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4. List of Contributors

Author

Abtahi, S., primary, Balconi, M., additional, Batra, V., additional, Baumgartner, H.M., additional, Bittencourt, L.O., additional, Bon, E.I., additional, Brolese, G., additional, Brooks, S.J., additional, Bukiya, A.N., additional, Camarini, R., additional, Cartágenes, S.C., additional, Cavalcanti Galdino, M.K., additional, Clifford, J., additional, Crutcher, C.L., additional, Currie, P.J., additional, de Andrade, E. Fontes, additional, da Silva, J.A., additional, de Oliveira, A.C.A., additional, Dodson, K., additional, Dopico, A.M., additional, dos Santos, N.A., additional, Fattore, L., additional, Fernandes, L.M.P., additional, Fernandes, R.M., additional, Finocchiaro, R., additional, Garling, E.E., additional, Gerlai, R., additional, Gonçalves, C.-A., additional, González-Reimers, E., additional, Guerri, C., additional, Gursky, Z.H., additional, Hauser, S.R., additional, Ipser, J., additional, Isomura, T., additional, Janeczek, P., additional, Kaiser, J., additional, Kano, M., additional, Klintsova, A.Y., additional, Langi, G., additional, Leão, L.K.R., additional, Lewohl, J.M., additional, Lima, R.R., additional, Lobo Torres, L.H., additional, Lopes, F., additional, Lunardi, P., additional, Maia, C.S.F., additional, Marcourakis, T., additional, Marin, M.T., additional, Martín-González, M.C., additional, McBride, W.J., additional, Melo, A.S., additional, Meyerhoff, D.J., additional, Monteiro, M.C., additional, Morais-Silva, G., additional, Murai, T., additional, Naumer, M.J., additional, Pascual, M., additional, Pastor, R., additional, Phedina, K.M., additional, Pinheiro, B.G., additional, Pla, A., additional, Prediger, R.D., additional, Prom-Wormley, E., additional, Puty, B., additional, Quintero-Platt, G., additional, Real, J., additional, Rodd, Z.A., additional, Romero-Acevedo, L., additional, Sachs, B.D., additional, Sahota, P., additional, Santolaria-Fernández, F., additional, Santos, D.P., additional, Schrager, M.A., additional, Sharma, R., additional, Stein, D.J., additional, Tamborelli Garcia, R.C., additional, Teixeira, F.B., additional, Tender, G.C., additional, Thakkar, M.M., additional, Tran, S., additional, Veith, J., additional, Vieira, K.L., additional, Wilden, J.A., additional, Yalachkov, Y., additional, Zallar, L.J., additional, Zanda, M.T., additional, Zheng, W.B., additional, and Zimatkin, S.M., additional

Published
2017
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16. Al(18) F labeling of peptides and proteins

Author

Laverman, P., McBride, W.J., Sharkey, R.M., Goldenberg, D.M., and Boerman, O.C.

Subjects
Nanomedicine Radboud Institute for Health Sciences [Radboudumc 19], Nanomedicine Radboud Institute for Molecular Life Sciences [Radboudumc 19]
Abstract

Item does not contain fulltext Radiolabeled receptor-binding peptides and proteins have emerged as an important class of radiopharmaceuticals that have changed radionuclide imaging in clinical practice. Many strategies have been developed to radiolabel these peptide and proteins with fluorine-18. The majority of these methods is time-consuming and suffer from low yields. A more straightforward approach was proposed a few years ago, based on the chelation of aluminum fluoride by (1,4,7-triazacyclononane-1,4,7-triacetic acid). This approach has been optimized with regard to labeling yield and specific activity. In addition, crystallography studies have led to the design of optimized chelators. Subsequently, the Al(18) F technology is finding widespread use in labeling peptides and proteins. Various hapten peptides for pre-targeting studies have been labeled with Al(18) F, as well as αv β3 integrin-binding peptides have been studied, and also larger peptides, such as exendin-4 and affibody molecules and heat-labile proteins have been labeled with Al(18) F. Here, we summarize the development, optimization, and applications of the Al(18) F labeling technology.

Published
2014
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17. Imaging integrin alpha-v-beta-3 expression in tumors with an 18F-labeled dimeric RGD peptide

Author

Dijkgraaf, I., Terry, S.Y.A., McBride, W.J., Goldenberg, D.M., Laverman, P., Franssen, G.M., Oyen, W.J.G., and Boerman, O.C.

Subjects
Translational research [ONCOL 3], Translational research Immune Regulation [ONCOL 3], Translational research Pathogenesis and modulation of inflammation [ONCOL 3]
Abstract

Contains fulltext : 118587.pdf (author's version ) (Open Access) Integrin alphav beta3 receptors are expressed on activated endothelial cells during neovascularization to maintain tumor growth. Many radiolabeled probes utilize the tight and specific association between the arginine-glycine-aspartatic acid (RGD) peptide and integrin alphav beta3 , but one main obstacle for any clinical application of these probes is the laborious multistep radiosynthesis of (18)F. In this study, the dimeric RGD peptide, E-[c(RGDfK)]2, was conjugated with NODAGA and radiolabeled with (18)F in a simple one-pot process with a radiolabeling yield of 20%, the whole process lasting only 45 min. NODAGA-E-[c(RGDfK)]2 labeled with (18)F at a specific activity of 1.8 MBq nmol(-1) and a radiochemical purity of 100% could be achieved. The logP value of (18)F-labeled NODAGA-E-[c(RGDfK)]2 was -4.26 +/- 0.02. In biodistribution studies, (18)F-NODAGA-E-[c(RGDfK)]2 cleared rapidly from the blood with 0.03 +/- 0.01 percentage injected dose per gram (%ID g(-1)) in the blood at 2 h p.i., mainly via the kidneys, and showed good in vivo stability. Tumor uptake of (18)F-NODAGA-E-[c(RGDfK)]2 (3.44 +/- 0.20 %ID g(-1), 2 h p.i.) was significantly lower than that of reference compounds (68) Ga-labeled NODAGA-E-[c(RGDfK)]2 (6.26 +/- 0.76 %ID g(-1) ; p

Published
2013

18. Preventing Radiobleaching of Cyanine Fluorophores Enhances Stability of Nuclear/NIRF Multimodality Imaging Agents

Author

Hernandez, R., Heskamp, S., Rijpkema, M.J.P., Bos, D.L., Goldenberg, D.M., McBride, W.J., Morgenstern, A., Bruchertseifer, F., Cai, W., Boerman, O.C., Hernandez, R., Heskamp, S., Rijpkema, M.J.P., Bos, D.L., Goldenberg, D.M., McBride, W.J., Morgenstern, A., Bruchertseifer, F., Cai, W., and Boerman, O.C.

Abstract

Contains fulltext : 173129.pdf (publisher's version ) (Open Access), Despite the large interest in nuclear/optical multimodality imaging, the effect of radiation on the fluorescence of fluorophores remains largely unexplored. Herein, we report on the radiobleaching of cyanine fluorophores and describe conditions to provide robust radioprotection under practical (pre)clinical settings. We determined the radiosensitivity of several cyanine fluorescent compounds, including IRDye 800CW (800CW) and a dual modality imaging tetrapeptide containing DOTA as chelator and Dylight 800 as fluorophore, exposed to increasing activities of 111In, 68Ga, or 213Bi (gamma, EC/beta, and alpha emitter, respectively). An activity and type of radiation-dependent radiation-induced loss of fluorescence, radiobleaching, of 800CW was observed upon incubation with escalating activities of 111In, 68Ga, or 213Bi. 68Ga showed the largest radiolytic effect, followed by 111In and 213Bi. The addition of oxygen radical scavengers including ethanol, gentisic acid, and ascorbic acid (AA), provided a concentration dependent radioprotective effect. These results supported the hypothesis of a free radical-mediated radiobleaching mechanism. AA provided the most robust radioprotection over a wide range of concentrations and preserved fluorescence at much higher radioactivity levels. Overall, both near-infrared fluorescent compounds displayed similar sensitivity, except for 213Bi-irradiated solutions, where the dual modality construct exhibited enhanced radiolysis, presumably due to direct radiation damage from alpha particles. Concurrently, AA was not able to preserve fluorescence of the dual-modality molecule labeled with 213Bi. Our findings have important consequences for several research areas including ROS sensing, radiation-mediated drug release (uncaging), fluorescent dosimetry, and in the preparation of dual-modality radiopharmaceuticals.

Published
2017

19. alpha- Versus beta-Emitting Radionuclides for Pretargeted Radioimmunotherapy of Carcinoembryonic Antigen-Expressing Human Colon Cancer Xenografts

Author

Heskamp, S., Hernandez, R., Molkenboer-Kuenen, J.D., Essler, M., Bruchertseifer, F., Morgenstern, A., Steenbergen, E.J., Cai, W., Seidl, C., McBride, W.J., Goldenberg, D.M., Boerman, O.C., Heskamp, S., Hernandez, R., Molkenboer-Kuenen, J.D., Essler, M., Bruchertseifer, F., Morgenstern, A., Steenbergen, E.J., Cai, W., Seidl, C., McBride, W.J., Goldenberg, D.M., and Boerman, O.C.

Abstract

Item does not contain fulltext, Pretargeted radioimmunotherapy (PRIT) with the beta-emitting radionuclide 177Lu is an attractive approach to treat carcinoembryonic antigen (CEA)-expressing tumors. The therapeutic efficacy of PRIT might be improved using alpha-emitting radionuclides such as 213Bi. Herein, we report and compare the tumor-targeting properties and therapeutic efficacy of 213Bi and 177Lu for PRIT of CEA-expressing xenografts, using the bispecific monoclonal antibody TF2 (anti-CEA x anti-histamine-succinyl-glycine [HSG]) and the di-HSG-DOTA peptide IMP288. Methods: The in vitro binding characteristics of 213Bi-IMP288 were compared with those of 177Lu-IMP288. Tumor targeting of 213Bi-IMP288 and 177Lu-IMP288 was studied in mice bearing subcutaneous LS174T tumors that were pretargeted with TF2. Finally, the effect of 213Bi-IMP288 (6, 12, or 17 MBq) and 177Lu-IMP288 (60 MBq) on tumor growth and survival was assessed. Toxicity was determined by monitoring body weight, analyzing blood samples for hematologic and renal toxicity (hemoglobin, leukocytes, platelets, creatinine), and immunohistochemical analysis of the kidneys. Results: The in vitro binding characteristics of 213Bi-IMP288 (dissociation constant, 0.45 +/- 0.20 nM) to TF2-pretargeted LS174T cells were similar to those of 177Lu-IMP288 (dissociation constant, 0.53 +/- 0.12 nM). In vivo accumulation of 213Bi-IMP288 in LS174T tumors was observed as early as 15 min after injection (9.2 +/- 2.0 percentage injected dose [%ID]/g). 213Bi-IMP288 cleared rapidly from the circulation; at 30 min after injection, the blood levels were 0.44 +/- 0.28 %ID/g. Uptake in normal tissues was low, except for the kidneys, where uptake was 1.8 +/- 1.1 %ID/g at 30 min after injection. The biodistribution of 213Bi-IMP288 was comparable to that of 177Lu-IMP288. Mice treated with a single dose of 213Bi-IMP288 or 177Lu-IMP288 showed significant inhibition of tumor growth. Median survival for the groups treated with phosphate-buffered saline, 6 MBq 213Bi-IMP288

Published
2017

21. Pretargeted immuno-PET of CEA-expressing intraperitoneal human colonic tumor xenografts: a new sensitive detection method

Author

Schoffelen, R., Graaf, W.T.A. van der, Sharkey, R.M., Franssen, G.M., McBride, W.J., Chang, C.H., Laverman, P., Goldenberg, D.M., Oyen, W.J.G., and Boerman, O.C.

Subjects
Translational research [ONCOL 3], Translational research Immune Regulation [ONCOL 3], Age-related aspects of cancer Quality of hospital and integrated care [ONCOL 2], Translational research Pathogenesis and modulation of inflammation [ONCOL 3]
Abstract

Contains fulltext : 109142.pdf (Publisher’s version ) (Open Access) ABSTRACT: BACKGROUND: In this study, pretargeted immuno-positron-emission tomography [PET] with a bispecific monoclonal anti-carcinoembryonic antigen [CEA] (CEACAM5) x anti-hapten antibody (bispecific monoclonal antibody [bsmAb]) and a small (1.5 kD) peptide labeled with 68Ga was compared to fludeoxyglucose [18F-FDG]-PET for detecting intraperitoneal [i.p.] CEA-expressing human colonic tumor xenografts in nude mice. METHODS: Two groups of female BALB/c nude mice were inoculated with LS174T human colonic tumor cells i.p. One group received 5 MBq 18F-FDG, and the other received intravenous injections of the bsmAb, followed 16 h later with 5 MBq of 68Ga-labeled peptide. One hour after the radiolabeled peptide or FDG was given, micro-PET/computed tomography images were acquired. Thereafter, the uptake of the 68Ga or 18F in dissected tissue was determined. RESULTS: Within 1 h, high uptake of the 68Ga-labeled peptide in the tumor lesions (23.4 +/- 7.2% ID/g) and low background activity levels were observed (e.g., tumor-to-intestine ratio, 58 +/- 22). This resulted in a clear visualization of all intra-abdominal tumor lesions >/= 10 muL and even some tumors as small as 5 muL (2 mm diameter). 18F-FDG efficiently localized in the tumors (8.7 +/- 3.1% ID/g) but also showed physiological uptake in various normal tissues (e.g., tumor-to-intestine ratio, 3.9 +/- 1.1). CONCLUSIONS: Pretargeted immuno-PET with bsmAb and a 68Ga-labeled peptide could be a very sensitive imaging method for imaging colonic cancer, disclosing occult lesions.

Published
2012

22. Pretargeted immunoPET of prostate cancer with an anti-TROP-2 x anti-HSG bispecific antibody in mice with PC3 xenografts

Author

Rij, C.M. van, Frielink, C., Goldenberg, D.M., Sharkey, R.M., Franssen, G.M., Lutje, S., McBride, W.J., Oyen, W.J.G., Boerman, O.C., Rij, C.M. van, Frielink, C., Goldenberg, D.M., Sharkey, R.M., Franssen, G.M., Lutje, S., McBride, W.J., Oyen, W.J.G., and Boerman, O.C.

Abstract

Contains fulltext : 153713.pdf (publisher's version ) (Closed access), PURPOSE: Pretargeting with bispecific antibodies and radiolabeled hapten-peptides could be used to specifically target tumors with high target-to-background ratios. TF12 is a trivalent bispecific antibody that consists of two anti-TROP-2 Fab fragments and one anti-HSG (histamine-succinyl-glycine) Fab fragment. The TROP-2 antigen is expressed in many epithelial cancers, including prostate cancer (PC), and therefore, this bispecific antibody can be used for pretargeting of PC. In this study, the potential for pretargeted radioimmunoPET with TF12 and the (68)Ga-labeled di-HSG peptide IMP288 in mice with human PC xenografts was investigated using 2-deoxy-2-[(18)F]fluoro-D-glucose ([(18)F]FDG) as a reference. PROCEDURES: The potential of pretargeted immunoPET with TF12 and the (68)Ga-labeled di-HSG hapten-peptide, IMP288, was studied in mice with subcutaneous PC3 tumors using [(18)F]FDG as a reference. Furthermore, the use of this pretargeting system for imaging PC lesions was evaluated in mice with intraperitoneally growing tumors with [(18)F]FDG as a reference. RESULTS: [(68)Ga]lMP288 showed rapid accumulation in the TF12 pretargeted subcutaneous tumor (7.2 +/- 1.1 % ID/g) with low uptake in the kidneys (1.8 +/- 0.5 % ID/g) and high tumor-to-blood ratios (17.4 +/- 11.2) at 1 h p.i. Accumulation of [(18)F]FDG in the s.c. tumors was significantly lower (3.4 +/- 0.9 % ID/g, P = 0.008), with lower tumor-to-blood ratios (3.0 +/- 1.9, P = 0.011). ImmunoPET/CT images clearly visualized both subcutaneous and intraperitoneal tumors as small as 5 mm(3) with low blood levels and kidney uptake as early as 1 h p.i. CONCLUSION: Pretargeted immunoPET with TF12 in combination with a (68)Ga-labeled hapten-peptide is an efficient system for rapid, sensitive, and specific imaging of prostate cancer.

Published
2015

24. Predictive patient-specific dosimetry and individualized dosing of pretargeted radioimmunotherapy in patients with advanced colorectal cancer

Author

Schoffelen, R., Weg, W. van de, Visser, E.P., Goldenberg, D.M., Sharkey, R.M., McBride, W.J., Chang, C.-H., Rossi, E.A., Graaf, W.T.A. van der, Oyen, W.J.G., Boerman, O.C., Schoffelen, R., Weg, W. van de, Visser, E.P., Goldenberg, D.M., Sharkey, R.M., McBride, W.J., Chang, C.-H., Rossi, E.A., Graaf, W.T.A. van der, Oyen, W.J.G., and Boerman, O.C.

Abstract

Item does not contain fulltext, Pretargeted radioimmunotherapy (PRIT) with bispecific antibodies (bsMAb) and a radiolabeled peptide reduces the radiation dose to normal tissues. Here we report the accuracy of an (111)In-labeled pretherapy test dose for personalized dosing of (177)Lu-labeled IMP288 following pretargeting with the anti-CEA × anti-hapten bsMAb, TF2, in patients with metastatic colorectal cancer (CRC).In 20 patients bone marrow absorbed doses (BMD) and doses to the kidneys were predicted based on blood samples and scintigrams acquired after (111)In-IMP288 injection for individualized dosing of PRIT with (177)Lu-IMP288. Different dose schedules were studied, varying the interval between the bsMAb and peptide administration (5 days vs. 1 day), increasing the bsMAb dose (75 mg vs. 150 mg), and lowering the peptide dose (100 μg vs. 25 μg).TF2 and (111)In/(177)Lu-IMP288 clearance was highly variable. A strong correlation was observed between peptide residence times and individual TF2 blood concentrations at the time of peptide injection (Spearman's ρ = 0.94, P < 0.0001). PRIT with 7.4 GBq (177)Lu-IMP288 resulted in low radiation doses to normal tissues (BMD <0.5 Gy, kidney dose <3 Gy). Predicted (177)Lu-IMP288 BMD were in good agreement with the actual measured doses (mean ± SD difference -0.0026 ± 0.028 mGy/MBq). Hematological toxicity was mild in most patients, with only two (10 \%) having grade 3-4 thrombocytopenia. A correlation was found between platelet toxicity and BMD (Spearman's ρ = 0.58, P = 0.008). No nonhematological toxicity was observed.These results show that individual high activity doses in PRIT in patients with CEA-expressing CRC could be safely administered by predicting the radiation dose to red marrow and kidneys, based on dosimetric analysis of a test dose of TF2 and (111)In-IMP288.

Published
2014

25. Preclinical Comparison of Al18F- and 68Ga-Labeled Gastrin-Releasing Peptide Receptor Antagonists for PET Imaging of Prostate Cancer

Author

Chatalic, K.L.S., Franssen, G.M., Weerden, W.M. van, McBride, W.J., Laverman, P., Blois, E. de, Hajjaj, B., Brunel, L., Goldenberg, D.M., Fehrentz, J.-A., Martinez, J., Boerman, O.C., Jong, M. de, Chatalic, K.L.S., Franssen, G.M., Weerden, W.M. van, McBride, W.J., Laverman, P., Blois, E. de, Hajjaj, B., Brunel, L., Goldenberg, D.M., Fehrentz, J.-A., Martinez, J., Boerman, O.C., and Jong, M. de

Abstract

Item does not contain fulltext, Gastrin-releasing peptide receptor (GRPR) is overexpressed in human prostate cancer and is being used as a target for molecular imaging. In this study, we report on the direct comparison of 3 novel GRPR-targeted radiolabeled tracers: Al(18)F-JMV5132, (68)Ga-JMV5132, and (68)Ga-JMV4168 (JMV5132 is NODA-MPAA-βAla-βAla-[H-ᴅ-Phe-Gln-Trp-Ala-Val-Gly-His-Sta-Leu-NH2], JMV4168 is DOTA-βAla-βAla-[H-ᴅ-Phe-Gln-Trp-Ala-Val-Gly-His-Sta-Leu-NH2], and NODA-MPAA is 2-[4-(carboxymethyl)-7-{[4-(carboxymethyl) phenyl]methyl}-1,4,7-triazacyclononan-1-yl]acetic acid).The GRPR antagonist JMV594 (H-ᴅ-Phe-Gln-Trp-Ala-Val-Gly-His-Sta-Leu-NH2) was conjugated to NODA-MPAA for labeling with Al(18)F. JMV5132 was radiolabeled with (68)Ga and (18)F, and JMV4168 was labeled with (68)Ga for comparison. The inhibitory concentration of 50\% values for binding GRPR of JMV4168, JMV5132, (nat)Ga-JMV4168, and (nat)Ga-JMV5132 were determined in a competition-binding assay using GRPR-overexpressing PC-3 tumors. The tumor-targeting characteristics of the compounds were assessed in mice bearing subcutaneous PC-3 xenografts. Small-animal PET/CT images were acquired, and tracer biodistribution was determined by ex vivo measurements.JMV5132 was labeled with (18)F in a novel 1-pot, 1-step procedure within 20 min, without need for further purification and resulting in a specific activity of 35 MBq/nmol. Inhibitory concentration of 50\% values (in nM) for GRPR binding of JMV5132, JMV4168, (nat)Ga-JMV5132, (nat)Ga-JMV4168, and Al(18)F-JMV5132 were 6.8 (95\% confidence intervals [CIs], 4.6-10.0), 13.2 (95\% CIs, 5.9-29.3), 3.0 (95\% CIs, 1.5-6.0), 3.2 (95\% CIs, 1.8-5.9), and 10.0 (95\% CIs, 6.3-16.0), respectively. In mice with subcutaneous PC-3 xenografts, all tracers cleared rapidly from the blood, exclusively via the kidneys for (68)Ga-JMV4168 and partially hepatobiliary for (68)Ga-JMV5132 and Al(18)F-JMV5132. Two hours after injection, the uptake of (68)Ga-JMV4168, (68)Ga-JMV5132, and Al(18)F-JMV5132 in PC-3 t

Published
2014

26. Pretargeted dual-modality immuno-SPECT and near-infrared fluorescence imaging for image-guided surgery of prostate cancer

Author

Lütje, S., Rijpkema, M.J.P., Goldenberg, D.M., Rij, C.M. van, Sharkey, R.M., McBride, W.J., Franssen, G.M., Frielink, C., Helfrich, W., Oyen, W.J.G., Boerman, O.C., Lütje, S., Rijpkema, M.J.P., Goldenberg, D.M., Rij, C.M. van, Sharkey, R.M., McBride, W.J., Franssen, G.M., Frielink, C., Helfrich, W., Oyen, W.J.G., and Boerman, O.C.

Abstract

Item does not contain fulltext, Radical removal of malignant lesions may be improved using tumor-targeted dual-modality probes that contain both a radiotracer and a fluorescent label to allow for enhanced intraoperative delineation of tumor resection margins. Because pretargeting strategies yield high signal-to-background ratios, we evaluated the feasibility of a pretargeting strategy for intraoperative imaging in prostate cancer using an anti-TROP-2 x anti-HSG bispecific antibody (TF12) in conjunction with the dual-labeled diHSG peptide (RDC018) equipped with both a DOTA chelate for radiolabeling purposes and a fluorophore (IRdye800CW) to allow near-infrared optical imaging. Nude mice implanted s.c. with TROP-2-expressing PC3 human prostate tumor cells or with PC3 metastases in the scapular and suprarenal region were injected i.v. with 1 mg of TF12 and, after 16 hours of tumor accumulation and blood clearance, were subsequently injected with 10 MBq, 0.2 nmol/mouse of either (111)In-RDC018 or (111)In-IMP288 as a control. Two hours after injection, both microSPECT/CT and fluorescence images were acquired, both before and after resection of the tumor nodules. After image acquisition, the biodistribution of (111)In-RDC018 and (111)In-IMP288 was determined and tumors were analyzed immunohistochemically. The biodistribution of the dual-label RDC018 showed specific accumulation in the TROP-2-expressing PC3 tumors (12.4 +/- 3.7% ID/g at 2 hours postinjection), comparable with (111)In-IMP288 (9.1 +/- 2.8% ID/g at 2 hours postinjection). MicroSPECT/CT and near-infrared fluorescence (NIRF) imaging confirmed this TROP-2-specific uptake of the dual-label (111)In-RDC018 in both the s.c. and metastatic growing tumor model. In addition, PC3 metastases could be visualized preoperatively with SPECT/CT and could subsequently be resected by image-guided surgery using intraoperative NIRF imaging, showing the preclinical feasibility of pretargeted dual-modality imaging approach in prostate cancer.

Published
2014

27. Anti-CEA Antibody Fragments Labeled with [(18)F]AlF for PET Imaging of CEA-Expressing Tumors

Author

Lütje, S., Franssen, G.M., Sharkey, R.M., Laverman, P., Rossi, E.A., Goldenberg, D.M., Oyen, W.J.G., Boerman, O.C., McBride, W.J., Lütje, S., Franssen, G.M., Sharkey, R.M., Laverman, P., Rossi, E.A., Goldenberg, D.M., Oyen, W.J.G., Boerman, O.C., and McBride, W.J.

Abstract

Item does not contain fulltext, A facile and rapid method to label peptides with (18)F based on chelation of [(18)F]AlF has been developed recently. Since this method requires heating to 100 °C, it cannot be used to label heat-sensitive proteins. Here, we used a two-step procedure to prepare (18)F-labeled heat-labile proteins using the [(18)F]AlF method based on hot maleimide conjugation. 1,4,7-Triazacyclononae-1,4-diacetate (NODA) containing a methyl phenylacetic acid group (MPA) functionalized with N-(2-aminoethyl)maleimide (EM) was used as a ligand which was labeled with [(18)F]AlF and then conjugated to the humanized anti-CEA antibody derivatives hMN-14-Fab', hMN-14-(scFv)2 (diabody), and a Dock-and-Lock engineered dimeric fragment hMN-14 Fab-AD2 at room temperature. The in vivo tumor targeting characteristics of the (18)F-labeled antibody derivatives were determined by PET imaging of mice with s.c. xenografts. NODA-MPAEM was radiolabeled with [(18)F]AlF at a specific activity of 29-39 MBq/nmol and a labeling efficiency of 94 ± 2\%. The labeling efficiencies of the maleimide conjugation ranged from 70\% to 77\%, resulting in [(18)F]AlF-labeled hMN14-Fab', hMN14-Fab-AD2, or hMN14-diabody with a specific activity of 15-17 MBq/nmol. The radiolabeled conjugates were purified by gel filtration. For biodistribution and microPET imaging, antibody fragments were injected intravenously into BALB/c nude mice with s.c. CEA-expressing LS174T xenografts (right flank) and CEA-negative SK-RC-52 xenografts (left flank). All [(18)F]AlF-labeled conjugates showed specific uptake in the LS174T xenografts with a maximal tumor uptake of 4.73\% ID/g at 4 h after injection. Uptake in CEA-negative SK-RC-52 xenografts was significantly lower. Tumors were clearly visualized on microPET images. Using a [(18)F]AlF-labeled maleimide functionalized chelator, antibody fragments could be radiofluorinated within 4 h at high specific activity. Here, we translated this method to preclinical PET imaging studies and showed feasibi

Published
2014

28. Pretargeted Radioimmunotherapy of Prostate Cancer with an Anti-TROP-2$$Anti-HSG Bispecific Antibody and a (177)Lu-Labeled Peptide

Author

Rij, C.M. van, Frielink, C., Goldenberg, D.M., Sharkey, R.M., Lutje, S., McBride, W.J., Oyen, W.J., Boerman, O.C., Rij, C.M. van, Frielink, C., Goldenberg, D.M., Sharkey, R.M., Lutje, S., McBride, W.J., Oyen, W.J., and Boerman, O.C.

Abstract

Item does not contain fulltext, TROP-2 is a pancarcinoma marker that is expressed at high levels in many epithelial cancers, including prostate cancer (PC). The trivalent bispecific antibody TF12 (anti-TROP2×anti-HSG [histamine-succinyl-glycine]) has shown to effectively target PC. In this study, the efficacy of pretargeted radioimmunotherapy (PRIT) with multiple cycles of TF12 and (177)Lu-labeled diHSG-peptide (IMP288) in mice with s.c. PC3 tumors was investigated and compared with that of conventional RIT with (177)Lu-labeled anti-TROP-2 mAb hRS7.The potential of one, two, and three cycles of PRIT using the TF12 pretargeted (177)Lu-IMP288 (41 MBq per cycle) was determined in mice with s.c. PC3 tumors, and compared with the efficacy and toxicity of RIT with (177)Lu-hRS7 dosed at the maximum tolerated dose (11 MBq).PRIT of two and three cycles showed significantly higher median survival (>150 days) compared with PRIT of one cycle of TF12 and (177)Lu-IMP288 (111 days, p<0.001) or the controls (76 days, p<0.0001). All mice treated with the mAb (177)Lu-hRS7 survived at the end of the experiment (150 days), compared with 80\% in the mice that were treated with three cycles of PRIT and 70\% in the group that received two cycles of PRIT. Clinically significant hematologic toxicity was found only in the groups that received either three cycles of PRIT (p<0.0009) or RIT (p<0.0001).TROP-2-expressing PC can be targeted efficiently with TF12 and radiolabeled IMP288. (177)Lu-IMP288 accumulated rapidly in the tumors. PRIT of multiple cycles inhibited the growth of s.c. PC3 tumors. Clinically relevant hematological toxicity was observed in the group that received three cycles of PRIT; however, conventional RIT with the parent mAb (177)Lu-hRS7 was at least as effective with similar toxicity.

Published
2014

29. Pretargeting with labeled bivalent peptides allowing the use of four radionuclides: (111)In, (131)I, (99m)Tc, and (188)Re

Author

Schaijk, F. van, Oosterwijk, E., Soede, A.C., Oyen, W.J.G., McBride, W.J., Griffiths, G.L., Goldenberg, D.M., Corstens, F.H.M., and Boerman, O.C.

Subjects
Immunotherapy, gene therapy and transplantation [UMCN 1.4]
Abstract

Item does not contain fulltext PURPOSE: The therapeutic effect of directly labeled antibodies in solid tumors is limited, mainly due to the relatively low uptake of the radiolabeled antibody in tumors as compared with their blood level. In previous studies, we have shown that renal cell carcinoma (RCC) can be targeted very effectively with the (111)In-labeled bivalent peptide di-diethylenetriamminepentaacetic acid diDTPA-FKYK, after pretargeting the tumor with a bispecific antibody. In this study, we further developed this pretargeting approach for radioimmunotherapy of renal cell cancer. EXPERIMENTAL DESIGN: Pretargeting with the biologically produced anti-RCC x anti-DTPA bispecific monoclonal antibody (bsMAb G250xDTIn1) was tested in mice with SK-RC-52 RCC tumors. Tumors were pretargeted with 15 micro g of bispecific monoclonal antibody G250xDTIn1, and 24 h later, mice received 6 ng of the radiolabeled bivalent peptide. Two different peptides were used: (a) diDTPA-FKYK labeled with (111)In or (131)I; and (b) thiosemicarbonylglyoxylcysteinyl-diDTPA(In)-KYKK labeled with (99m)Tc or (188)Re. Mice were killed 6, 24, 48, and 72 h postinjection (p.i.), and biodistribution of the radiolabel was determined. RESULTS: The (111)In-labeled peptide showed excellent tumor uptake [42.6 +/- 7.3% injected dose/gram (ID/g) at 6 h p.i. and 25.6 +/- 7.7% ID/g at 72 h p.i.] and tumor:blood ratios (700 at 72 h p.i.). The specific tumor targeting of (188)Re- and (99m)Tc-labeled peptides was similar (20-25% ID/g, 6 h p.i.). However, the uptake and the retention in the tumor of the (99m)Tc- and (188)Re-labeled peptide were significantly lower than those of the (111)In-labeled peptide. Tumor uptake of the (131)I-labeled peptide was significantly lower as compared with the other three radiolabeled peptides; furthermore, an almost complete washout of the radiolabel from the tumor over time was observed (14.5 +/- 4.9% ID/g at 6 h p.i. and 0.33 +/- 0.15% ID/g at 72 h p.i.). CONCLUSIONS: Using a newly developed bivalent peptide, this pretargeting approach can now be used for targeting with the matched pair (188)Re and (99m)Tc.

Published
2003

31. Development of an imaging-guided CEA-pretargeted radionuclide treatment of advanced colorectal cancer: first clinical results

Author

Schoffelen, R., Boerman, O.C., Goldenberg, D.M., Sharkey, R.M., Herpen, C.M.L. van, Franssen, G.M., McBride, W.J., Chang, C.H., Rossi, E.A., Graaf, W.T.A. van der, Oyen, W.J.G., Schoffelen, R., Boerman, O.C., Goldenberg, D.M., Sharkey, R.M., Herpen, C.M.L. van, Franssen, G.M., McBride, W.J., Chang, C.H., Rossi, E.A., Graaf, W.T.A. van der, and Oyen, W.J.G.

Abstract

Item does not contain fulltext, Background:Radiolabelled antibody targeting of cancer is limited by slow blood clearance. Pretargeting with a non-radiolabelled bispecific monoclonal antibody (bsMAb) followed by a rapidly clearing radiolabelled hapten peptide improves tumour localisation. The primary goals of this first pretargeting study in patients with the anti-CEACAM5 x anti-hapten (HSG) bsMAb, TF2, and the radiolabelled hapten-peptide, IMP288, were to assess optimal pretargeting conditions and safety in patients with metastatic colorectal cancer (CRC).Methods:Different dose schedules were studied in four cohorts of five patients: (1) shortening the interval between the bsMAb and peptide administration (5 days vs 1 day), (2) escalating the TF2 dose (from 75 to 150 mg), and (3) reducing the peptide dose (from 100 to 25 mug). After confirmation of tumour targeting by (111)In-IMP288, patients were treated with a bsMAb/(177)Lu-IMP288 cycle.Results:Rapid and selective tumour targeting of the radiolabelled peptide was visualised within 1 h, with high tumour-to-tissue ratios (>20 at 24 h). Improved tumour targeting was achieved with a 1-day interval between the administration of the bsMAb and the peptide and with the 25-mug peptide dose. High (177)Lu-IMP288 doses (2.5-7.4 GBq) were well tolerated, with some manageable TF2 infusion reactions, and transient grades 3-4 thrombocytopaenia in 10% of the patients who received (177)Lu-IMP288.Conclusion:This phase I study demonstrates for the first time that pretargeting with bsMAb TF2 and radiolabelled IMP288 in patients with CEA-expressing CRC is feasible and safe. With this pretargeting method, tumours are specifically and rapidly targeted.

Published
2013

32. Al18F: A New Standard for Radiofluorination

Author

Goldenberg, D.M., Sharkey, R.M., McBride, W.J., Boerman, O.C., Goldenberg, D.M., Sharkey, R.M., McBride, W.J., and Boerman, O.C.

Abstract

Item does not contain fulltext

Published
2013

33. PET of tumors expressing gastrin-releasing peptide receptor with an 18F-labeled bombesin analog.

Author

Dijkgraaf, I., Franssen, G.M., McBride, W.J., D'Souza, C.A., Laverman, P., Smith, C.J., Goldenberg, D.M., Oyen, W.J.G., Boerman, O.C., Dijkgraaf, I., Franssen, G.M., McBride, W.J., D'Souza, C.A., Laverman, P., Smith, C.J., Goldenberg, D.M., Oyen, W.J.G., and Boerman, O.C.

Abstract

1 juni 2012, Item does not contain fulltext, The gastrin-releasing peptide receptor (GRPR) is overexpressed in human prostate cancer. Bombesin (BBN) is a neurotransmitter of 14 amino acids and binds with selectivity and with high affinity to GRPRs. We have synthesized a NOTA-conjugated bombesin derivative, NOTA-8-Aoc-BBN(7-14)NH(2), to label this analog with (18)F using the new Al(18)F method. In this study, the GRPR-targeting potential of (18)F-labeled NOTA-8-Aoc-BBN(7-14)NH(2) was studied using (68)Ga-NOTA-8-Aoc-BBN(7-14)NH(2) as a reference. METHODS: The NOTA-conjugated bombesin analog was synthesized and radiolabeled with (68)Ga or (18)F. For (18)F labeling, we used our new 1-pot, 1-step method. The labeled product was purified by reversed-phase high-performance liquid chromatography. The log P values of the radiotracers were determined. The tumor-targeting characteristics of the compounds were assessed in mice with subcutaneously growing PC-3 xenografts. GRPR-binding specificity was studied by coinjection of an excess of unlabeled NOTA-8-Aoc-BBN(7-14)NH(2). Small-animal PET/CT images were acquired. RESULTS: NOTA-8-Aoc-BBN(7-14)NH(2) could be efficiently labeled with (18)F or with (68)Ga. NOTA-8-Aoc-BBN(7-14)NH(2) was labeled with (18)F in a single step, with 50%-90% yield. Radiolabeling, including purification, was performed in 45 min and resulted in a specific activity of greater than 10 GBq/mumol. The log P values of (18)F- and (68)Ga-labeled NOTA-8-Aoc-BBN(7-14)NH(2) were -1.47 +/- 0.05 and -1.98 +/- 0.03, respectively. In mice, both radiolabeled compounds cleared rapidly from the blood (<0.07 percentage injected dose per gram at 1 h after injection), mainly via the kidneys. At 1 h after injection, the uptake of (18)F- and (68)Ga-labeled NOTA-8-Aoc-BBN(7-14)NH(2) in the PC-3 tumors was 2.15 +/- 0.55 and 1.24 +/- 0.26 percentage injected dose per gram, respectively. GRPR-binding specificity was demonstrated by reduced tumor uptake of radiolabeled NOTA-8-Aoc-BBN(7-14)NH(2) after coinjection of a 100-fold

Published
2012

34. Quantitative Immuno-SPECT Monitoring of Pretargeted Radioimmunotherapy with a Bispecific Antibody in an Intraperitoneal Nude Mouse Model of Human Colon Cancer

Author

Schoffelen, R., Graaf, W.T.A. van der, Sharkey, R.M., Franssen, G.M., McBride, W.J., Chang, C.H., Bos, D.L., Goldenberg, D.M., Oyen, W.J.G., Boerman, O.C., Schoffelen, R., Graaf, W.T.A. van der, Sharkey, R.M., Franssen, G.M., McBride, W.J., Chang, C.H., Bos, D.L., Goldenberg, D.M., Oyen, W.J.G., and Boerman, O.C.

Abstract

Item does not contain fulltext, The prospects for using pretargeted immuno-SPECT to monitor the response to pretargeted radioimmunotherapy were examined. In this study, a bispecific anticarcinoembryonic antigen (CEACAM5; CD66e) x antihapten monoclonal antibody, TF2, was used in combination with a small (1.5 kD) peptide, IMP288, labeled with (111)In and (177)Lu. METHODS: First, tumor uptake of (111)In-IMP288 and (177)Lu-IMP288, as determined by immuno-SPECT, was validated by ex vivo counting. Two groups of female BALB/c nude mice had LS174T tumors implanted in the peritoneal cavity. They received intravenous injections of TF2, followed by 10 MBq of (111)In-IMP288 or 90 MBq of (177)Lu-IMP288. A control group of non-tumor-bearing mice received TF2 and (111)In-IMP288. One hour after the radiolabeled IMP288 was given, small-animal SPECT/CT images were acquired, and subsequently animals were dissected. Furthermore, a survival study was performed in 3 groups of 10 mice with intraperitoneal tumors: mice received TF2 and (177)Lu-IMP288 (60 MBq), nonpretargeted (177)Lu-IMP288 (60 MBq), or phosphate-buffered saline. Immuno-SPECT scans were acquired directly after therapy and at 14 and 45 d after therapy. Tumor growth was analyzed in the successive scans in each animal. RESULTS: (111)In- and (177)Lu-labeled IMP288 had similar in vivo distribution. The activity measured in the pretargeted immuno-SPECT images correlated well with the uptake measured in the dissected tumors (Pearson r = 0.99, P < 0.05). In the therapy study, the SPECT images showed rapid and selective tumor targeting with high tumor-to-background contrast (30 +/- 12) as early as 1 h after injection. The successive images of the treated mice showed delayed tumor growth in the pretargeted radioimmunotherapy group, corresponding with their prolonged survival. CONCLUSION: Pretargeted immuno-SPECT with TF2 and (111)In- or (177)Lu-IMP288 can be used to predict and confirm tumor targeting and monitor the therapeutic effect of pretargeted radioimmunothe

Published
2012

35. A new Tri-Fab bispecific antibody for pretargeting Trop-2-expressing epithelial cancers

Author

Sharkey, R.M., Rij, C.M. van, Karacay, H., Rossi, E.A., Frielink, C., Regino, C., Cardillo, T.M., McBride, W.J., Chang, C.H., Boerman, O.C., Goldenberg, D.M., Sharkey, R.M., Rij, C.M. van, Karacay, H., Rossi, E.A., Frielink, C., Regino, C., Cardillo, T.M., McBride, W.J., Chang, C.H., Boerman, O.C., and Goldenberg, D.M.

Abstract

Item does not contain fulltext, RS7 is an internalizing anti-Trop-2 pancarcinoma antibody capable of targeting most epithelial cancers. Because pretargeting strategies could improve the tumor localization of radionuclides, a new anti-Trop-2 x antihapten bispecific antibody for pretargeting, based on humanized RS7, was prepared and evaluated with a radiolabeled hapten-peptide in vitro and in vivo to determine whether its internalization properties would interfere with pretargeting. METHODS: The anti-Trop-2 x antihapten bispecific antibody, TF12, was prepared using the modular dock-and-lock method. TF12 and humanized RS7 binding was assessed by cell binding assays and fluorescence-activated cell sorting analysis in a variety of human carcinoma cell lines. The internalization of TF12 was evaluated in vitro using a fluorescent TF12 conjugate or hapten-peptide and (111)In-labeled TF12 and RS7. The biodistribution of TF12 and its use as a pretargeting agent with an (111)In-labeled hapten-peptide were assessed in several human epithelial cancer xenografts. Dose optimization was examined in 2 tumor models. RESULTS: TF12 internalizes, but a substantial fraction remained accessible on the tumor surface. Fluorescence-activated cell sorting analysis showed only a minor change in fluorescent signal when the tumor was probed with a fluorescent hapten-peptide over 4 h, and microscopy showed substantial membrane staining when reassessed at 24 h after TF12 exposure. Only 40.1% of (111)In-TF12 was internalized after 24 h. In vivo, excellent tumor localization of the (111)In-labeled peptide was observed in several tumor models. CONCLUSION: TF12 was retained sufficiently on the cell surface in several epithelial cancers, thereby making it suitable for pretargeted imaging and therapy of various Trop-2-expressing carcinomas.

Published
2012

36. Cryptococcus gattii infection: Long term morbidity and determinants of neurological sequelae and death.

Author

McBride W.J., Korman T., Meyer W., Sorrell T., Murray R., Chen S., Slavin M., Heath C., Playford E.G., Byth K., Marriott D., Kidd S., Bak N., Currie B., Hajkowicz K., McBride W.J., Korman T., Meyer W., Sorrell T., Murray R., Chen S., Slavin M., Heath C., Playford E.G., Byth K., Marriott D., Kidd S., Bak N., Currie B., and Hajkowicz K.

Abstract

Background: Long-term morbidity and outcomes of Cryptococcus gattii (CG) infection are not described. We analysed clinical, microbiological and outcome data in Australian patients followed for 12 months to identify determinants of mortality and patient outcomes, and to inform clinical management. Method(s): Culture-confirmed cases from 2000-2007 were evaluated in an observational study. Clinical presentation, complications, microbiological, radiological and outcome data were recorded at diagnosis and at 6 weeks, 6 months and 12 months. Clinical and laboratory variables associated with mortality and with death and/or neurological sequelae were determined. Result(s): The annual CG infection incidence was 0.61/106 population. Fifty-four patients had no immunocompromise/comorbidity. Of 24 (28%) immunocompromised hosts, six had idiopathic CD4 lymphopenia and one, HIV/AIDS. Clinical and microbiological characteristics of infection were similar in immunocompromised and healthy hosts. Central nervous system (CNS) manifestations, present in 85% of patients, included raised intracranial pressure (41%), hydrocephalus (30%), neurological deficits (27%; 6% developed during therapy) and immune reconstitution syndrome (11%). Geometric mean serum cryptococcal antigen (CRAG) titres in CNS disease were 563.9 (vs. 149.3 in isolated lung infection). Immunocompromise and intensive care admission were risks for death. Initial cerebrospinal fluid CRAG titres of >=256 predicted death and/or neurological sequelae (P = .05). Conclusion(s): Neurological disease predominates in sporadic CG infection. Lumbar puncture and cerebral imaging, especially if serum CRAG titres are >=512, are essential. Long-term follow-up is required to detect late neurological complications. Immune system evaluation is important since host immunocompromise (and intensive care admission) was associated with reduced survival.

Published
2012

37. Optimized labeling of NOTA-conjugated octreotide with F-18.

Author

Laverman, P., D'Souza, C.A., Eek, A., McBride, W.J., Sharkey, R.M., Oyen, W.J.G., Goldenberg, D.M., Boerman, O.C., Laverman, P., D'Souza, C.A., Eek, A., McBride, W.J., Sharkey, R.M., Oyen, W.J.G., Goldenberg, D.M., and Boerman, O.C.

Abstract

01 april 2012, Contains fulltext : 108912.pdf (publisher's version ) (Open Access), We recently reported a facile method based on the chelation of [(18)F]aluminum fluoride (Al(18)F) by NOTA (1,4,7-triazacyclononane-1,4,7-triacetic acid). Here, we present a further optimization of the (18)F labeling of NOTA-octreotide (IMP466). Octreotide was conjugated with the NOTA chelate and was labeled with (18)F in a two-step, one-pot method. The labeling procedure was optimized with regard to the labeling buffer, ionic strength, peptide concentration, and temperature. Radiochemical yield, specific activity, in vitro stability, and receptor affinity were determined. Biodistribution of (18)F-IMP466 was studied in AR42J tumor-bearing mice. In addition, microPET/CT images were acquired. IMP466 was labeled with Al(18)F in a single step with 97% yield in the presence of 80% (v/v) acetonitrile or ethanol. The labeled product was purified by HPLC to remove unlabeled peptide and unbound Al(18)F. The radiolabeling, including purification, was performed for 45 min. Specific activities of 48,000 GBq/mmol could be obtained. (18)F-IMP466 showed a high tumor uptake and excellent tumor-to-blood ratios at 2 h post-injection. In addition, the low bone uptake indicated that the Al(18)F-NOTA complex was stable in vivo. PET/CT scans revealed excellent tumor delineation and specific accumulation in the tumor. Uptake in receptor-negative organs was low. NOTA-octreotide could be labeled with (18)F in quantitative yields using a rapid two-step, one-pot, method. The compound was stable in vivo and showed rapid accretion in SSTR(2)-receptor-expressing AR42J tumors in nude mice. This method can be used to label other NOTA-conjugated compounds such as RGD peptides, GRPR-binding peptides, and Affibody molecules with (18)F.

Published
2012

38. Pretargeted radioimmunoscintigraphy in patients with primary colorectal cancer using a bispecific anticarcinoembryonic antigen CEA X anti-di-diethylenetriaminepentaacetic acid F(ab')2 antibody.

Author

Aarts, F., Boerman, O.C., Sharkey, R.M., Hendriks, T., Chang, C.H., McBride, W.J., Bleichrodt, R.P., Oyen, W.J.G., Goldenberg, D.M., Aarts, F., Boerman, O.C., Sharkey, R.M., Hendriks, T., Chang, C.H., McBride, W.J., Bleichrodt, R.P., Oyen, W.J.G., and Goldenberg, D.M.

Abstract

Contains fulltext : 89630.pdf (publisher's version ) (Closed access), BACKGROUND: Antibody-based imaging agents are available commercially, but their success has been limited, mainly because of low contrast and the emergence of 2-fluoro-2-deoxy-D-glucose-positron emission tomography (FDG-PET) scanning. In pretargeting, administration of the radionuclide is separated from the antibody, thereby enhancing image contrast and allowing detection at earlier time points after injection. METHODS: The authors conducted an open-label, single-arm trial that assessed a pretargeting procedure in which an anticarcinoembryonic antigen x (anti-CEA x) anti-diethylenetriaminepentaacetic acid (anti-DTPA)-indum (In) antibody was used in combination with a (111)In-labeled di-DTPA peptide for the diagnostic imaging of CEA-expressing colorectal cancer. Three patients received the (111)In peptide alone to investigate tumor targeting, organ distribution, and clearance of the peptide. Thereafter, 11 patients received the bispecific antibody (bsAb) (5 mg) to pretarget the tumor. After 3 to 5 days, patients were injected with 185 megabecquerels of (111)In-labeled peptide to assess the optimal interval for best image quality. RESULTS: Fourteen patients with primary colorectal cancer were enrolled. One of 3 patients who received (111)In peptide alone had low-level tumor uptake. In 9 of 11 other patients, tumors were observed. In 1 patient, FDG-PET-positive lymph nodes were observed clearly with pretargeted immunoscintigraphy. Peptide pharmacokinetics revealed enhanced circulating levels of (111)In-labeled peptide in patients in the 3-day interval cohort compared with the other cohorts. Tumor-to-background ratios ranged from 3.5 to 6.4 in the 3-day interval group, from 5.1 to 14.2 in the 4-day interval group, and from 3.5 to 3.9 in the 5-day interval group. The best images were acquired with a 4-day interval at 24 hours after injection of the radiolabeled peptide. Grade 1 adverse events were observed in 2 patients. CONCLUSIONS: Imaging of colorectal cancer using a 2

Published
2010

39. Pretargeted 177Lu radioimmunotherapy of carcinoembryonic antigen-expressing human colonic tumors in mice.

Author

Schoffelen, R., Graaf, W.T.A. van der, Franssen, G.M., Sharkey, R.M., Goldenberg, D.M., McBride, W.J., Rossi, E.A., Eek, A., Oyen, W.J.G., Boerman, O.C., Schoffelen, R., Graaf, W.T.A. van der, Franssen, G.M., Sharkey, R.M., Goldenberg, D.M., McBride, W.J., Rossi, E.A., Eek, A., Oyen, W.J.G., and Boerman, O.C.

Abstract

1 november 2010, Contains fulltext : 89672.pdf (publisher's version ) (Closed access), Pretargeted radioimmunotherapy (PRIT) with bispecific antibodies in combination with a radiolabeled peptide reduces the radiation dose to normal tissues, especially the bone marrow. In this study, the optimization, therapeutic efficacy, and toxicity of PRIT of colon cancer with a (177)Lu-labeled peptide was determined in mice with carcinoembryonic antigen (CEA)-expressing human tumors. METHODS: To obtain the optimal therapeutic efficacy, several strategies were evaluated to increase the total amount of radioactivity targeted to subcutaneous LS174T colon cancer tumors in BALB/c nude mice. First, the maximum amount of bispecific anti-CEA and antihapten antibody TF2 and the peptide IMP288 that could be targeted was determined. Second, the tumor targeting of repeated administrations of radiolabeled IMP288 was investigated. Mice received 1 TF2 injection, followed by multiple IMP288 injections (3-h interval) or multiple cycles, with each IMP288 administration preceded by a new TF2 injection (72-h interval). PRIT was administered at maximum doses of TF2 and (177)Lu-labeled IMP288 in groups of 9 mice with subcutaneous LS174T tumors. Mice received 1, 2, or 3 successive cycles of treatment (26 MBq/mouse/cycle) or carrier only. The primary endpoint was survival; secondary endpoints were tumor growth, body weight, bone marrow, and renal toxicity. RESULTS: The highest amount of radioactivity delivered to a subcutaneous colon tumor was achieved by the administration of 5.0 nmol of TF2 and 0.28 nmol of IMP288 in 3 successive cycles, with each IMP288 preceded by a new TF2 injection (72-h interval). PRIT effectively delayed tumor growth and prolonged survival significantly. Higher activity doses, administered in successive cycles, correlated with longer survival: the median survival of untreated mice was 13 d (range, 6-20 d), whereas that of mice treated with 1, 2, or 3 cycles of PRIT was 24 (range, 24-31 d), 45 (range, 38 >/= 130 d), and 65 (range, 48 >/= 130 d) days, respectively.

Published
2010

40. A novel facile method of labeling octreotide with (18)F-fluorine.

Author

Laverman, P., McBride, W.J., Sharkey, R.M., Eek, A., Joosten, L., Oyen, W.J.G., Goldenberg, D.M., Boerman, O.C., Laverman, P., McBride, W.J., Sharkey, R.M., Eek, A., Joosten, L., Oyen, W.J.G., Goldenberg, D.M., and Boerman, O.C.

Abstract

01 maart 2010, Contains fulltext : 87734.pdf (publisher's version ) (Closed access), Several methods have been developed to label peptides with (18)F. However, in general these are laborious and require a multistep synthesis. We present a facile method based on the chelation of (18)F-aluminum fluoride (Al(18)F) by 1,4,7-triazacyclononane-1,4,7-triacetic acid (NOTA). The method is characterized by the labeling of NOTA-octreotide (NOTA-d-Phe-cyclo[Cys-Phe-d-Trp-Lys-Thr-Cys]-Throl (MH(+) 1305) [IMP466]) with (18)F. METHODS: Octreotide was conjugated with the NOTA chelate and labeled with (18)F in a 2-step, 1-pot method. The labeling procedure was optimized with regard to the labeling buffer, peptide, and aluminum concentration. Radiochemical yield, specific activity, in vitro stability, and receptor affinity were determined. Biodistribution of (18)F-IMP466 was studied in AR42J tumor-bearing mice and compared with that of (68)Ga-labeled IMP466. In addition, small-animal PET/CT images were acquired. RESULTS: IMP466 was labeled with Al(18)F in a single step with 50% yield. The labeled product was purified by high-performance liquid chromatography to remove unbound Al(18)F and unlabeled peptide. The radiolabeling, including purification, was performed in 45 min. The specific activity was 45,000 GBq/mmol, and the peptide was stable in serum for 4 h at 37 degrees C. Labeling was performed at pH 4.1 in sodium citrate, sodium acetate, 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid, and 2-(N-morpholino)ethanesulfonic acid buffer and was optimal in sodium acetate buffer. The apparent 50% inhibitory concentration of the (19)F-labeled IMP466 determined on AR42J cells was 3.6 nM. Biodistribution studies at 2 h after injection showed a high tumor uptake of (18)F-IMP466 (28.3 +/- 5.2 percentage injected dose per gram [%ID/g]; tumor-to-blood ratio, 300 +/- 90), which could be blocked by an excess of unlabeled peptide (8.6 +/- 0.7 %ID/g), indicating that the accumulation in the tumor was receptor-mediated. Biodistribution of (68)Ga-IMP466 was similar to that of (18

Published
2010

41. Pretargeted immuno-positron emission tomography imaging of carcinoembryonic antigen-expressing tumors with a bispecific antibody and a 68Ga- and 18F-labeled hapten peptide in mice with human tumor xenografts.

Author

Schoffelen, R., Sharkey, R.M., Goldenberg, D.M., Franssen, G.M., McBride, W.J., Rossi, E.A., Chang, C.H., Laverman, P., Disselhorst, J.A., Eek, A., Graaf, W.T.A. van der, Oyen, W.J.G., Boerman, O.C., Schoffelen, R., Sharkey, R.M., Goldenberg, D.M., Franssen, G.M., McBride, W.J., Rossi, E.A., Chang, C.H., Laverman, P., Disselhorst, J.A., Eek, A., Graaf, W.T.A. van der, Oyen, W.J.G., and Boerman, O.C.

Abstract

01 april 2010, Contains fulltext : 89629.pdf (publisher's version ) (Closed access), (18)F-Fluorodeoxyglucose ((18)F-FDG) is the most common molecular imaging agent in oncology, with a high sensitivity and specificity for detecting several cancers. Antibodies could enhance specificity; therefore, procedures were developed for radiolabeling a small ( approximately 1451 Da) hapten peptide with (68)Ga or (18)F to compare their specificity with (18)F-FDG for detecting tumors using a pretargeting procedure. Mice were implanted with carcinoembryonic antigen (CEA; CEACAM5)-expressing LS174T human colonic tumors and a CEA-negative tumor, or an inflammation was induced in thigh muscle. A bispecific monoclonal anti-CEA x anti-hapten antibody was given to mice, and 16 hours later, 5 MBq of (68)Ga- or (18)F-labeled hapten peptides were administered intravenously. Within 1 hour, tissues showed high and specific targeting of (68)Ga-IMP-288, with 10.7 +/- 3.6% ID/g uptake in the tumor and very low uptake in normal tissues (e.g., tumor-to-blood ratio of 69.9 +/- 32.3), in a CEA-negative tumor (0.35 +/- 0.35% ID/g), and inflamed muscle (0.72 +/- 0.20% ID/g). (18)F-FDG localized efficiently in the tumor (7.42 +/- 0.20% ID/g) but also in the inflamed muscle (4.07 +/- 1.13% ID/g) and in several normal tissues; thus, pretargeted (68)Ga-IMP-288 provided better specificity and sensitivity. Positron emission tomography (PET)/computed tomography images reinforced the improved specificity of the pretargeting method. (18)F-labeled IMP-449 distributed similarly in the tumor and normal tissues as the (68)Ga-labeled IMP-288, indicating that either radiolabeled hapten peptide could be used. Thus, pretargeted immuno-PET does exceptionally well with short-lived radionuclides and is a highly sensitive procedure that is more specific than (18)F-FDG-PET. Mol Cancer Ther; 9(4); 1019-27. (c)2010 AACR.

Published
2010

42. A novel method of 18F radiolabeling for PET.

Author

McBride, W.J., Sharkey, R.M., Karacay, H., D'Souza, C.A., Rossi, E.A., Laverman, P., Chang, C.H., Boerman, O.C., Goldenberg, D.M., McBride, W.J., Sharkey, R.M., Karacay, H., D'Souza, C.A., Rossi, E.A., Laverman, P., Chang, C.H., Boerman, O.C., and Goldenberg, D.M.

Abstract

Contains fulltext : 81027.pdf (publisher's version ) (Closed access), Small biomolecules are typically radiolabeled with (18)F by binding it to a carbon atom, a process that usually is designed uniquely for each new molecule and requires several steps and hours to produce. We report a facile method wherein (18)F is first attached to aluminum as Al(18)F, which is then bound to a chelate attached to a peptide, forming a stable Al(18)F-chelate-peptide complex in an efficient 1-pot process. METHODS: For proof of principle, this method was applied to a peptide suitable for use in a bispecific antibody pretargeting method. A solution of AlCl(3).6H(2)O in a pH 4.0 sodium-acetate buffer was mixed with an aqueous solution of (18)F to form the Al(18)F complex. This was added to a solution of IMP 449 (NOTA-p-Bn-CS-d-Ala-d-Lys(HSG)-d-Tyr-d-Lys(HSG)-NH(2)) (NOTA-p-Bn-CS is made from S-2-(4-isothiocyanatobenzyl)-1,4,7-triazacyclononane-1,4,7-triacetic acid; HSG is histamine-succinyl-glycine) and heated to 100 degrees C for 15 min. In vitro and in vivo stability and targeting ability of the Al(18)F-IMP 449 were examined in nude mice bearing LS174T human colonic tumors pretargeted with an anti-CEACAM5 bispecific antibody (TF2). RESULTS: The radiolabeled peptide was produced in 5%-20% yield with an estimated specific activity of 18,500-48,100 GBq (500-1,300 Ci)/mmol. The Al(18)F-IMP 449 was stable for 4 h in serum in vitro, and in animals, activity isolated in the urine 30 min after injection was bound to the peptide. Nonchelated Al(18)F had higher tissue uptake, particularly in the bones, than the chelated Al(18)F-IMP 449, which cleared rapidly from the body by urinary excretion. Tumor uptake was 30-fold higher with TF2-pretargeted Al(18)F-IMP 449 than with the peptide alone. Dynamic PET showed tumor localization within 30 min and rapid and thorough clearance from the body. CONCLUSION: The ability to bind highly stable Al(18)F to metal-binding ligands is a promising new labeling method that should be applicable to a diverse array of molecules for PET

Published
2009

43. Hendra virus infection in a veterinarian

Author

Hanna, J.N., McBride, W.J., Brookes, D.L., Shield, J., Taylor, C.T., Smith, I.L., Craig, S.B., Smith, G.A., Hanna, J.N., McBride, W.J., Brookes, D.L., Shield, J., Taylor, C.T., Smith, I.L., Craig, S.B., and Smith, G.A.

Abstract

A veterinarian became infected with Hendra virus (HeV) after managing a terminally ill horse and performing a limited autopsy with inadequate precautions. Although she was initially only mildly ill, serological tests suggested latent HeV infection. Nevertheless, she remains well 2 years after her initial illness. Recently emerged zoonotic viruses, such as HeV, necessitate appropriate working procedures and personal protective equipment in veterinary practice.

Published
2006

44. Comparison of IgG and F(ab')2 fragments of bispecific anti-RCCxanti-DTIn-1 antibody for pretargeting purposes.

Author

Schaijk, F.G. van, Boerman, O.C., Soede, A.C., McBride, W.J., Goldenberg, D.M., Corstens, F.H.M., Oosterwijk, E., Schaijk, F.G. van, Boerman, O.C., Soede, A.C., McBride, W.J., Goldenberg, D.M., Corstens, F.H.M., and Oosterwijk, E.

Abstract

Contains fulltext : 48915.pdf (publisher's version ) (Closed access), PURPOSE: An effective pretargeting strategy was developed for renal cell carcinoma (RCC) based on a biologically produced bispecific monoclonal antibody: anti-RCCxanti-DTPA(In) (bsMAb: G250xDTIn-1). Tumour uptake of a (111)In-labelled bivalent peptide after pretargeting with bsMAb G250xDTIn-1 was relatively high compared with that in other pretargeting systems using chemically coupled F(ab')(2) fragments. Here, we investigated the effect of the bsMAb form in the pretargeting strategy. METHODS: To determine the optimal interval between the administration of each of the bsMAb forms and the (111)In-labelled bivalent peptide, the biodistribution of the radioiodinated bsMAb forms was studied in athymic mice with subcutaneous SK-RC-1 RCC tumours. Since tumour targeting of the radiolabelled peptide depends on the bsMAb form and dose, a bsMAb dose escalation study was carried out for both bsMAb forms. Under optimised conditions, the biodistribution of the (111)In label in mice with pretargeted RCC was determined from 4 h up to 7 days p.i. RESULTS: The optimal interval between the two administrations was 72 h for the bsMAb IgG and 4 h for the bsMAb F(ab')(2). The optimal bsMAb dose for intact IgG was 67 pmol and the optimal bsMAb F(ab')(2) dose was 200 pmol. Targeting of the pretargeted RCC with 4 pmol (111)In-labelled bivalent peptide revealed high tumour uptake with both bsMAb forms. CONCLUSION: With the pretargeting strategy, using either bsMAb IgG or bsMAb F(ab')(2), very efficient peptide targeting of the tumour was obtained. Uptake and retention of the radiolabel in the tumour with the pretargeting approach are not affected by the bsMAb form used.

Published
2005

45. Pretargeting of carcinoembryonic antigen-expressing tumors with a biologically produced bispecific anticarcinoembryonic antigen x anti-indium-labeled diethylenetriaminepentaacetic acid antibody.

Author

Schaijk, F.G. van, Oosterwijk, E., Soede, A.C., Broekema, M., Frielink, C., McBride, W.J., Goldenberg, D.M., Corstens, F.H.M., Boerman, O.C., Schaijk, F.G. van, Oosterwijk, E., Soede, A.C., Broekema, M., Frielink, C., McBride, W.J., Goldenberg, D.M., Corstens, F.H.M., and Boerman, O.C.

Abstract

Contains fulltext : 48340.pdf (publisher's version ) (Closed access), PURPOSE: The aim of these studies was to develop a pretargeting strategy for CEA-expressing cancers using biologically produced bispecific monoclonal antibodies (bsMAb). The bsMAbs used in this system have affinity for the carcinoembryonic antigen on the one hand, and for indium-labeled diethylenetriaminepentaacetic acid (DTPA), on the other. EXPERIMENTAL DESIGN: Stable quadroma clones producing bsMAb MN-14xDTIn-1 were isolated. LS174T tumor-bearing mice were injected with 1 to 100 microg of bsMAb followed by 1 to 60 ng of an (111)In-labeled bivalent peptide [Ac-Phe-Lys(DTPA)-Tyr-Lys(DTPA)-NH2]. Mice were killed at 24 hours postinjection and the biodistribution of the radiolabel was determined. The biodistribution of diDTPA labeled with four different radionuclides ((111)In, 99mTc, nonresidualizing 125I, and residualizing 125I) was determined at various time points postinjection following pretargeting of LS174T tumors with bsMAb MN-14xDTIn-1. RESULTS: Optimal tumor targeting was observed when tumors were pretargeted with 10 microg of bsMAb MN-14xDTIn-1 and when 6 ng of a radiolabeled peptide was given 72 hours later. The uptake of the four radiolabels in LS174T tumors at 4 hours postinjection was similar. However, at later time points, the (111)In-label and residualizing 125I-label were better retained in the tumor than the nonresidualizing 125I label. Although the absolute uptake in the tumor (in terms of percentage of injected dose per gram of tissue) was 5-fold lower than the uptake obtained with directly labeled MN-14, the pretargeting strategy revealed much higher tumor-to-blood ratios due to the rapid clearance of the radiolabel from the circulation as compared with (111)In-MN-14 (445 +/- 90 and 5.3 +/- 1.1, respectively, at 72 hours postinjection). CONCLUSIONS: Effective targeting of carcinoembryonic antigen-expressing tumors was achieved with a newly produced bispecific antibody. The (111)In-labeled L-amino acid peptide and 125I-D-amino acid peptide were bet

Published
2005

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