| Literature DB >> 20869411 |
Kai Wang1, Sangeetha Purushotham, Ji-Young Lee, Moon-Hee Na, Hyekyung Park, Sun-Jeong Oh, Rang-Woon Park, Jae Yong Park, Eungbae Lee, Byung Chae Cho, Mi-Na Song, Moon-Chang Baek, Wonjung Kwak, Jeongsoo Yoo, Allan S Hoffman, Yu-Kyoung Oh, In-San Kim, Byung-Heon Lee.
Abstract
In vivo imaging of apoptosis could allow monitoring of tumor response to cancer treatments such as chemotherapy. Using phage display, we identified the CQRPPR peptide, named ApoPep-1(Apoptosis-targeting Peptide-1), that was able to home to apoptotic and necrotic cells in tumor tissue. ApoPep-1 also bound to apoptotic and necrotic cells in culture, while only little binding to live cells was observed. Its binding to apoptotic cells was not dependent on calcium ion and not competed by annexin V. The receptor for ApoPep-1 was identified to be histone H1 that was exposed on the surface of apoptotic cells. In necrotic cells, ApoPep-1 entered the cells and bound to histone H1 in the nucleus. The imaging signals produced during monitoring of tumor apoptosis in response to chemotherapy was enhanced by the homing of a fluorescent dye- or radioisotope-labeled ApoPep-1 to tumor treated with anti-cancer drugs, whereas its uptake of the liver and lung was minimal. These results suggest that ApoPep-1 holds great promise as a probe for in vivo imaging of apoptosis, while histone H1 is a unique molecular signature for this purpose.Entities:
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Year: 2010 PMID: 20869411 DOI: 10.1016/j.jconrel.2010.09.010
Source DB: PubMed Journal: J Control Release ISSN: 0168-3659 Impact factor: 9.776