Introduction: Given the significant utility of suberoylanilide hydroxamic acid (SAHA) in chemotherapeutic protocols, a PET tracer that mimics the histone deacetylase (HDAC) inhibition of SAHA could be a valuable tool in the diagnosis, treatment planning and treatment monitoring of cancer. Here, we describe the synthesis, characterization and evaluation of N(1)-(4-(2-[(18)F]-fluoroethyl)phenyl)-N(8)-hydroxyoctanediamide ([(18)F]-FESAHA), a PET tracer designed for the delineation of HDAC expression in cancer.
Methods: FESAHA was synthesized and biologically characterized in vivo and in vitro. [(18)F]-FESAHA was then synthesized in high radiochemical purity, and the logP and serum stability of the radiotracer were determined. In vitro cellular uptake experiments and acute biodistribution and small-animal PET studies were performed with [(18)F]-FESAHA in mice bearing LNCaP xenografts.
Results: [(18)F]-FESAHA was synthesized in high radiochemical purity via an innovative one-pot procedure. Enzymatic inhibition assays illustrated that FESAHA is a potent HDAC inhibitor, with IC(50) values from 3 nM to 1.7 μM against the 11 HDAC subtypes. Cell proliferation experiments revealed that the cytostatic properties of FESAHA very closely resemble those of SAHA in both LNCaP cells and PC-3 cells. Acute biodistribution and PET imaging experiments revealed tumor uptake of [(18)F]-FESAHA and substantially higher values in the small intestine, kidneys, liver and bone.
Conclusion: The significant non-tumor background uptake of [(18)F]-FESAHA presents a substantial obstacle to the use of the radiotracer as an HDAC expression imaging agent. The study at hand, however, does present a number of lessons critical to both the synthesis of hydroxamic acid containing PET radiotracers and imaging agents aimed at delineating HDAC expression.
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