BackgroundPreviously, we have exploited bacterial adhesins-derived fibronectin-binding peptides (FnBPs) for targeting mechanically altered fibronectin (Fn) fibrils within the cancer-associated extra-cellular matrix (ECM). However, despite the ability of FnBP probes to visualize pathological lesions, when labeled with metallic radionuclides and administered for targeted imaging, they exhibit high and persistent retention of radioactivity within the kidneys. Intending to overcome this issue towards a future translation of FnBPs to the clinic, the goal of the present study was to reduce the renal retention of 111In-labelled FnBPs employing dual renal brush border membrane (BBM) enzyme-sensitive Met-Val-Lys-based linkers, enabling a rapid washout of radioactivity from the kidneys. MethodsThree maleimide-activated NOTA-conjugated brush border-enzyme cleavable linkers equipped with either single or dual consecutive MVK-based cleavable moieties were designed and synthesized. Their respective NOTA-MVK-based FnBPA5.1 conjugates were obtained by means of maleimide-thiol mediated conjugation at the N-terminus of the Fn-binding sequence, radiolabeled with indium-111, and further evaluated in vitro and in vivo in comparison to the control [111In]In-FnBPA5.1. ResultsThe linker equipped with two MVK sites displayed a two-fold more effective cleavage rate than the single MVK featuring linker in vitro, as revealed by the quantification of the released Met-containing radiometabolites. SPECT/CT imaging and biodistribution studies of the series of FnBPA5.1 radioconjugates performed at 24 h post-injection (p.i.) confirmed the in vitro results, indicating that the renal retention of 111In-labelled FnBPs can be significantly lowered through the interposition of a single MVK-based sequence between the Fn-targeting moiety and the chelating unit (52.75 ± 9.79 vs 92.88 ± 4.85 % iA/g, P < 0.001), and even further reduced by the addition of a second one (down to 34.82 ± 6.04, P < 0.001), with minor influence on the biodistribution in other organs, such as tumors. ConclusionsIn summary, we report here promising 111In-labelled FnBP radiotracers equipped with dual MVK-based cleavable linkers leading to a more effective reduction of renal retention and improved tumor-to-kidney ratios compared to the single MVK-featuring derivative. Our dual MVK strategy is a crucial step towards the clinical translation of mechano-sensory FnBPs and might as well be adopted for other radiopharmaceuticals suffering from persistent renal retention of radioactivity.
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