Your search keyword '"Nock, B.A. (Berthold)"' showing total 10 results

1. One step closer to clinical translation: Enhanced tumor targeting of [99mTc]Tc-DB4 and [111In]In-SG4 in mice treated with entresto

Author

Kanellopoulos, P. (Panagiotis), Kaloudi, A. (Katerina), Rouchota, M. (Maritina), Loudos, G. (George), Jong, M. (Marion) de, Krenning, E.P. (Eric), Nock, B.A. (Berthold), Maina, T. (Theodosia), Kanellopoulos, P. (Panagiotis), Kaloudi, A. (Katerina), Rouchota, M. (Maritina), Loudos, G. (George), Jong, M. (Marion) de, Krenning, E.P. (Eric), Nock, B.A. (Berthold), and Maina, T. (Theodosia)

Abstract

Background: Peptide radioligands may serve as radionuclide carriers to tumor sites overexpressing their cognate receptor for diagnostic or therapeutic purposes. Treatment of mice with the neprilysin (NEP)-inhibito

Published

2020

2. 99mTc]Tc-DB1 Mimics with Different-Length PEG Spacers: Preclinical Comparison in GRPR-Positive Models

Author

Kanellopoulos, P. (Panagiotis), Lymperis, E. (Emmanouil), Kaloudi, A. (Katerina), Jong, M. (Marion) de, Krenning, E.P. (Eric), Nock, B.A. (Berthold), Maina, T. (Theodosia), Kanellopoulos, P. (Panagiotis), Lymperis, E. (Emmanouil), Kaloudi, A. (Katerina), Jong, M. (Marion) de, Krenning, E.P. (Eric), Nock, B.A. (Berthold), and Maina, T. (Theodosia)

Abstract

Background: The frequent overexpression of gastrin-releasing peptide receptors (GRPRs) in human cancers provides the rationale for delivering clinically useful radionuclides to tumor sites using peptide carriers. Radiolabeled GRPR antagonists, besides being safer for human use, have often shown higher tumor uptake and faster background clearance than agonists. We herein compared the biological profiles of the GRPR-antagonist-based radiotracers [99mTc]Tc-[N4-PEGx-DPhe6,Leu-NHEt1

Published

2020

3. Imaging of inflammatory cellular protagonists in human atherosclerosis: a dual-isotope SPECT approach

Author

Barrett, H.E. (Hilary E.), Meester, E.J. (Eric Jan), Gaalen, K. (Kim) van, Heiden, K. (Kim) van der, Krenning, B.J. (Boudewijn), Beekman, F.J. (Freek), Blois, E. (Erik) de, Swart, J. (Jan) de, Verhagen, H.J.M. (Hence), Maina, T. (Theodosia), Nock, B.A. (Berthold), Norenberg, J.P. (Jeffrey), Jong, M. (Marion) de, Gijsen, F.J.H. (Frank), Bernsen, M.R. (Monique), Barrett, H.E. (Hilary E.), Meester, E.J. (Eric Jan), Gaalen, K. (Kim) van, Heiden, K. (Kim) van der, Krenning, B.J. (Boudewijn), Beekman, F.J. (Freek), Blois, E. (Erik) de, Swart, J. (Jan) de, Verhagen, H.J.M. (Hence), Maina, T. (Theodosia), Nock, B.A. (Berthold), Norenberg, J.P. (Jeffrey), Jong, M. (Marion) de, Gijsen, F.J.H. (Frank), and Bernsen, M.R. (Monique)

Abstract

Purpose: Atherosclerotic plaque development and progression signifies a complex inflammatory disease mediated by a multitude of proinflammatory leukocyte subsets. Using single photon emission computed tomography (SPECT) coupled with computed tomography (CT), this study tested a new dual-isotope

Published

2020

4. Comparing Gly(11)/dAla(11)-Replacement vs. the in-Situ Neprilysin-Inhibition Approach on the Tumor-targeting Efficacy of the In-111-SB3/In-111-SB4 Radiotracer Pair

Author

Lymperis, E, Kaloudi, A. (Katerina), Kanellopoulos, P., Jong, M. (Marion) de, Krenning, E.P. (Eric), Nock, B.A. (Berthold), Maina, T. (Theodosia), Lymperis, E, Kaloudi, A. (Katerina), Kanellopoulos, P., Jong, M. (Marion) de, Krenning, E.P. (Eric), Nock, B.A. (Berthold), and Maina, T. (Theodosia)

Abstract

Background: The GRPR-antagonist 68Ga-SB3 visualized prostate cancer lesions in animal models and in patients. Switching radiometal from 68Ga to 111In impaired tumor targeting in mice, but coinjection of the neprilysin (NEP)-inhibitor phosphoramidon (PA) stabilized 111In-SB3 in circulation and remarkably increased tumor uptake. We herein report on the biological profile of 111In-SB4: 111In-[DAla11]SB3. Methods: The biological responses of 111In-SB3/SB4 were compared in PC-3 cells and animal models. Results: Gly11/DAla11-replacement deteriorated GRPR-affinity (SB4 IC50: 10.7 ± 0.9 nM vs. SB3 IC50: 4.6 ± 0.3 nM) and uptake in PC-3 cells (111In-SB4: 1.3 ± 0.4% vs. 111In-SB3 16.2 ± 0.8% at 1 h). 111In-SB4 was more stable than 111In-SB3, but PA-coinjection stabilized both radiotracers in peripheral mice blood. Unmodified 111In-SB3 showed higher uptake in PC-3 xenografts (8.8 ± 3.0%ID/g) vs. 111In-SB4 (3.1 ± 1.1%ID/g) at 4 h pi. PA-coinjection improved tumor uptake, with 111In-SB3 still showing superior tumor targeting (38.3 ± 7.9%ID/g vs. 7.4 ± 0.3%ID/g for 111In-SB4). Conclusions: Replacement of Gly11 by DAla11 improved in vivo stability, however, at the cost of GRPR-affinity and cell uptake, eventually translating into inferior tumor uptake of 111In-SB4 vs. unmodified 111In-SB3. On the other hand, in-situ NEP-inhibition turned out to be a more efficient and direct strategy to optimize the in vivo profile of 111In-SB3, and potentially other peptide radiotracers.

Published

2019

5. Localization of Tc-99m-GRP Analogs in GRPR-Expressing Tumors: Effects of Peptide Length and Neprilysin Inhibition on Biological Responses

Author

Kaloudi, A. (Katerina), Lymperis, E, Kanellopoulos, P., Waser, B. (Beatrice), Jong, M. (Marion) de, Krenning, E.P. (Eric), Reubi, J.C., Nock, B.A. (Berthold), Maina, T. (Theodosia), Kaloudi, A. (Katerina), Lymperis, E, Kanellopoulos, P., Waser, B. (Beatrice), Jong, M. (Marion) de, Krenning, E.P. (Eric), Reubi, J.C., Nock, B.A. (Berthold), and Maina, T. (Theodosia)

Abstract

The overexpression of gastrin-releasing peptide receptors (GRPRs) in frequently occurring human tumors has provided the opportunity to use bombesin (BBN) analogs as radionuclide carriers to cancer sites for diagnostic and therapeutic purposes. We have been alternatively exploring human GRP motifs of higher GRPR selectivity compared to frog BBN sequences aiming to improve pharmacokinetic profiles. In the present study, we compared two differently truncated human endogenous GRP motifs: GRP(14–27) and GRP(18–27). An acyclic tetraamine was coupled at the N-terminus to allow for stable binding of the SPECT radionuclide 99mTc. Their biological profiles were compared in PC-3 cells and in mice without or with coinjection of phosphoramidon (PA) to induce transient neprilysin (NEP) inhibition

Published

2019

6. In Vivo Stabilized SB3, an Attractive GRPR Antagonist, for Pre- and Intra-Operative Imaging for Prostate Cancer

Author

Bakker, I.L. (Ingrid), Tiel, S.T. (Sandra) van, Haeck, J.C. (Joost), Doeswijk, R.Q. (Ronald), Blois, E. (Erik) de, Segbers, M. (Marcel), Maina, T. (Theodosia), Nock, B.A. (Berthold), de Jong, M. (Marion), Dalm, S.U. (Simone), Bakker, I.L. (Ingrid), Tiel, S.T. (Sandra) van, Haeck, J.C. (Joost), Doeswijk, R.Q. (Ronald), Blois, E. (Erik) de, Segbers, M. (Marcel), Maina, T. (Theodosia), Nock, B.A. (Berthold), de Jong, M. (Marion), and Dalm, S.U. (Simone)

Abstract

Purpose: The gastrin-releasing peptide receptor (GRPR), overexpressed on various tumor types, is an attractive target for receptor-mediated imaging and therapy. Another interesting approach would be the use of GRPR radioligands for pre-operative imaging and subsequent radio-guided surgery, with the goal to improve surgical outcome. GRPR radioligands were successfully implemented in clinical studies, especially Sarabesin 3 (SB3) is an appealing GRPR antagonist with high receptor affinity. Gallium-68 labeled SB3 has good in vivo stability, after labeling with Indium-111; however, the molecule shows poor in vivo stability, which negatively impacts tumor-targeting capacity. A novel approach to increase in vivo stability of radiopeptides is by co-administration of the neutral endopeptida

Published

2018

7. A novel CCK2/gastrin receptor-localizing radiolabeled peptide probe for personalized diagnosis and therapy of patients with progressive or metastatic medullary thyroid carcinoma

Author

Erba, P. (Paola), Mäcke, H.R. (Helmut), Mikolajczak, R. (Renata), Decristoforo, C. (Clemens), Zaletel, K. (Katja), Maina-Nock, T. (Theodosia), Peitl, P.K., Garnuszek, P. (Piotr), Fröberg, A.C. (Alida), Goebel, G. (Georg), Jong, M. (Marion) de, Jabrocka-Hybel, A. (Agata), Konijnenberg, M. (Mark), Virgolini, I. (Irena), Nock, B.A. (Berthold), Lenda-Tracz, W. (Wioletta), Pawlak, D. (Dariusz), Rangger, C. (Christine), Trofmiuk-Müldner, M. (Małgorzata), Sowa-Staszczak, A. (Anna), Tomaszuk, M. (Monika), Guggenber, E. (Elisabeth) von, Scarpa, L. (Lorenza), Hubalewska-Dydejczyk, A. (Alicja), Erba, P. (Paola), Mäcke, H.R. (Helmut), Mikolajczak, R. (Renata), Decristoforo, C. (Clemens), Zaletel, K. (Katja), Maina-Nock, T. (Theodosia), Peitl, P.K., Garnuszek, P. (Piotr), Fröberg, A.C. (Alida), Goebel, G. (Georg), Jong, M. (Marion) de, Jabrocka-Hybel, A. (Agata), Konijnenberg, M. (Mark), Virgolini, I. (Irena), Nock, B.A. (Berthold), Lenda-Tracz, W. (Wioletta), Pawlak, D. (Dariusz), Rangger, C. (Christine), Trofmiuk-Müldner, M. (Małgorzata), Sowa-Staszczak, A. (Anna), Tomaszuk, M. (Monika), Guggenber, E. (Elisabeth) von, Scarpa, L. (Lorenza), and Hubalewska-Dydejczyk, A. (Alicja)

Published

2017

8. 68Ga/177Lu-NeoBOMB1, a novel radiolabeled GRPR antagonist for theranostic use in oncology

Author

Dalm, S.U. (Simone), Bakker, I.L. (Ingrid L.), Blois, E. (Erik) de, Doeswijk, R.Q. (Ronald), Konijnenberg, M. (Mark), Orlandi, F. (Francesca), Barbato, D. (Donato), Tedesco, M. (Mattia), Maina, T. (Theodosia), Nock, B.A. (Berthold), Jong, M. (Marion) de, Dalm, S.U. (Simone), Bakker, I.L. (Ingrid L.), Blois, E. (Erik) de, Doeswijk, R.Q. (Ronald), Konijnenberg, M. (Mark), Orlandi, F. (Francesca), Barbato, D. (Donato), Tedesco, M. (Mattia), Maina, T. (Theodosia), Nock, B.A. (Berthold), and Jong, M. (Marion) de

Abstract

Because overexpression of the gastrin-releasing peptide receptor (GRPR) has been reported on various cancer types, for example, prostate cancer and breast cancer, targeting this receptor with radioligands might have a significant impact on staging and treatment of GRPR-expressing tumors. NeoBOMB1 is a novel DOTAcoupled GRPR antagonist with high affinity for GRPR and excellent in vivo stability. The purpose of this preclinical study was to further explore the use of NeoBOMB1 for theranostic application by determining the biodistribution of 68Ga-NeoBOMB1 and 177Lu- NeoBOMB1. Methods: PC-3 tumor–xenografted BALB/c nu/nu mice were injected with either approximately 13 MBq/250 pmol 68Ga- NeoBOMB1 or a low (;1MBq/200pmol) versus high (;1MBq/10 pmol) peptide amount of 177Lu-NeoBOMB1, after which biodistribution and imaging studies were performed. At 6 time points (15, 30, 60, 120, 240, and 360 min for 68Ga-NeoBOMB1 and 1, 4, 24, 48, 96, and 168 h for 177Lu-NeoBOMB1) postinjection tumor and organ uptake was determined. To assess receptor specificity, additional groups of animals were coinjected with an excess of unlabeled NeoBOMB1. Results of the biodistribution studies were used to determine pharmacokinetics and dosimetry. Furthermore, PET/CT and SPECT/MRI were performed. Results: Injection of approximately 250 pmol 68Ga-NeoBOMB1 resulted in a tumor and pancreas uptake of 12.4 6 2.3 and 22.7 6 3.3 percentage injected dose per gram (%ID/g) of tissue, respectively, at 120 min after injection. 177Lu-NeoBOMB1 biodistribution studies revealed a higher tumor uptake (17.9 6 3.3 vs. 11.6 6 1.3 %ID/g of tissue at 240 min after injection) and a lower pancreatic uptake (19.8 6 6.9 vs. 105 6 13 %ID/g of tissue at 240 min after injection) with the higher peptide amount injected, leading to a significant increase in the absorbed dose to the tumor versus the pancreas (200 pmol, 570 vs. 265 mGy/ MBq; 10 pmol, 435 vs. 1393 mGy/MBq). Using these data to predict patient dosimetry, we found a

Published

2017

9. Theranostic perspectives in prostate cancer with the gastrin-releasing peptide receptor antagonist NeoBOMB1: Preclinical and first clinical results

Author

Nock, B.A. (Berthold), Kaloudi, A. (Katerina), Lymperis, E. (Emmanouil), Giarika, A. (Athina), Kulkarni, H.R. (Harshad R.), Klette, I. (Ingo), Singh, A. (Aviral), Krenning, E.P. (Eric), Jong, M. (Marion) de, Maina, T. (Theodosia), Baüm, R.P. (Richard), Nock, B.A. (Berthold), Kaloudi, A. (Katerina), Lymperis, E. (Emmanouil), Giarika, A. (Athina), Kulkarni, H.R. (Harshad R.), Klette, I. (Ingo), Singh, A. (Aviral), Krenning, E.P. (Eric), Jong, M. (Marion) de, Maina, T. (Theodosia), and Baüm, R.P. (Richard)

Abstract

We recently introduced the potent gastrin-releasing peptide receptor (GRPR) antagonist 68Ga-SB3 (68Ga-DOTA-p-Aminomethylaniline-diglycolic acid-DPhe-Gln-Trp-Ala-Val-Gly-His-Leu-NHEt), showing excellent tumor localizing efficacy in animal models and in patients. By replacement of the C-Terminal Leu13-Met14-NH2 dipeptide of SB3 by Sta13-Leu14-NH2, the novel GRPR antagonist NeoBOMB1 was generated and labeled with different radiometals for theranostic use. We herein report on the biologic profile of resulting 67/68Ga-, 111In-, and 177Lu-NeoBOMB1 radioligands in GRPR-expressing cells and mouse models. The first evidence of prostate cancer lesion visualization in men using 68Ga-NeoBOMB1 and PET/CT is also presented. Methods: NeoBOMB1 was radiolabeled with 67/68Ga, 111In, and 177Lu according to published protocols. The respective metalated species natGa-, natIn-, and natLu-NeoBOMB1 were also synthesized and used in competition binding experiments against [125I-Tyr4]BBN in GRPRpositive PC-3 cell membranes. Internalization of 67Ga-, 111In-, and 177Lu-NeoBOMB1 radioligands was studied in PC-3 cells at 37°C, and their metabolic stability in peripheral mouse blood was determined by high-performance liquid chromatography analysis of blood samples. Biodistribution was performed by injecting a 67Ga-, 111In-, or 177Lu-NeoBOMB1 bolus (74, 74, or 370 kBq, respectively, 100 mL, 10 pmol total peptide6 40 nmol Tyr4-BBN: f

Published

2017

10. Comparison of three radiolabelled peptide analogues for CCK-2 receptor scintigraphy in medullary thyroid carcinoma

Author

Fröberg, A.C. (Alida), Jong, M. (Marion) de, Nock, B.A. (Berthold), Breeman, W.A.P. (Wouter), Erion, J.L. (Jack), Maina, T. (Theodosia), Verdijsseldonck, M. (Marion), Herder, W.W. (Wouter) de, Lugt, A. (Aad) van der, Kooij, P.P.M. (Peter), Krenning, E.P. (Eric), Fröberg, A.C. (Alida), Jong, M. (Marion) de, Nock, B.A. (Berthold), Breeman, W.A.P. (Wouter), Erion, J.L. (Jack), Maina, T. (Theodosia), Verdijsseldonck, M. (Marion), Herder, W.W. (Wouter) de, Lugt, A. (Aad) van der, Kooij, P.P.M. (Peter), and Krenning, E.P. (Eric)

Abstract

Purpose: Cholecystokinin 2 (CCK-2) receptor overexpression has been demonstrated in a high percentage of medullary thyroid carcinomas (MTC). Analogous to somatostatin receptors, CCK-2 receptors might be viable targets for radionuclide scintigraphy and/or radionuclide therapy. Several CCK-2 receptor-binding radiopeptides have been developed, and some have been carried through into clinical studies. However, these studies are mostly limited and difficult to compare. The aim of this study was to evaluate the diagnostic and therapeutic potential of three promising CCK-2 receptor-binding radiopeptides in patients with MTC. Methods: 111In-DOTA-(D)Asp-Tyr-Nle-Gly-Trp-Nle- Asp-Phe-NH2 (111In-DOTA-CCK), a CCK analogue, and the gastrin-based ligands 99mTc-N4-Gly-(D)Glu-(Glu) 5-Ala-Tyr-Gly-Trp-Met-Asp-Phe-NH2 (99mTc- demogastrin 2) and 111In-DOTA-(D)Glu-Ala-Tyr-Gly-Trp-Met-Asp-Phe- NH2 (111In-DOTA-MG11) were each administered to the same group of six patients. Planar images made at 3-5, 7 and 24 h p.i. were used for comparison of tumour visualisation and renal uptake. Results: 99mTc-demogastrin 2 scintigraphy visualised all known lesions and new lesions in four of six patients. 111In-DOTA-CCK and 111In-DOTA-MG11 on the other hand missed several lesions; tumour uptake of these two radiopharmaceuticals was quite low. Comparison of retention of renal activity showed no major differences between the three radiopeptides. Conclusion: 99mTc-demogastrin 2 scintigraphy appeared most promising as a diagnostic tool in patients with MTC. Further studies are required to evaluate its value in patient management. Direct comparisons of the compounds studied strongly suggests that 111In-DOTA-CCK and 111In-DOTA-MG11 have less potential as imaging agents than 99mTc-demogastrin 2. These DOTA-linked compounds are considered unlikely to be useful for radionuclide therapy because of low tumour uptake.

Published

2009