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Many drugs are effective in the early stage of treatment, but patients develop drug resistance after a certain period of treatment, causing failure of the therapy. An important example is Herceptin, a popular monoclonal antibody drug for breast cancer by

Many drugs are effective in the early stage of treatment, but patients develop drug resistance after a certain period of treatment, causing failure of the therapy. An important example is Herceptin, a popular monoclonal antibody drug for breast cancer by specifically targeting human epidermal growth factor receptor 2 (Her2). Here we demonstrate a quantitative binding kinetics analysis of drug-target interactions to investigate the molecular scale origin of drug resistance. Using a surface plasmon resonance imaging, we measured the in situ Herceptin-Her2 binding kinetics in single intact cancer cells for the first time, and observed significantly weakened Herceptin-Her2 interactions in Herceptin-resistant cells, compared to those in Herceptin-sensitive cells. We further showed that the steric hindrance of Mucin-4, a membrane protein, was responsible for the altered drug-receptor binding. This effect of a third molecule on drug-receptor interactions cannot be studied using traditional purified protein methods, demonstrating the importance of the present intact cell-based binding kinetics analysis.

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    Title
    • In Situ Drug-Receptor Binding Kinetics in Single Cells: A Quantitative Label-Free Study of Anti-Tumor Drug Resistance
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    Date Created
    2014-10-14
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    • Digital object identifier: 10.1038/srep06609
    • Identifier Type
      International standard serial number
      Identifier Value
      2045-2322
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    • The final version of this article, as published in Scientific Reports, can be viewed online at: http://www.nature.com/articles/srep06609

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    Wang, W., Yin, L., Gonzalez-Malerva, L., Wang, S., Yu, X., Eaton, S., . . . Tao, N. (2014). In situ drug-receptor binding kinetics in single cells: a quantitative label-free study of anti-tumor drug resistance. Scientific Reports, 4(1). doi:10.1038/srep06609

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