A novel dimeric FAP-targeting small molecule-radio conjugate with high and prolonged tumour uptake

Galbiati, Andrea; Zana, Aureliano; Bocci, Matilde; Millul, Jacopo; Elsayed, Abdullah; Mock, Jacqueline; Neri, Dario; Cazzamalli, Samuele

doi:10.1101/2022.02.21.481260

Cited by 5 publications

(11 citation statements)

References 44 publications

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“…tumor uptake as compared to its monovalent counterpart (Figures 3, TableS3). Uptake values in tumor and healthy organs (in %ID/g) measured by the LC-MS methodology were comparable to values obtained with radioactivity-based quantification11 . No significant differences were observed between the two analytical techniques (p>0.05 multiple t test,Table S4) (Figures 3).Orthogonal validation further confirms the accuracy of the newly developed MS quantification method, thereby opening new opportunities for non-radioactive LC-MS analysis of SMMCs.…”

supporting

confidence: 71%

“…Comparison of MS and γ Counter 11 biodistribution data for A) Lu-OncoFAP-DOTAGA and B) Lu-BiOncoFAP-DOTAGA. Mice bearing HT-1080.hFAP tumors were sacrificed 1 h after intravenous administration (250 nmol/kg).…”

Section: Resultsmentioning

confidence: 99%

“…OncoFAP and BiOncoFAP, as well as their metal chelator conjugates and "cold"-labeled derivatives were synthesized through established protocols 6,10,11 .…”

Section: Chemical Synthesismentioning

confidence: 99%

“…This compound represents an ideal candidate for imaging applications. More recently, we developed a dimeric derivative owing two targeting moieties (i.e., BiOncoFAP), showing higher tumor uptake and residence time than OncoFAP in preclinical models of cancer 11 .…”

Section: Introductionmentioning

confidence: 99%

“…The biodistribution properties of novel tumor targeting SMRCs are of key importance for the success of the diagnosis and therapeutic outcome. Preclinical biodistribution of radiopharmaceuticals in tumor-bearing animals is typically evaluated by direct measurement of the radioactivity present in each organ after sacrifice of experimental animals 10,11 . To date, these radioactivity-based analyses are still crucial to evaluate the tumor accumulation and to obtain spatial biodistribution data of the compounds in the animal/human body.…”

Section: Introductionmentioning

confidence: 99%

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A mass spectrometry-based method for the determination ofin vivobiodistribution of tumor targeting small molecule-metal conjugates

Gilardoni

Zana

Galbiati

et al. 2022

Preprint

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Nuclear medicine plays a key role in modern diagnosis and cancer therapy. The development of tumor targeting radionuclide conjugates (also named Small Molecule-Radio Conjugates - SMRCs) represents a significant improvement over the clinical use of metabolic radiotracers (e.g., [18F]-Fluorodeoxyglucose) for imaging and over the application of biocidal external beam radiations for therapy. During the discovery of SMRCs, molecular candidates must be carefully evaluated typically by performing biodistribution assays in preclinical tumor models. Quantification methodologies based on radioactive counts are typically demanding due to safety concerns, availability of radioactive material, and infrastructures. In this article, we report the development of a mass spectrometry (MS)-based method for the detection and quantification of small molecule-metal conjugates (SMMCs) as cold surrogates of SMRCs. We applied this methodology for the evaluation of the biodistribution of a particular class of tumor-targeting drug candidates based on natLu, natGa, natF and directed against Fibroblast Activation Protein (FAP). The reliability of the LC-MS analysis was validated by direct comparison of MS-based and radioactivity-based biodistribution data. Results show that MS biodistribution of stable isotope metal conjugates is an orthogonal tool for the preclinical characterization of different classes of radiopharmaceuticals.

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supporting

confidence: 71%

Section: Resultsmentioning

confidence: 99%

“…OncoFAP and BiOncoFAP, as well as their metal chelator conjugates and "cold"-labeled derivatives were synthesized through established protocols 6,10,11 .…”

Section: Chemical Synthesismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

A mass spectrometry-based method for the determination ofin vivobiodistribution of tumor targeting small molecule-metal conjugates

Gilardoni

Zana

Galbiati

et al. 2022

Preprint

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Radionuclide imaging and therapy directed towards the tumor microenvironment: a multi-cancer approach for personalized medicine

Heide

Dalm

2022

Eur J Nucl Med Mol Imaging

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Targeted radionuclide theranostics is becoming more and more prominent in clinical oncology. Currently, most nuclear medicine compounds researched for cancer theranostics are directed towards targets expressed in only a small subset of cancer types, limiting clinical applicability. The identification of cancer-specific targets that are (more) universally expressed will allow more cancer patients to benefit from these personalized nuclear medicine–based interventions. A tumor is not merely a collection of cancer cells, it also comprises supporting stromal cells embedded in an altered extracellular matrix (ECM), together forming the tumor microenvironment (TME). Since the TME is less genetically unstable than cancer cells, and TME phenotypes can be shared between cancer types, it offers targets that are more universally expressed. The TME is characterized by the presence of altered processes such as hypoxia, acidity, and increased metabolism. Next to the ECM, the TME consists of cancer-associated fibroblasts (CAFs), macrophages, endothelial cells forming the neo-vasculature, immune cells, and cancer-associated adipocytes (CAAs). Radioligands directed at the altered processes, the ECM, and the cellular components of the TME have been developed and evaluated in preclinical and clinical studies for targeted radionuclide imaging and/or therapy. In this review, we provide an overview of the TME targets and their corresponding radioligands. In addition, we discuss what developments are needed to further explore the TME as a target for radionuclide theranostics, with the hopes of stimulating the development of novel TME radioligands with multi-cancer, or in some cases even pan-cancer, application.

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EDB-FN targeted probes for the surgical navigation, radionuclide imaging, and therapy of thyroid cancer

et al. 2023

Eur J Nucl Med Mol Imaging

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Extradomain B of bronectin (EDB-FN) is a promising diagnostic and therapeutic biomarker for thyroid cancer (TC). Here, we identi ed a high-a nity EDB-FN targeted peptide named EDBp, and developed three EDBp-based probes, Cy5-EDBp, [ 18 F]-EDBp and [ 177 Lu]-EDBp the surgical navigation, radionuclide imaging and therapy of TC. MethodsBased on the previously identi ed EDB-FN targeted peptide ZD2, the optimized EDB-FN targeted peptide EDBp was identi ed by using the alanine scan strategy. Three EDBp-based probes, Cy5-EDBp, [ 18 F]-EDBp and [ 177 Lu]-EDBp, were developed for uorescence imaging, positron emission tomography (PET) imaging and radiotherapy in TC tumor-bearing mice, respectively. Additionally, [ 18 F]-EDBp was evaluated in two TC patients. ResultsThe binding a nity of EDBp to the EDB fragment protein (Kd = 14.4 ± 1.4 nM, n = 3) was approximately 336-fold greater than that of the ZD2 (Kd = 4839.7 ± 361.7 nM, n = 3). Fluorescence imaging with Cy5-EDBp facilitated the complete removal of TC tumors. [ 18 F]-EDBp PET imaging clearly delineated TC tumors, with high tumor uptake (16.43 ± 1.008%ID/g, n = 6, at 1 h postinjection). Radiotherapy with [ 177 Lu]-EDBp inhibited tumor growth and prolonged survival in TC tumor-bearing mice (survival time of different treatment groups: Saline vs. EDBp vs. ABRAXANE vs. [ 177 Lu]-EDBp = 8 d vs. 8 d vs. 11.67 d vs. 22.33 d, ***p < 0.001). Importantly, the rst-in-human evaluation of [ 18 F]-EDBp demonstrated that it had speci c targeting properties (SUVmax value of 3.6) and safety. Conclusion Cy5-EDBp, [ 18 F]-EDBp and [ 177 Lu]-EDBp are promising candidates for the surgical navigation, radionuclide imaging and radionuclide therapy of TC, respectively.

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A novel dimeric FAP-targeting small molecule-radio conjugate with high and prolonged tumour uptake

Cited by 5 publications

References 44 publications

A mass spectrometry-based method for the determination ofin vivobiodistribution of tumor targeting small molecule-metal conjugates

A mass spectrometry-based method for the determination ofin vivobiodistribution of tumor targeting small molecule-metal conjugates

Radionuclide imaging and therapy directed towards the tumor microenvironment: a multi-cancer approach for personalized medicine

EDB-FN targeted probes for the surgical navigation, radionuclide imaging, and therapy of thyroid cancer

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