Abstract
Purpose: Anion transport by the human sodium/iodide symporter (hNIS) is an established target for molecular imaging and radionuclide therapy. Current radiotracers for positron emission tomography (PET) of hNIS expression are limited to 124I- and 18F-BF4-. We sought new 18F-labeled hNIS substrates offering higher specific activity, higher affinity and simpler radiochemical synthesis than 18F-BF4-. Methods: The ability of a range of anions, some containing fluorine, to block 99mTcO4- uptake in hNIS-expressing cells was measured. SO3F- emerged as a promising candidate. 18F-SO3F- was synthesized by reaction of 18F- with SO3-pyridine complex in MeCN and purified using alumina and quaternary methyl ammonium (QMA) solid phase extraction cartridges. Chemical and radiochemical purity (RCP) and serum stability were determined by radiochromatography. Radiotracer uptake and efflux in hNIS-transduced HCT116-C19 cells and the hNIS-negative parent cell line were evaluated in vitro in the presence and absence of a known competitive inhibitor (NaClO4). PET/CT (CT = computed tomography) imaging and ex vivo biodistribution measurement were conducted in BALB/c mice, with and without NaClO4 inhibition. Results: Fluorosulfate was identified as a potent inhibitor of 99mTcO4- uptake via hNIS in vitro (IC50 0.55-0.56 μM, cf. BF4- 0.29-4.5, TcO4- 0.07, I- 2.7-4.7 μM). Radiolabeling to produce 18F-SO3F- was simple and afforded high RCP, suitable for biological evaluation (RCP > 95%, decay corrected radiochemical yield (RCY) = 31.6%, specific activity ≥ 48.5 GBq/μmol). Specific, blockable hNIS-mediated uptake in HCT116-C19 cells was observed in vitro, and PET/CT imaging in normal mice showed uptake in thyroid, salivary glands (%ID/g at 30 min: 563 ± 140 and 32 ± 9 respectively) and stomach (%ID/g at 90 min: 68 ± 21). Conclusion: Fluorosulfate is a high-affinity hNIS substrate. 18F-SO3F is easily synthesized in high yield and very high specific activity and is a promising candidate for pre-clinical and clinical PET imaging of hNIS expression and thyroid-related disease; it is the first example of in vivo PET imaging with a tracer containing a S-18F bond.
- Animal Imaging
- PET
- Radiopharmaceuticals
- Fluorine-18
- Fluorosulfate
- Human sodium/iodide symporter (SC5A5)
- PET
- Thyroid
- Copyright © 2016 by the Society of Nuclear Medicine and Molecular Imaging, Inc.