| Abstract: |
Epidermal growth factor receptor (EGFR) has attracted considerable attention as a target for cancer therapy. Wild-type (wt)EGFR is amplified/overexpressed in a number of tumor types, and several mutant forms of the coding gene have been found, with ΔEGFR, a deletion mutation lacking exons 2-7 of the external domain, being the most common and particularly associated with glioblastoma. We generated monoclonal antibodies (mAbs) against NR6ΔEGFR (mouse fibroblast line NR6 transfected with ΔEGFR). mAb 806 with selective reactivity for NR6ΔEGFR in mixed hemadsorption assays, fluorescence-activated cell sorting, Western blot, and immunohistochemistry was analyzed in detail and compared with mAbs 528 (anti-wtEGFR) and DH8.3 (anti-ΔEGFR). In xenograft tumors and molecularly pretyped glioblastomas, the reactivity pattern was as follows: 528 reactive with amplified and nonamplified wtEGFR; DH8.3 reactive with ΔEGFR; and 806 reactive with amplified/overexpressed wtEGFR (with or without ΔEGFR). In normal tissues, 528 but not DH8.3 or 806 was widely reactive with many organs, e.g., liver expressing high EGFR levels. In glioblastoma and non-CNS tumor panels, 806 was reactive with a high proportion of glioblastomas and a substantial number of epithelial cancers of lung and of head and neck. DH8.3 reactivity was restricted to ΔEGFR-positive glioblastoma. Thus, 806 represents a category of mAbs that recognizes tumors with EGFR amplification/overexpression but not normal tissues or tumors with normal EGFR levels. Our study also indicates that ΔEGFR is restricted to glioblastoma, in contrast to other reports that this mutation is found in tumors outside the brain. |
| Keywords: |
immunohistochemistry; controlled study; human cell; exon; nonhuman; cancer diagnosis; neoplasms; animal cell; phenotype; animals; mice; gene overexpression; gene amplification; epidermal growth factor receptor; receptor, epidermal growth factor; tumor cells, cultured; mice, inbred balb c; animalia; monoclonal antibody; antibodies, monoclonal; genetic transfection; glioblastoma; western blotting; transplantation, heterologous; neoplasm transplantation; fluorescence activated cell sorting; genetic code; deletion mutant; humans; human; priority journal; article; hemadsorption
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