Pharmacodynamic Imaging Guides Dosing of a Selective Estrogen Receptor Degrader

Purpose: Estrogen receptor (ER) targeting is key in management of receptor-positive breast cancer. Currently, there are no methods to optimize anti-ER therapy dosing. This study assesses the use of 16 alpha-F-18-fluoroestradiol (F-18-FES) PET for fulvestrant dose optimization in a preclinical ER+ breast cancer model. Experimental Design: In vitro, F-18-FES retention was compared with ER alpha protein expression (ELISA) and ESR1 mRNA transcription (qPCR) in MCF7 cells (ER+) after treatment with different fulvestrant doses. MCF7 xenografts were grown in ovariectomized nude mice and assigned to vehicle, low-(0.05 mg), medium-(0.5 mg), or high-dose (5 mg) fulvestrant treatment groups (5-7 per group). Two and 3 days after fulvestrant treatment, PET/CT was performed using F-18-FES and F-18-FDG, respectively. ER expression was assessed by immunohistochemistry, ELISA, and qPCR on xenografts. Tumor proliferation was assessed using Ki67 immunohistochemistry. Results: In vitro, we observed a parallel graded reduction in F-18-FES uptake and ER expression with increased fulvestrant doses, despite enhancement of ER mRNA transcription. In xenografts, ER expression significantly decreased with increased fulvestrant dose, despite similar mRNA expression and Ki67 staining among the treatment groups. We observed a significant dose-dependent reduction of F-18-FES PET mean standardized uptake value (SUVmean) with fulvestrant treatment but no significant difference among the treatment groups in F-18-FDG PET SUVmean. Conclusions: We demonstrated that F-18-FES uptake mirrors the dose-dependent changes in functional ER expression with fulvestrant resulting in ER degradation and/or blockade; these precede changes in tumor metabolism and proliferation. Quantitative F-18-FES PET may be useful for tracking early efficacy of ER blockade/degradation and guiding ER-targeted therapy dosing in patients with breast cancer. (C)2015 AACR.