Krisanat Chuamsaamarkkee scite author profile

Purpose111In (typically as [111In]oxinate3) is a gold standard radiolabel for cell tracking in humans by scintigraphy. A long half-life positron-emitting radiolabel to serve the same purpose using positron emission tomography (PET) has long been sought. We aimed to develop an 89Zr PET tracer for cell labelling and compare it with [111In]oxinate3 single photon emission computed tomography (SPECT).Methods[89Zr]Oxinate4 was synthesised and its uptake and efflux were measured in vitro in three cell lines and in human leukocytes. The in vivo biodistribution of eGFP-5T33 murine myeloma cells labelled using [89Zr]oxinate4 or [111In]oxinate3 was monitored for up to 14 days. 89Zr retention by living radiolabelled eGFP-positive cells in vivo was monitored by FACS sorting of liver, spleen and bone marrow cells followed by gamma counting.ResultsZr labelling was effective in all cell types with yields comparable with 111In labelling. Retention of 89Zr in cells in vitro after 24 h was significantly better (range 71 to >90 %) than 111In (43–52 %). eGFP-5T33 cells in vivo showed the same early biodistribution whether labelled with 111In or 89Zr (initial pulmonary accumulation followed by migration to liver, spleen and bone marrow), but later translocation of radioactivity to kidneys was much greater for 111In. In liver, spleen and bone marrow at least 92 % of 89Zr remained associated with eGFP-positive cells after 7 days in vivo.Conclusion[89Zr]Oxinate4 offers a potential solution to the emerging need for a long half-life PET tracer for cell tracking in vivo and deserves further evaluation of its effects on survival and behaviour of different cell types.Electronic supplementary materialThe online version of this article (doi:10.1007/s00259-014-2945-x) contains supplementary material, which is available to authorized users.

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[18F]tetrafluoroborate-PET/CT enables sensitive tumor and metastasis in vivo imaging in a sodium iodide symporter-expressing tumor model

Diocou

Volpe

Jauregui-Osoro

et al. 2017

Sci Rep

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Cancer cell metastasis is responsible for most cancer deaths. Non-invasive in vivo cancer cell tracking in spontaneously metastasizing tumor models still poses a challenge requiring highest sensitivity and excellent contrast. The goal of this study was to evaluate if the recently introduced PET radiotracer [18F]tetrafluoroborate ([18F]BF4 −) is useful for sensitive and specific metastasis detection in an orthotopic xenograft breast cancer model expressing the human sodium iodide symporter (NIS) as a reporter. In vivo imaging was complemented by ex vivo fluorescence microscopy and γ-counting of harvested tissues. Radionuclide imaging with [18F]BF4 − (PET/CT) was compared to the conventional tracer [123I]iodide (sequential SPECT/CT). We found that [18F]BF4 − was superior due to better pharmacokinetics, i.e. faster tumor uptake and faster and more complete clearance from circulation. [18F]BF4 −-PET was also highly specific as in all detected tissues cancer cell presence was confirmed microscopically. Undetected comparable tissues were similarly found to be free of metastasis. Metastasis detection by routine metabolic imaging with [18F]FDG-PET failed due to low standard uptake values and low contrast caused by adjacent metabolically active organs in this model. [18F]BF4 −-PET combined with NIS expressing disease models is particularly useful whenever preclinical in vivo cell tracking is of interest.

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¹⁸F-Fluorosulfate for PET Imaging of the Sodium–Iodide Symporter: Synthesis and Biologic Evaluation In Vitro and In Vivo

et al. 2016

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Anion transport by the human sodium-iodide symporter (hNIS) is an established target for molecular imaging and radionuclide therapy. Current radiotracers for PET of hNIS expression are limited to 124 I 2 and 18 F-BF 4 2 . We sought new 18 F-labeled hNIS substrates offering higher specific activity, higher affinity, and simpler radiochemical synthesis than 18 F-BF 4 2 . Methods: The ability of a range of anions, some containing fluorine, to block 99m TcO 4 2 uptake in hNIS-expressing cells was measured. SO 3 F 2 emerged as a promising candidate. 18 F-SO 3 F 2 was synthesized by reaction of 18 F 2 with SO 3 -pyridine complex in MeCN and purified using alumina and quaternary methyl ammonium solid-phase extraction cartridges. Chemical and radiochemical purity 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 (NaClO 4 ). PET/CT imaging and ex vivo biodistribution measurement were conducted on BALB/c mice, with and without NaClO 4 inhibition. Results: Fluorosulfate was identified as a potent inhibitor of 99m TcO 4 2 uptake via hNIS in vitro (half-maximal inhibitory concentration, 0.55-0.56 mM (in comparison with 0.29-4.5 mM for BF 4 2 , 0.07 mM for TcO 4 2 , and 2.7-4.7 mM for I 2 ). Radiolabeling to produce 18 F-SO 3 F 2 was simple and afforded high radiochemical purity suitable for biologic evaluation (radiochemical purity . 95%, decay-corrected radiochemical yield 5 31.6%, specific activity $ 48.5 GBq/mmol). Specific, blockable hNIS-mediated uptake in HCT116-C19 cells was observed in vitro, and PET/CT imaging of normal mice showed uptake in thyroid, salivary glands (percentage injected dose/g at 30 min, 563 6 140 and 32 6 9, respectively), and stomach (percentage injected dose/g at 90 min, 68 6 21). Conclusion: Fluorosulfate is a high-affinity hNIS substrate. 18 F-SO 3 F 2 is easily synthesized in high yield and very high specific activity and is a promising candidate for preclinical 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 an S-18 F bond.

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