INTRODUCTION: Epidermal growth factor receptor (EGFR)-targeted therapies with antibodies and small molecular EGFR kinase inhibitors have shown poor efficacy in unselected populations of patients with advanced non-small cell lung carcinomas (NSCLC). In contrast, patients with overexpression of EGFR and activating mutations in EGFR kinase domain demonstrated improved responses to EGFR kinase inhibitors. Therefore, we have developed a novel radiotracer, [(18)F]F-PEG(6)-IPQA for PET imaging of EGFR expression-activity in NSCLC, and have described its radiosynthesis and in vitro evaluation in two NSCLC cell lines with wild-type and L858R active mutant EGFR. METHODS: A mesylate precursor was synthesized in multiple steps and radiofluorinated using K(18)F/Kryptofix. The fluorinated intermediate compound was reduced to an amino derivative then treated with acryloyl isobutyl carbonate, followed by purification by HPLC to obtain the desired product. RESULTS: Decay-corrected radiochemical yields of [(18)F]F-PEG(6)-IPQA were 3.9-17.6%, with an average of 9.0% (n = 11). Radiochemical purity was >97% with specific activity of 34 GBq/μmol (mean value, n = 10) at the end of synthesis. The accumulation of [(18)F]F-PEG(6)-IPQA in H3255 cells was ten-fold higher than in H441 cells, despite a two-fold lower level of activated phospho-EGFR expression in H3255 cells compared with H441 cells. The accumulation of [(18)F]F-PEG(6)-IPQA in both cell lines was significantly decreased in the presence of a small molecular EGFR kinase inhibitor, Iressa, at 100 μM concentration in culture medium. CONCLUSION: We have synthesized [(18)F]F-PEG(6)-IPQA and demonstrated its highly selective accumulation in active mutant L858R EGFR-expressing NSCLC cells in vitro. Further in vivo studies are warranted to assess the ability of PET imaging with [(18)F]F-PEG(6)-IPQA to discriminate the active mutant L858R EGFR-expressing NSCLC that are sensitive to therapy with EGFR kinase inhibitors vs NSCLC that express wild-type EGFR.
INTRODUCTION:Epidermal growth factor receptor (EGFR)-targeted therapies with antibodies and small molecular EGFR kinase inhibitors have shown poor efficacy in unselected populations of patients with advanced non-small cell lung carcinomas (NSCLC). In contrast, patients with overexpression of EGFR and activating mutations in EGFR kinase domain demonstrated improved responses to EGFR kinase inhibitors. Therefore, we have developed a novel radiotracer, [(18)F]F-PEG(6)-IPQA for PET imaging of EGFR expression-activity in NSCLC, and have described its radiosynthesis and in vitro evaluation in two NSCLC cell lines with wild-type and L858R active mutant EGFR. METHODS: A mesylate precursor was synthesized in multiple steps and radiofluorinated using K(18)F/Kryptofix. The fluorinated intermediate compound was reduced to an amino derivative then treated with acryloyl isobutyl carbonate, followed by purification by HPLC to obtain the desired product. RESULTS: Decay-corrected radiochemical yields of [(18)F]F-PEG(6)-IPQA were 3.9-17.6%, with an average of 9.0% (n = 11). Radiochemical purity was >97% with specific activity of 34 GBq/μmol (mean value, n = 10) at the end of synthesis. The accumulation of [(18)F]F-PEG(6)-IPQA in H3255 cells was ten-fold higher than in H441 cells, despite a two-fold lower level of activated phospho-EGFR expression in H3255 cells compared with H441 cells. The accumulation of [(18)F]F-PEG(6)-IPQA in both cell lines was significantly decreased in the presence of a small molecular EGFR kinase inhibitor, Iressa, at 100 μM concentration in culture medium. CONCLUSION: We have synthesized [(18)F]F-PEG(6)-IPQA and demonstrated its highly selective accumulation in active mutant L858REGFR-expressing NSCLC cells in vitro. Further in vivo studies are warranted to assess the ability of PET imaging with [(18)F]F-PEG(6)-IPQA to discriminate the active mutant L858REGFR-expressing NSCLC that are sensitive to therapy with EGFR kinase inhibitors vs NSCLC that express wild-type EGFR.
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