Synthesis of a new cage ligand, SarAr, and its complexation with selected transition metal ions for potential use in radioimaging†

Bartolo, Nadine M. Di; Sargeson, Alan M.; Donlevy, Therese M.; Smith, Suzanne V.

doi:10.1039/b103242a

Cited by 138 publications

(139 citation statements)

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“…The [ 64 Cu(SarAr)] 2ϩ complex is rapidly excreted through the kidneys and, in contrast to other chelating agents, was not found to release copper into the liver (13). In the present study, we have extended these findings, showing tumor-specific uptake of SarAr-conjugated 64 Cu-labeled antineuroblastoma antibodies 14.G2a and ch14.…”

Section: Discussionsupporting

confidence: 70%

“…Earlier work with unconjugated SarAr showed that [ 64 Cu(SarAr)] 2ϩ complexes were stable in plasma, with no significant dissociation of the complex after 174 h (13). The [ 64 Cu(SarAr)] 2ϩ complex is rapidly excreted through the kidneys and, in contrast to other chelating agents, was not found to release copper into the liver (13).…”

Section: Discussionmentioning

confidence: 99%

“…Preparation of the SarAr chelator has been described in detail (13). The SarAr ligand was conjugated via its primary aromatic amino group to carboxyl groups on the 14.G2a and ch14.18 antibodies, in a reaction mediated by the carbodiimide reagent 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide (EDC).…”

Section: Methodsmentioning

confidence: 99%

“…Smith et al (13) have recently developed a derivative of the diamsar ligand, SarAr (Fig. 1), which incorporates an aromatic amine into the cage periphery.…”

mentioning

confidence: 99%

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Positron emission tomography (PET) imaging of neuroblastoma and melanoma with ⁶⁴ Cu-SarAr immunoconjugates

Voss¹,

Smith

DiBartolo

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

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The advancement of positron emission tomography (PET) depends on the development of new radiotracers that will complement 18 F-FDG. Copper-64 ( 64 Cu) is a promising PET radionuclide, particularly for antibody-targeted imaging, but the high in vivo lability of conventional chelates has limited its clinical application. The objective of this work was to evaluate the novel chelating agent SarAr (1-N-(4-aminobenzyl)-3, 6,10,13,16,19-hexaazabicyclo[6.6.6]-eicosane-1,8-diamine) for use in developing a new class of tumorspecific 64 Cu radiopharmaceuticals for imaging neuroblastoma and melanoma. The anti-GD2 monoclonal antibody (mAb) 14.G2a, and its chimeric derivative, ch14.18, target disialogangliosides that are overexpressed on neuroblastoma and melanoma. Both mAbs were conjugated to SarAr using carbodiimide coupling. Radiolabeling with 64 Cu resulted in >95% of the 64 Cu being chelated by the immunoconjugate. Specific activities of at least 10 Ci/ g (1 Ci ‫؍‬ 37 GBq) were routinely achieved, and no additional purification was required after 64 Cu labeling. Solid-phase radioimmunoassays and intact cell-binding assays confirmed retention of bioactivity. Biodistribution studies in athymic nude mice bearing s.c. neuroblastoma (IMR-6, NMB-7) and melanoma (M21) xenografts showed that 15-20% of the injected dose per gram accumulated in the tumor at 24 hours after injection, and only 5-10% of the injected dose accumulated in the liver, a lower value than typically seen with other chelators. Uptake by a GD2-negative tumor xenograft was significantly lower (<5% injected dose per gram). MicroPET imaging confirmed significant uptake of the tracer in GD-2-positive tumors, with minimal uptake in GD-2-negative tumors and nontarget tissues such as liver. The 64 Cu-SarAr-mAb system described here is potentially applicable to 64 Cu-PET imaging with a broad range of antibody or peptide-based imaging agents.

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Section: Discussionsupporting

confidence: 70%

Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

“…Smith et al (13) have recently developed a derivative of the diamsar ligand, SarAr (Fig. 1), which incorporates an aromatic amine into the cage periphery.…”

mentioning

confidence: 99%

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Positron emission tomography (PET) imaging of neuroblastoma and melanoma with ⁶⁴ Cu-SarAr immunoconjugates

Voss¹,

Smith

DiBartolo

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

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121

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“…We also included 2-benzyl-3-methylisothiocyanato-diethylenetriaminepentaaceticacid (2B3M-ITC-DTPA) and a sarcophagine ligand, (1-NH 2 -8-NHCO(CH 2 ) 3 CO 2 H)sar where sar = sarcophagine = 3,6,10,13,16,19-hexaazabicyclo[6.6.6]icosane (sar-CO 2 H) 45,46 . Encapsulating hexaamine sarcophagine ligands, first prepared by Sargeson and coworkers [47][48][49][50][51] , form extraordinary stable complexes with copper(II) and benefit from rapid complexation rates 52,53 . Methods have been developed to introduce reactive functional groups to the ligand framework [54][55][56] , to allow the ligands to be conjugated to peptides and antibodies with a goal of synthesizing copper radiopharmaceuticals that benefit from the special properties of sarcophagine ligands 21,45,46,[57][58][59][60][61] .…”

Section: Introductionmentioning

confidence: 99%

Comparison of ⁶⁴Cu-Complexing Bifunctional Chelators for Radioimmunoconjugation: Labeling Efficiency, Specific Activity, and in Vitro/in Vivo Stability

et al. 2012

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High radiolabeling efficiency, preferably to high specific activity, and good stability of the radioimmunoconjugate are essential features for a successful immunoconjugate for imaging or therapy. In this study, the radiolabeling efficiency, in vitro stability and biodistribution of immunoconjugates with eight different bifunctional chelators labeled with 64 Cu were compared. The anti-CD20 antibody, rituximab, was conjugated to four macrocyclic bifunctional chelators (p-SCN-Bn-DOTA, p- , three DTPA derivatives (p-SCN-Bn-DTPA, p-SCN-CHX-A"-DTPA and ITC-2B3M-DTPA) and a macrobicyclic hexamine ("sarcophagine") chelator (sar-CO 2 H) = (1-NH 2 -8-NHCO(CH 2 ) 3 CO 2 H)sar where sar = sarcophagine = 3, 6,10,13,16,19-hexaazabicyclo[6.6.6]icosane). Radiolabeling efficiency under various conditions, in vitro stability in serum at 37°C and in vivo biodistribution and imaging in normal mice over 48 h were studied. All chelators except sar-CO 2 H were conjugated to rituximab by thiourea bond formation with an average of 4.9 +/− 0.9 chelators per antibody molecule. Sar-CO 2 H was conjugated to rituximab by amide bond formation with 0.5 chelators per antibody molecule. Efficiencies of 64 Cu radiolabeling were dependent on the concentration of immunoconjugate. Notably, the 64 Cu-NOTA-rituximab conjugate demonstrated highest radiochemical yield (95%) under very dilute conditions (31 nM NOTA-rituximab conjugate). Similarly, sar-CO-rituximab, containing 1/10 th the number of chelators per antibody compared to other conjugates retained high labeling efficiency (98 %) at an antibody concentration of 250 nM. In contrast to the radioimmunoconjugates containing DTPA derivatives, which demonstrated poor serum stability, all macrocyclic radioimmunoconjugates were very stable in serum with <6 % dissociation of 64 Cu over 48 h. In vivo biodistribution profiles in normal female Balb/C mice were similar for all the macrocyclic radioimmunoconjugates with most of the activity remaining in the blood pool up to 48 h. Whilst all the macrocyclic bifunctional chelators are suitable for molecular imaging using 64 Cu-labeled antibody conjugates, NOTA and sar-CO 2 H show significant advantages over the others in that they can be radiolabeled rapidly at room temperature, under dilute conditions resulting in high specific activity. Europe PMC Funders Group

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Metal‐Based Imaging Agents

Francesconi¹,

Cantorias²,

Howell³

2005

Encyclopedia of Inorganic Chemistry

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Radiopharmaceuticals are drugs that contain a radionuclide and are routinely used for diagnosis and treatment of disease. This review discusses imaging agents that are useful for diagnosis using Single Photon Emission Computed Tomography (SPECT) and Positron Emission Tomography (PET). Moreover, this entry focuses on the growing class of metal‐based imaging agents, wherein the radionuclide is a transition metal or posttransition metal. The most widely used radionuclide for radiopharmaceuticals is technetium‐99m, 99m Tc, owing its widespread availability from the parent–daughter generator and its excellent physical properties for imaging. The radionuclides 67 Ga, 111 In, 210 Tl, 57 Co, and 51 Cr are used in the clinic as well. There are a number of radioisotopes, including 64 Cu, 67 Cu, 68 Ga, that show promise for diagnostic purposes. An increased understanding of the coordination chemistry of 99m Tc and other radiometals resulted in first‐generation metal‐essential imaging agents. This understanding of coordination chemistry is responsible for the introduction and development of targeted receptor‐specific agents, many of which are in clinical trials and some of which are on the market.

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Synthesis of a new cage ligand, SarAr, and its complexation with selected transition metal ions for potential use in radioimaging†

Cited by 138 publications

References 16 publications

Positron emission tomography (PET) imaging of neuroblastoma and melanoma with ⁶⁴ Cu-SarAr immunoconjugates

Positron emission tomography (PET) imaging of neuroblastoma and melanoma with ⁶⁴ Cu-SarAr immunoconjugates

Comparison of ⁶⁴Cu-Complexing Bifunctional Chelators for Radioimmunoconjugation: Labeling Efficiency, Specific Activity, and in Vitro/in Vivo Stability

Metal‐Based Imaging Agents

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Synthesis of a new cage ligand, SarAr, and its complexation with selected transition metal ions for potential use in radioimaging†

Cited by 138 publications

References 16 publications

Positron emission tomography (PET) imaging of neuroblastoma and melanoma with 64 Cu-SarAr immunoconjugates

Positron emission tomography (PET) imaging of neuroblastoma and melanoma with 64 Cu-SarAr immunoconjugates

Comparison of 64Cu-Complexing Bifunctional Chelators for Radioimmunoconjugation: Labeling Efficiency, Specific Activity, and in Vitro/in Vivo Stability

Metal‐Based Imaging Agents

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Positron emission tomography (PET) imaging of neuroblastoma and melanoma with ⁶⁴ Cu-SarAr immunoconjugates

Positron emission tomography (PET) imaging of neuroblastoma and melanoma with ⁶⁴ Cu-SarAr immunoconjugates

Comparison of ⁶⁴Cu-Complexing Bifunctional Chelators for Radioimmunoconjugation: Labeling Efficiency, Specific Activity, and in Vitro/in Vivo Stability