknowledgments</a></li> <li><a href="/wiki/Biomod/2013/Aarhus/Supplementary/Optimizations">Optimizations</a></li> <li><a href="/wiki/Biomod/2013/Aarhus/Supplementary/Supplementary_Data">Supplementary data</a></li>

                                               <li><a

href="/wiki/Biomod/2013/Aarhus/Supplementary/Supplementary_Informations">Supplementary informations</a> <li><a href="/wiki/Biomod/2013/Aarhus/Supplementary/References">References</a></li> </ul> </div> </div> <div> <p id="copyright">Copyright (C) 2013 | BIOMOD Team Nano Creators @ Aarhus University | Programming by: <a href="mailto:pvskaarup@gmail.com?Subject=BIOMOD 2013:">Peter Vium Skaarup</a>.</p> </div> </div>

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