Targeted biodistribution profile and good T/NT ratios, indicate that this complex presents enough specificity to discriminate between infection caused by Pseudomonas aeruginosa and sterile inflammation.
The aim of this work was to develop and evaluate a 99m Tc-labeled neuropeptide Y derivative with affinity toward Y1-receptor. The selected amino acid sequence included nine amino acids derived from the C-terminal portion of the NPY complemented with the addition of one cysteine-mercaptoacetic acid moiety to bind the radiometal. Labeling was achieved through the preparation of a 3 + 1 nitrido complex. Physicochemical evaluation, cell uptake, internalization and externalization studies, and competitive assays were performed. Biodistribution experiments were carried out in normal and tumor-bearing mice. A single product with radiochemical purity >90% and high stability was obtained. In vitro analysis showed specific cellular uptake, IC 50 of 73.2 nM, and a high internalization rate (80%). Biodistribution studies showed low blood and renal uptake and combined hepatobiliary and urinary elimination. Preliminary studies in mice bearing induced breast tumors rendered promising uptake values.
K E Y W O R D Sbreast cancer, neuropeptide Y, radiolabeling, scintigraphy, technetium
The aim of this study was to investigate the capability of phenazine dioxides, recognized bioreductive antitumour agents, as carriers for (99m)Tc in order to generate potential theranostic radiopharmaceuticals towards hypoxic solid tumours. Two different phenazine dioxides were used as ligands for the (99m)Tc-tricarbonyl core in order to prepare the potential radiopharmaceuticals. The main physicochemical and biological properties were evaluated. Biodistribution of the two radiotracers was studied at different time points after intravenous injection in tumour bearing animals. Both compounds were obtained in high yield and radiochemichal purity. They were stable in labelling milieu, in human plasma and in the presence of histidine. Biodistribution studies in mice were characterized by slow blood clearance and persistent liver uptake, results that correlate with the values of lipophilicities and protein binding. Both the complexes showed good tumour uptake, which remained constant during the studied period. Tumour/muscle ratios proved very favourable, comparable to those of FMISO in the same animal model. On the other hand, tumour/blood ratios were low due to high blood uptake. The use of phenazine dioxides as ligands for the preparation of potential (99m)Tc-radiopharmaceuticals towards solid tumours is possible since tumour uptake and retention are promising although high blood and liver uptake are drawbacks worth consideration.
In vivo receptor targeting with radiolabelled peptide‐based probes is an attractive approach for the development of novel radiotracers for molecular imaging. This work presents the development and characterization of two novel neuropeptide Y analogues labelled with a positron emitter 68Ga, for potential use in breast cancer imaging. Both analogues share the same amino acid sequence and were derivatized with NOTA through either a lysine linker (L1) or an acetylated lysine (L2). In both cases, a single product with radiochemical purity higher than 95% was obtained. The two complexes were hydrophilic, showed remarkable in vitro stability, good cellular uptake, binding affinity in the nanomolar range and high cellular internalization rate. Biodistribution studies revealed low blood uptake and elimination through the urinary tract. The addition of an acetyl group in the spacer increased the lipophilicity of C2 and modified the reactivity of the ε‐amino group of the lysine which resulted in lower protein binding and lower percentage of injected dose in bladder and urine. The tumour versus muscle ratio was (3.8 ± 0.4) for 68Ga‐L1 and (4.7 ± 0.4) for 68Ga‐L2. These results encourage performing further studies in order to complete the evaluation of both tracers as potential radiopharmaceutical for breast cancer imaging.
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