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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

111In-labeled Nimotuzumab Modified with Nuclear Localization Sequences (NLS): An Auger Electron-emitting Radiotherapeutic Agent for EGFR-overexpressing and Trastuzumab-resistant Breast Cancer

Fasih, Aisha 24 August 2011 (has links)
Objective: The cytotoxic property of anti-EGFR-1 monoclonal-antibody nimotuzumab modified with nuclear localization sequence and radiolabeled with 111In was evaluated in trastuzumab-resistant breast cancer cells. Methods: 111In-nimotuzumab-NLS was constructed and its immunoreactivity was determined. Cellular and nuclear uptake was evaluated by cell fractionation. Finally, the cytotoxicity of conjugates (111In-nimotuzumab/111In-nimotuzumab-NLS) was studied by clonogenic assays. Results: The immunoreactivity of 111In-nimotuzumab-NLS was conserved. 111In-nimotuzumab-NLS exhibited 2-fold higher nuclear translocation as compared to 111In-nimotuzumab in MDA-MB-468 cells. Nuclear importation of 111In-nimotuzumab-NLS in MDA-MB-468 cells was 4-fold and 6-fold higher than moderate and low EGFR expressing cell lines, respectively. Clonogenic survival (CS) for MDA-MB-468 cells showed 111In-nimotuzumab-NLS to be 10-folds and 60-folds more potent than 111In-nimotuzumab and nimotuzumab, respectively. Moderate killing for TrR1 and MDA-MB-231 was observed. 111In-hEGF showed significantly higher cytotoxicity and 2-fold higher γ-H2AX foci integrated density/nuclear-area as compared to 111In-nimotuzumab-NLS. Preserved selectivity of 111In-nimotuzumab-NLS makes it an excellent drug for treating cancers.
2

111In-labeled Nimotuzumab Modified with Nuclear Localization Sequences (NLS): An Auger Electron-emitting Radiotherapeutic Agent for EGFR-overexpressing and Trastuzumab-resistant Breast Cancer

Fasih, Aisha 24 August 2011 (has links)
Objective: The cytotoxic property of anti-EGFR-1 monoclonal-antibody nimotuzumab modified with nuclear localization sequence and radiolabeled with 111In was evaluated in trastuzumab-resistant breast cancer cells. Methods: 111In-nimotuzumab-NLS was constructed and its immunoreactivity was determined. Cellular and nuclear uptake was evaluated by cell fractionation. Finally, the cytotoxicity of conjugates (111In-nimotuzumab/111In-nimotuzumab-NLS) was studied by clonogenic assays. Results: The immunoreactivity of 111In-nimotuzumab-NLS was conserved. 111In-nimotuzumab-NLS exhibited 2-fold higher nuclear translocation as compared to 111In-nimotuzumab in MDA-MB-468 cells. Nuclear importation of 111In-nimotuzumab-NLS in MDA-MB-468 cells was 4-fold and 6-fold higher than moderate and low EGFR expressing cell lines, respectively. Clonogenic survival (CS) for MDA-MB-468 cells showed 111In-nimotuzumab-NLS to be 10-folds and 60-folds more potent than 111In-nimotuzumab and nimotuzumab, respectively. Moderate killing for TrR1 and MDA-MB-231 was observed. 111In-hEGF showed significantly higher cytotoxicity and 2-fold higher γ-H2AX foci integrated density/nuclear-area as compared to 111In-nimotuzumab-NLS. Preserved selectivity of 111In-nimotuzumab-NLS makes it an excellent drug for treating cancers.

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