Dual MVK cleavable linkers effectively reduce renal retention of 111In-fibronectin-binding peptides

Background: Previously, 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 ra-dionuclides 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.Methods: Three 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.Results: The 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.Conclusions: In 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.

Automated summary

In this study, dual renal brush border membrane (BBM) enzyme-sensitive Met-Val-Lys-based linkers were employed to reduce the renal retention of 111In-labelled FnBPs. The results showed that the dual MVK strategy significantly lowered the renal retention of 111In-labelled FnBPs, with minor influence on the biodistribution in other organs. These findings are crucial for the clinical translation of mechano-sensory FnBPs.