Real-time molecular optical micro-imaging of EGFR mutations using a fluorescent erlotinib based tracer

EGFR mutations are routinely explored in lung adenocarcinoma by sequencing tumoral DNA. The aim of this study was to evaluate a fluorescent-labelled erlotinib based theranostic agent for the molecular imaging of mutated EGFR tumours in vitro and ex vivo using a mice xenograft model and fibred confoc...

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Veröffentlicht in:BMC pulmonary medicine 2019-01, Vol.19 (1), p.3-3, Article 3
Hauptverfasser: Patout, Maxime, Guisier, Florian, Brune, Xavier, Bohn, Pierre, Romieu, Anthony, Sarafan-Vasseur, Nasrin, Sesboüé, Richard, Renard, Pierre-Yves, Thiberville, Luc, Salaün, Mathieu
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Sprache:eng
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Zusammenfassung:EGFR mutations are routinely explored in lung adenocarcinoma by sequencing tumoral DNA. The aim of this study was to evaluate a fluorescent-labelled erlotinib based theranostic agent for the molecular imaging of mutated EGFR tumours in vitro and ex vivo using a mice xenograft model and fibred confocal fluorescence microscopy (FCFM). The fluorescent tracer was synthesized in our laboratory by addition of fluorescein to an erlotinib molecule. Three human adenocarcinoma cell lines with mutated EGFR (HCC827, H1975 and H1650) and one with wild-type EGFR (A549) were xenografted on 35 Nude mice. MTT viability assay was performed after exposure to our tracer. In vitro imaging was performed at 1 μM tracer solution, and ex vivo imaging was performed on fresh tumours excised from mice and exposed to a 1 μM tracer solution in PBS for 1 h. Real-time molecular imaging was performed using FCFM and median fluorescence intensity (MFI) was recorded for each experiment. MTT viability assay confirmed that addition of fluorescein to erlotinib did not suppress the cytotoxic of erlotinib on tumoral cells. In vitro FCFM imaging showed that our tracer was able to distinguish cell lines with mutated EGFR from those lines with wild-type EGFR (p 
ISSN:1471-2466
1471-2466
DOI:10.1186/s12890-018-0760-z