Design, Synthesis, and Evaluation of DFO-Em: A Modular Chelator with Octadentate Chelation for Optimal Zirconium-89 Radiochemistry

Salih, Akam K.; Raheem, Shvan J.; Garcia, Moralba Dominguez; Ahiahonu, William K.; Price, Eric W.

doi:10.1021/acs.inorgchem.2c03442

Cited by 14 publications

(25 citation statements)

References 58 publications

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“…Synthetic procedures and characterization data for compounds 1−3 are detailed in our previous publication on DFO-Em. 30 4-((Benzyloxy)(methyl)amino)-4-oxobutanoic Acid (4). Compound 4 was synthesized according to a published procedure with modifications.…”

Section: Synthesis Of Compounds (1−3)mentioning

confidence: 99%

“…32,53,54 In our previous work, we reported the synthesis and evaluation of a glutamic acid-based octadentate chelator we named DFO-Em. 15,19,30,31 We attempted synthesis of the bifunctional version of DFO-Em via N-hydroxysuccinimide (NHS) ester activation of the glutamic acid side chain to enable conjugation to antibodies and other vectors. However, this method was not successful due to intramolecular cyclization resulting from reaction of hydroxamate groups with the activated ester.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Simply switching the amino acid linker in DFO-Em from glutamic acid to lysine in DFO-Km would retain an We previously performed a similar DFT evaluation of geometric isomers for Zr-(DFO-Em). 30 DFO-Km was successfully bifunctionalized by reacting the side chain primary amine (ε-amino group) of the lysine with pphenylene diisothiocyanate to form its p-isothiocyanatophenylderivative (p-SCN-Ph-DFO-Km). This new bifunctional chelator and the current clinical "gold standard" p-SCN-Ph-DFO were conjugated to a nonspecific human IgG antibody via thiourea linkage, a common strategy used for bioconjugation of chelators to antibodies.…”

Section: ■ Introductionmentioning

confidence: 99%

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DFO-Km: A Modular Chelator as a New Chemical Tool for the Construction of Zirconium-89-Based Radiopharmaceuticals

Salih,

Dominguez Garcia,

Raheem

et al. 2023

Inorg. Chem.

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Zirconium-89-labeled monoclonal antibodies and other large macromolecules such as nanoparticles hold great promise as positron emission tomography imaging agents. In general, zirconium-89 is an ideal radionuclide for long-circulating vectors such as antibodies or nanoparticles. It is also a promising radionuclide for theranostic radiopharmaceuticals due to its suitable match in half-life with actinium-225, thorium-227, lutetium-177, and others. As such, demand for new and optimized bifunctional chelators for zirconium-89 continues to grow. Herein, we present the modular chelator DFO-Km, which is octadentate and features lysine as a modular amino acid linker. The modular amino acid linker can be changed to other natural or unnatural amino acids to access different bioconjugation chemistries, while the chelating portion is unchanged thus retaining identical metal ion coordination properties to DFO-Km. The epsilon-amine in the DFO-Km linker (lysine) was used to complete synthesis of a bifunctional derivative bearing a p-SCN-Ph moiety. The chelator DFO-Km includes a redesigned hydroxamic acid, which provides more flexibility for metal ion coordination relative to the monomer used in the previously published DFO-Em. Moreover, a set of comprehensive DFT calculations were performed to model and evaluate 16 geometric isomers of Zr-(DFO-Km), which suggested the complex would form the optimum cic–cis–trans–trans octadentate Zr(IV) coordination geometry with no aqua or hydroxide ligands present. The bifunctional derivative p-SCN-Ph-DFO-Km was compared directly with the commercially available p-SCN-Ph-DFO, and both underwent efficient conjugation to a nonspecific human serum antibody (IgG) to yield two model immunoconjugates. The behavior of [89Zr]Zr-DFO-Km-IgG was studied in healthy mice for 2 weeks and compared to an equivalent cohort injected with [89Zr]Zr-DFO-IgG as a clinical “gold standard” control. PET-CT and biodistribution results revealed higher stability of [89Zr]Zr-(DFO-Km)-IgG in vivo over [89Zr]Zr-DFO-IgG, as demonstrated by the significant reduction of zirconium-89 in the whole skeleton as visualized and quantified by PET-CT at 1, 3, 7, and 14 days post-injection. Using CT-gated regions of interest over these PET-CT images, the whole skeleton was selected and uptake values were measured at 14 days post-injection of 3.6 ± 0.9 (DFO) vs 1.9 ± 0.1 (DFO-Km) %ID/g (n = 4, * p = 0.02), which represents a ∼48% reduction in bone uptake with DFO-Km relative to DFO. Biodistribution experiments performed on these same mice following the 14 day imaging time point revealed bone (both tibia) uptake values of 3.7 ± 1.3 (DFO) vs 2.0 ± 0.6 (DFO-Km) %ID/g (n = 6, * p < 0.05), with the tibia uptake values in close agreement with whole-skeleton ROI PET-CT data. These results indicate that DFO-Km is an improved chelator for [89Zr]Zr4+ applications relative to DFO. The bifunctional chelator p-SCN-Ph-DFO-Km shows potential as a new chemical tool for creating bioconjugates using targeting vectors such as antibodies, peptides, an...

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Section: Synthesis Of Compounds (1−3)mentioning

confidence: 99%

Section: ■ Introductionmentioning

confidence: 99%

Section: ■ Introductionmentioning

confidence: 99%

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DFO-Km: A Modular Chelator as a New Chemical Tool for the Construction of Zirconium-89-Based Radiopharmaceuticals

Salih,

Dominguez Garcia,

Raheem

et al. 2023

Inorg. Chem.

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“…Despite the apparent instability of [ 89 Zr]Zr-DFO in mice, human immuno-PET imaging studies using zirconium-89 do not appear to experience the same level of bone uptake; however, an optimized chelation system could still have value. ,− There is a need to develop chelators with improved radiolabeling performance, greater Zr(IV) binding affinity and kinetic inertness, and greater in vivo stability. − The high denticities and large structures of DFO2/DFO2p provide much flexibility and present metal ions with multiple options for binding denticities and geometries. To this end, several promising new [ 89 Zr]Zr 4+ chelators have been proposed. ,,− ,,,− Many of these promising new chelators utilize the DFO scaffold. However, the denticity of DFO is not high enough to bind larger therapeutic radiometals such as actinium-225 or thorium-227, and so higher-denticity derivatives of DFO with minimum coordination numbers of 8 (e.g., DFO*) are of potential utility beyond zirconium-89. ,,− …”

Section: Introductionmentioning

confidence: 99%

Radiochemical, Computational, and Spectroscopic Evaluation of High-Denticity Desferrioxamine Derivatives DFO2 and DFO2p toward an Ideal Zirconium-89 Chelate Platform

et al. 2023

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Desferrioxamine (DFO) has long been considered the gold standard chelator for incorporating [89Zr]Zr4+ in radiopharmaceuticals for positron emission tomography (PET) imaging. To improve the stability of DFO with zirconium-89 and to expand its coordination sphere to enable binding of large therapeutic radiometals, we have synthesized the highest denticity DFO derivatives to date: dodecadentate DFO2 and DFO2p. In this study, we describe the synthesis and characterization of a novel DFO-based chelator, DFO2p, which is comprised of two DFO strands connected by an p-NO2-phenyl linker and therefore contains double the chelating moieties of DFO (potential coordination number up to 12 vs 6). The chelator DFO2p offers an optimized synthesis comprised of only a single reaction step and improves water solubility relative to DFO2, but the shorter linker reduces molecular flexibility. Both DFO2 and DFO2p, each with 6 potential hydroxamate ligands, are able to reach a more energetically favorable 8-coordinate environment for Zr(IV) than DFO. The zirconium(IV) coordination environment of these complexes were evaluated by a combination of density functional theory (DFT) calculations and synchrotron spectroscopy (extended X-ray absorption fine structure), which suggest the inner-coordination sphere of zirconium(IV) to be comprised of the outermost four hydroxamate ligands. These results also confirm a single Zr(IV) in each chelator, and the hydroxide ligands which complete the coordination sphere of Zr(IV)-DFO are absent from Zr(IV)-DFO2 and Zr(IV)-DFO2p. Radiochemical stability studies with zirconium-89 revealed the order of real-world stability to be DFO2 > DFO2p ≫ DFO. The zirconium-89 complexes of these new high-denticity chelators were found to be far more stable than DFO, and the decreased molecular flexibility of DFO2p, relative to DFO2, could explain its decreased stability, relative to DFO2.

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“…Various other Zr(IV)‐chelators have been developed to overcome the shortcomings of DFOB and to increase the complex stability [17] . In this context, hexadentate macrocyclic hydroxamates of the fusarinine and the desferrichrome family, [18] octadentate desferrichrome‐derivatives like Orn4‐hx, [18b] DFO‐HOPO, [19] DFO*, [20] DFOcyclo*, [21] DFO2, [22] DFO−Em, [23] H 3 DFOSqOEt [24] and macrocyclic octadentate analogues are notable examples [25] . However, many in vivo experiments with the corresponding targeted analogues showed comparable radioactive bone‐uptake to DFOB despite improved complex stability as measured in vitro [18b,26] .…”

Section: Introductionmentioning

confidence: 99%

Synthesis of Modular Desferrioxamine Analogues and Evaluation of Zwitterionic Derivatives for Zirconium Complexation

et al. 2023

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The natural siderophore desferrioxamine B (DFOB) has been used for targeted PET imaging with 89 Zr before. However, Zr-DFOB has a limited stability and a number of derivatives have been developed with improved chelation properties for zirconium. We describe the synthesis of pseudopeptidic analogues of DFOB with azido side chains. These are termed AZA-DFO (hexadentate) and AZA-DFO* (octadentate) and are assembled via a modular synthesis from Orn-β-Ala and Lys-β-Ala. Nine different chelators have been conjugated to zwitterionic moieties by copper-catalyzed azide-alkyne cycloaddition (CuAAC). The resulting water-soluble chelators form Zr complexes under mild conditions (room temperature for 90 min).Transchelation assays with 1000-fold excess of EDTA and 300fold excess of DFOB revealed that a short spacing of hydroxamates in (Orn-β-Ala) 3-4 leads to improved complex stability compared to a longer spacing in (Lys-β-Ala) 3-4 . We found that the alignment of amide groups in the pseudopeptide backbone and the presence of zwitterionic sidechains did not compromise the stability of the Zr-complexes with our chelators. We believe that the octadentate derivative AZA-DFO* is particularly valuable for the preparation of new Zr-chelators for targeted imaging which combine tunable pharmacokinetic properties with high complex stability and fast Zr-complexation kinetics.

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Design, Synthesis, and Evaluation of DFO-Em: A Modular Chelator with Octadentate Chelation for Optimal Zirconium-89 Radiochemistry

Cited by 14 publications

References 58 publications

DFO-Km: A Modular Chelator as a New Chemical Tool for the Construction of Zirconium-89-Based Radiopharmaceuticals

DFO-Km: A Modular Chelator as a New Chemical Tool for the Construction of Zirconium-89-Based Radiopharmaceuticals

Radiochemical, Computational, and Spectroscopic Evaluation of High-Denticity Desferrioxamine Derivatives DFO2 and DFO2p toward an Ideal Zirconium-89 Chelate Platform

Synthesis of Modular Desferrioxamine Analogues and Evaluation of Zwitterionic Derivatives for Zirconium Complexation

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