Abstract
ABSTRACTConditional ablation of defined cell populations in vivo can be achieved using genetically engineered mice in which the human diphtheria toxin (DT) receptor (DTR) is placed under control of a murine tissue-specific promotor, such that delivery of DT selectively ablates cells expressing this high-affinity human DTR; cells expressing only the endogenous low-affinity mouse DTR are assumed to be unaffected. Surprisingly, we found that systemic administration of DT induced rapid regression of murine lung adenocarcinomas that express human mutant EGFR in the absence of a transgenic allele containing human DTR. DT enzymatic activity was required for tumor regression, and mutant EGFR-expressing tumor cells were the primary target of DT toxicity. In FVB mice, EGFR-mutant tumors upregulated expression of HBEGF, which is the DTR in mice and humans. HBEGF blockade with the enzymatically inactive DT mutant CRM197 partially abrogated tumor regression induced by DT. These results suggest that elevated expression of murine HBEGF, i.e. the low-affinity DTR, confers sensitivity to DT in EGFR-mutant tumors, demonstrating a biological effect of DT in mice lacking transgenic DTR alleles and highlighting a unique vulnerability of EGFR-mutant lung cancers.
Highlights
Conditional ablation of defined cell populations in vivo is an essential strategy to probe cell function
We found that systemic diphtheria toxin (DT) administration induced rapid regression of murine EGFR-mutant lung adenocarcinomas in the absence of a transgenic allele containing human DT receptor (DTR)
DT enzymatic activity was required for tumor regression, and EGFR-mutant tumor cells were the primary targets of DT toxicity
Summary
Conditional ablation of defined cell populations in vivo is an essential strategy to probe cell function. Cells can be efficiently ablated using diphtheria toxin (DT), an exotoxin secreted by Corynebacterium diphtheriae (Hadfield, McEvoy et al 2000). This approach relies on human DT receptor’s (DTR) approximately 105-fold higher affinity for DT compared to mouse DTR (Mekada, Kohno et al 1982, Pappenheimer, Harper et al 1982, Saito, Iwawaki et al 2001). The DT receptor is the membrane-bound precursor to heparin-binding EGF-like growth factor, HB-EGF (Naglich, Metherall et al 1992)
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