MicroPET imaging of prostate cancer in LNCAP‐SR39TK‐GFP mouse xenografts

Abstract

BACKGROUND: The aim of this study was to develop models that allow serial, noninvasive imaging of human prostate cancer cells in immunodeficient mice using a dedicated small animal positron emission tomography scanner (microPET).METHODS: LNCaP tumor cells were stably transduced ex‐vivo with the mutant herpes simplex virus type 1 thymidine kinase (HSV‐sr39tk) PET reporter gene and green fluorescent protein (GFP). The stably transduced LNCaP cells were then enriched via fluorescent cell sorting and implanted into SCID mice. Beginning 2 weeks after tumor cell inoculation, mice were repeatedly scanned by microPET performed 1 hr after tail‐vein injection of ∼200 μCi Fluorine‐18 labeled penciclovir (¹⁸F‐FHBG). PET‐images were correlated to tumor size, % injected dose (ID)/g tumor tissue, PSA levels, autoradiography, and histology.RESULTS: Monitoring LNCaP xenografts using microPET and our reporter gene approaches is feasible. MicroPET was capable of detecting subcutaneous tumors as small as 3 mm in diameter (∼0.2% ID/g). The magnitude of ¹⁸F‐FHBG‐uptake in PET‐images correlated with the tumor volumes and the serum PSA levels. Other non‐HSV1‐TK‐specific tracers were also studied. While ¹⁸F‐flurodeoxyglucose (¹⁸F‐FDG) gave poor imaging results in LNCaP cells, ¹¹C‐acetate gave satisfactory images.CONCLUSIONS: We demonstrated the feasibility of monitoring prostate cancer xenografts in a mouse model using microPET and the HSV1‐sr39tk PET reporter gene/¹⁸F‐FHBG reporter probe system. Extension of this approach may allow repetitive imaging of tumor metastases. Prostate 55:39–47, 2003.