Title
Monoanionic Tc-tricarbonyl-aminopolycarboxylate complexes with uncharged pendant groups: Radiosynthesis and evaluation as potential renal tubular tracers
Document Type
Article
Publication Date
4-1-2017
Abstract
INTRODUCTION: Tc(CO)-nitrilotriacetic acid, Tc(CO)(NTA), is a new renal tubular agent with pharmacokinetic properties comparable to those of I-OIH but the clearance of Tc(CO)(NTA) and I-OIH is still less than the clearance of PAH, the gold standard for the measurement of effective renal plasma flow. At physiological pH, dianionic Tc(CO)(NTA) has a mononegative inner metal-coordination sphere and a mononegative uncoordinated carboxyl group. To evaluate alternate synthetic approaches, we assessed the importance of an uncoordinated carboxyl group, long considered essential for tubular transport, by evaluating the pharmacokinetics of three analogs with the Tc(CO)(NTA) metal-coordination sphere but with uncharged pendant groups. METHODS: Tc(CO) complexes with N-(2-acetamido)iminodiacetic acid (ADA), N-(2-hydroxyethyl)iminodiacetic acid (HDA) and N-(fluoroethyl)iminodiacetic acid (FEDA) were prepared using a tricarbonyl kit and isolated by HPLC. The pharmacokinetics were evaluated in Sprague-Dawley rats, with I-OIH as an internal control; urine was analyzed for metabolites. Plasma protein binding and erythrocyte uptake were determined from the 10min blood samples. Re(CO)(FEDA), the analog of Tc(CO)(FEDA), was prepared and characterized. RESULTS: Tc(CO)(ADA), Tc(CO)(HDA) and Tc(CO)(FEDA) were efficiently prepared as a single species with high radiochemical purities (>99%). These new monoanionic Tc(CO) tracers with uncharged dangling groups all showed rapid blood clearance and high specificity for renal excretion. Activity in the urine, as a percent of I-OIH at 10 and 60min, was 96% and 99% for ADA, 96% and 100% for HDA, and 100% and 99% for FEDA, respectively. Each new tracer was excreted unchanged in the urine. The Re(CO)(FEDA) structure adds compelling evidence that such Tc(CO)(NTA) analogs have metal-coordination spheres identical to that of Tc(CO)(NTA). CONCLUSIONS: New tracers lacking the negatively charged pendant carboxyl group previously thought to be essential for rapid renal extraction, Tc(CO)(ADA), Tc(CO)(HDA) and Tc(CO)(FEDA), exhibit pharmacokinetics in rats comparable to those of Tc(CO)(NTA) and I-OIH. Furthermore, these encouraging results in rats warrant evaluation of this new tracer type in humans.
Publication Source (Journal or Book title)
Nuclear medicine and biology
First Page
48
Last Page
55
Recommended Citation
Lipowska, M., Klenc, J., Jarkas, N., Marzilli, L. G., & Taylor, A. T. (2017). Monoanionic Tc-tricarbonyl-aminopolycarboxylate complexes with uncharged pendant groups: Radiosynthesis and evaluation as potential renal tubular tracers. Nuclear medicine and biology, 47, 48-55. https://doi.org/10.1016/j.nucmedbio.2016.12.008