Your search keyword '"Minigastrin"' showing total 130 results

1. Radiopharmaceutical formulation and preliminary clinical dosimetry of [177Lu]Lu-DOTA-MGS5 for application in peptide receptor radionuclide therapy

Author

Zavvar, Taraneh Sadat, Hörmann, Anton Amadeus, Konijnenberg, Mark, Kraihammer, Martin, Mair, Christian, Kronthaler, Ariane, Joosten, Lieke, Laverman, Peter, Gruber, Leonhard, di Santo, Gianpaolo, Decristoforo, Clemens, Virgolini, Irene, and von Guggenberg, Elisabeth

Published

2024

2. Significant reduction of activity retention in the kidneys via optimized linker sequences in radiohybrid-based minigastrin analogs

Author

Nadine Holzleitner, Sebastian Fischer, Isabel Maniyankerikalam, Roswitha Beck, Constantin Lapa, Hans-Jürgen Wester, and Thomas Günther

Subjects

Cholecystokinin-2 receptor (CCK-2R), Cholecystokinin-B receptor (CCK-BR), Medullary thyroid carcinoma (MTC), Minigastrin, Radiohybrid, rhCCK, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Background We recently introduced radiohybrid (rh)-based minigastrin analogs e.g., DOTA-rhCCK-18 (DOTA-D-Dap(p-SiFA)-(D-γ-Glu)8-Ala-Tyr-Gly-Trp-Nle-Asp-Phe-NH2), that revealed substantially increased activity retention in the tumor. However, one major drawback of these first generation rh-based cholecystokinin-2 receptor (CCK-2R) ligands is their elevated activity levels in the kidneys, especially at later time points (24 h p.i.). Therefore, this study aimed to reduce kidney retention with regard to a therapeutic use via substitution of negatively charged D-glutamic acid moieties by hydrophilic uncharged polyethylene glycol (PEG) linkers of various length ((PEG)4 to (PEG)11). Furthermore, the influence of differently charged silicon-based fluoride acceptor (SiFA)-moieties (p-SiFA: neutral, SiFA-ipa: negatively charged, and SiFAlin: positively charged) on in vitro properties of minigastrin analogs was evaluated. Out of all compounds evaluated in vitro, the two most promising minigastrin analogs were further investigated in vivo. Results CCK-2R affinity of most compounds evaluated was found to be in a range of 8–20 nM (by means of apparent IC 50), while ligands containing a SiFA-ipa moiety displayed elevated IC 50 values. Lipophilicity was noticeably lower for compounds containing a D-γ-glutamate (D-γ-Glu) moiety next to the D-Dap(SiFA) unit as compared to their counterparts lacking the additional negative charge. Within this study, combining the most favorable CCK-2R affinity and lipophilicity, [177/natLu]Lu-DOTA-rhCCK-70 (DOTA-D-Dap(p-SiFA)-D-γ-Glu-(PEG)7-D-γ-Glu-(PEG)3-Trp-(N-Me)Nle-Asp-1-Nal-NH2; IC 50: 12.6 ± 2.0 nM; logD 7.4: − 1.67 ± 0.08) and [177/natLu]Lu-DOTA-rhCCK-91 (DOTA-D-Dap(SiFAlin)-D-γ-Glu-(PEG)4-D-γ-Glu-(PEG)3-Trp-(N-Me)Nle-Asp-1-Nal-NH2; IC 50: 8.6 ± 0.7 nM; logD 7.4 = − 1.66 ± 0.07) were further evaluated in vivo. Biodistribution data of both compounds revealed significantly reduced (p

Published

2024

3. Significant reduction of activity retention in the kidneys via optimized linker sequences in radiohybrid-based minigastrin analogs

Author

Holzleitner, Nadine, Fischer, Sebastian, Maniyankerikalam, Isabel, Beck, Roswitha, Lapa, Constantin, Wester, Hans-Jürgen, and Günther, Thomas

Published

2024

4. Investigation of the structure-activity relationship at the N-terminal part of minigastrin analogs

Author

Nadine Holzleitner, Thomas Günther, Amira Daoud-Gadieh, Constantin Lapa, and Hans-Jürgen Wester

Subjects

Cholecystokinin-2 receptor (CCK-2R), Cholecystokinin-B receptor (CCK-BR), Medullary thyroid carcinoma (MTC), Minigastrin, Tetrapeptide, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Background Over the last years, several strategies have been reported to improve the metabolic stability of minigastrin analogs. However, currently applied compounds still reveal limited in vitro and in vivo stability. We thus performed a glycine scan at the N-terminus of DOTA-MGS5 (DOTA-d-Glu-Ala-Tyr-Gly-Trp-(N-Me)Nle-Asp-1-Nal) to systematically analyze the peptide structure. We substituted N-terminal amino acids by simple PEG spacers and investigated in vitro stability in human serum. Furthermore, we evaluated different modifications on its tetrapeptide binding sequence (H-Trp-(N-Me)Nle-Asp-1-Nal-NH2). Results Affinity data of all glycine scan peptides were found to be in a low nanomolar range (4.2–8.5 nM). However, a truncated compound lacking the d-γ-Glu-Ala-Tyr sequence revealed a significant loss in CCK-2R affinity. Substitution of the d-γ-Glu-Ala-Tyr-Gly sequence of DOTA-γ-MGS5 (DOTA- d-γ-Glu-Ala-Tyr-Gly-Trp-(N-Me)Nle-Asp-1-Nal-NH2) by polyethylene glycol (PEG) spacers of different length exhibited only a minor influence on CCK-2R affinity and lipophilicity. However, in vitro stability of the PEG-containing compounds was significantly decreased. In addition, we confirmed that the tetrapeptide sequence H-Trp-Asp-(N-Me)Nle-1-Nal-NH2 is indeed sufficient for high CCK-2R affinity. Conclusion We could demonstrate that a substitution of d-γ-Glu-Ala-Tyr-Gly by PEG spacers simplified the peptide structure of DOTA-MGS5 while high CCK-2R affinity and favorable lipophilicity were maintained. Nevertheless, further optimization with regard to metabolic stability must be carried out for these minigastrin analogs.

Published

2023

5. Investigation of the structure-activity relationship at the N-terminal part of minigastrin analogs.

Author

Holzleitner, Nadine, Günther, Thomas, Daoud-Gadieh, Amira, Lapa, Constantin, and Wester, Hans-Jürgen

Subjects

*STRUCTURE-activity relationships, *LIPOPHILICITY, *PEPTIDES, *AMINO acids, *POLYETHYLENE glycol, *MEDULLARY thyroid carcinoma

Abstract

Background: Over the last years, several strategies have been reported to improve the metabolic stability of minigastrin analogs. However, currently applied compounds still reveal limited in vitro and in vivo stability. We thus performed a glycine scan at the N-terminus of DOTA-MGS5 (DOTA-d-Glu-Ala-Tyr-Gly-Trp-(N-Me)Nle-Asp-1-Nal) to systematically analyze the peptide structure. We substituted N-terminal amino acids by simple PEG spacers and investigated in vitro stability in human serum. Furthermore, we evaluated different modifications on its tetrapeptide binding sequence (H-Trp-(N-Me)Nle-Asp-1-Nal-NH2). Results: Affinity data of all glycine scan peptides were found to be in a low nanomolar range (4.2–8.5 nM). However, a truncated compound lacking the d-γ-Glu-Ala-Tyr sequence revealed a significant loss in CCK-2R affinity. Substitution of the d-γ-Glu-Ala-Tyr-Gly sequence of DOTA-γ-MGS5 (DOTA- d-γ-Glu-Ala-Tyr-Gly-Trp-(N-Me)Nle-Asp-1-Nal-NH2) by polyethylene glycol (PEG) spacers of different length exhibited only a minor influence on CCK-2R affinity and lipophilicity. However, in vitro stability of the PEG-containing compounds was significantly decreased. In addition, we confirmed that the tetrapeptide sequence H-Trp-Asp-(N-Me)Nle-1-Nal-NH2 is indeed sufficient for high CCK-2R affinity. Conclusion: We could demonstrate that a substitution of d-γ-Glu-Ala-Tyr-Gly by PEG spacers simplified the peptide structure of DOTA-MGS5 while high CCK-2R affinity and favorable lipophilicity were maintained. Nevertheless, further optimization with regard to metabolic stability must be carried out for these minigastrin analogs. [ABSTRACT FROM AUTHOR]

Published

2023

6. Comparative analysis of cancer cell responses to targeted radionuclide therapy (TRT) and external beam radiotherapy (EBRT)

Author

Michal Grzmil, Paul Boersema, Ashish Sharma, Alain Blanc, Stefan Imobersteg, Martin Pruschy, Paola Picotti, Roger Schibli, and Martin Behe

Subjects

CCKBR, Minigastrin, Phosphoproteomics, Radioresistance, Erlotinib, Diseases of the blood and blood-forming organs, RC633-647.5, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract The vast majority of our knowledge regarding cancer radiobiology and the activation of radioresistance mechanisms emerged from studies using external beam radiation therapy (EBRT). Yet, less is known about the cancer response to internal targeted radionuclide therapy (TRT). Our comparative phosphoproteomics analyzed cellular responses to TRT with lutetium-177-labeled minigastrin analogue [177Lu]Lu-PP-F11N (β-emitter) and EBRT (ɣ-rays) in CCKBR-positive cancer cells. Activation of DNA damage response by p53 was induced by both types of radiotherapy, whereas TRT robustly increased activation of signaling pathways including epidermal growth factor receptor (EGFR), mitogen-activated protein kinases (MAPKs) or integrin receptor. Inhibition of EGFR or integrin signaling sensitized cancer cells to radiolabeled minigastrin. In vivo, EGFR inhibitor erlotinib increased therapeutic response to [177Lu]Lu-PP-F11N and median survival of A431/CCKBR-tumor bearing nude mice. In summary, our study explores a complex scenario of cancer responses to different types of irradiation and pinpoints the radiosensitizing strategy, based on the targeting survival pathways, which are activated by TRT.

Published

2022

7. Effects of Side Chain and Peptide Bond Modifications on the Targeting Properties of Stabilized Minigastrin Analogs.

Author

Zavvar, Taraneh Sadat, Hörmann, Anton Amadeus, Klingler, Maximilian, Summer, Dominik, Rangger, Christine, Desrues, Laurence, Castel, Hélène, Gandolfo, Pierrick, and von Guggenberg, Elisabeth

Subjects

*PEPTIDE bonds, *PEPTIDE receptors, *PEPTIDES, *PEPTIDE derivatives, *CHEMICAL properties

Abstract

Different attempts have been made in the past two decades to develop radiolabeled peptide conjugates with enhanced pharmacokinetic properties in order to improve the application for tumor imaging and peptide receptor radionuclide therapy (PRRT), which targets the cholecystokinin-2 receptor (CCK2R). In this paper, the influence of different side chain and peptide bond modifications has been explored for the minigastrin analog DOTA-DGlu-Ala-Tyr-Gly-Trp-(N-Me)Nle-Asp-1Nal-NH2 (DOTA-MGS5). Based on this lead structure, five new derivatives were synthesized for radiolabeling with trivalent radiometals. Different chemical and biological properties of the new derivatives were analyzed. Receptor interaction of the peptide derivatives and cell internalization of the radiolabeled peptides were studied in A431-CCK2R cells. The stability of the radiolabeled peptides in vivo was investigated using BALB/c mice. Tumor targeting of all 111In-labeled peptide conjugates, and of a selected compound radiolabeled with gallium-68 and lutetium-177, was evaluated in BALB/c nude mice xenografted with A431-CCK2R and A431-mock cells. All 111In-labeled conjugates, except [111In]In-DOTA-[Phe8]MGS5, showed a high resistance against enzymatic degradation. A high receptor affinity with IC50 values in the low nanomolar range was confirmed for most of the peptide derivatives. The specific cell internalization over time was 35.3–47.3% for all radiopeptides 4 h after incubation. Only [111In]In-DOTA-MGS5[NHCH3] exhibited a lower cell internalization of 6.6 ± 2.8%. An overall improved resistance against enzymatic degradation was confirmed in vivo. Of the radiopeptides studied, [111In]In-DOTA-[(N-Me)1Nal8]MGS5 showed the most promising targeting properties, with significantly increased accumulation of radioactivity in A431-CCK2R xenografts (48.1 ± 9.2% IA/g) and reduced accumulation of radioactivity in stomach (4.2 ± 0.5% IA/g). However, in comparison with DOTA-MGS5, a higher influence on the targeting properties was observed for the change of radiometal, resulting in a tumor uptake of 15.67 ± 2.21% IA/g for [68Ga]Ga-DOTA-[(N-Me)1Nal8]MGS5 and 35.13 ± 6.32% IA/g for [177Lu]Lu-DOTA-[(N-Me)1Nal8]MGS5. [ABSTRACT FROM AUTHOR]

Published

2023

8. Radiopharmaceutical formulation and preliminary clinical dosimetry of [177Lu]Lu-DOTA-MGS5 for application in peptide receptor radionuclide therapy.

Author

Zavvar, Taraneh Sadat, Hörmann, Anton Amadeus, Konijnenberg, Mark, Kraihammer, Martin, Mair, Christian, Kronthaler, Ariane, Joosten, Lieke, Laverman, Peter, Gruber, Leonhard, di Santo, Gianpaolo, Decristoforo, Clemens, Virgolini, Irene, and von Guggenberg, Elisabeth

Subjects

*MEDICAL dosimetry, *RADIOCHEMICAL purification, *PEPTIDE receptors, *ABSORBED dose, *GENETIC translation

Abstract

Purpose: Radiolabelled minigastrin (MG) analogues targeting the cholecystokinin-2 receptor (CCK2R) have proven to be a promising approach for peptide receptor radionuclide therapy (PRRT). In this study, we report on the radiopharmaceutical development and standardization of the preparation of [177Lu]Lu-DOTA-MGS5 using an automated synthesis module. Furthermore, we present the preclinical tests required to move forward towards a first therapeutic clinical trial as well as preliminary clinical dosimetry data.Five individual batches of [177Lu]Lu-DOTA-MGS5 were synthesized and analysed according to predefined quality control specifications. Cell-based experiments and biodistribution studies were performed to evaluate the specific receptor binding and tumour uptake of the radiopharmaceutical formulation. A preclinical dosimetry study was carried out in tumour xenografted mice and a first dosimetry study was performed in a patient with small cell lung cancer.The automated cassette-based production of [177Lu]Lu-DOTA-MGS5 resulted in a product with high radiochemical purity of > 98% and high stability. The new radiopharmaceutical showed a favourable biodistribution profile in A431-CCK2R xenografted BALB/c nude mice. Pharmacokinetic data obtained in mice and dosimetry extrapolation demonstrated the feasibility of PRRT. In the preliminary patient-specific dosimetry study, a low risk of toxicity was shown and a mean absorbed dose of 12.5 ± 10.2 (1.2–28) Gy/GBq was calculated for delineable tumour lesions.The radiopharmaceutical development and the preclinical/clinical results support the initiation of a first clinical trial to evaluate the therapeutic potential of [177Lu]Lu-DOTA-MGS5 in PRRT.Methods: Radiolabelled minigastrin (MG) analogues targeting the cholecystokinin-2 receptor (CCK2R) have proven to be a promising approach for peptide receptor radionuclide therapy (PRRT). In this study, we report on the radiopharmaceutical development and standardization of the preparation of [177Lu]Lu-DOTA-MGS5 using an automated synthesis module. Furthermore, we present the preclinical tests required to move forward towards a first therapeutic clinical trial as well as preliminary clinical dosimetry data.Five individual batches of [177Lu]Lu-DOTA-MGS5 were synthesized and analysed according to predefined quality control specifications. Cell-based experiments and biodistribution studies were performed to evaluate the specific receptor binding and tumour uptake of the radiopharmaceutical formulation. A preclinical dosimetry study was carried out in tumour xenografted mice and a first dosimetry study was performed in a patient with small cell lung cancer.The automated cassette-based production of [177Lu]Lu-DOTA-MGS5 resulted in a product with high radiochemical purity of > 98% and high stability. The new radiopharmaceutical showed a favourable biodistribution profile in A431-CCK2R xenografted BALB/c nude mice. Pharmacokinetic data obtained in mice and dosimetry extrapolation demonstrated the feasibility of PRRT. In the preliminary patient-specific dosimetry study, a low risk of toxicity was shown and a mean absorbed dose of 12.5 ± 10.2 (1.2–28) Gy/GBq was calculated for delineable tumour lesions.The radiopharmaceutical development and the preclinical/clinical results support the initiation of a first clinical trial to evaluate the therapeutic potential of [177Lu]Lu-DOTA-MGS5 in PRRT.Results: Radiolabelled minigastrin (MG) analogues targeting the cholecystokinin-2 receptor (CCK2R) have proven to be a promising approach for peptide receptor radionuclide therapy (PRRT). In this study, we report on the radiopharmaceutical development and standardization of the preparation of [177Lu]Lu-DOTA-MGS5 using an automated synthesis module. Furthermore, we present the preclinical tests required to move forward towards a first therapeutic clinical trial as well as preliminary clinical dosimetry data.Five individual batches of [177Lu]Lu-DOTA-MGS5 were synthesized and analysed according to predefined quality control specifications. Cell-based experiments and biodistribution studies were performed to evaluate the specific receptor binding and tumour uptake of the radiopharmaceutical formulation. A preclinical dosimetry study was carried out in tumour xenografted mice and a first dosimetry study was performed in a patient with small cell lung cancer.The automated cassette-based production of [177Lu]Lu-DOTA-MGS5 resulted in a product with high radiochemical purity of > 98% and high stability. The new radiopharmaceutical showed a favourable biodistribution profile in A431-CCK2R xenografted BALB/c nude mice. Pharmacokinetic data obtained in mice and dosimetry extrapolation demonstrated the feasibility of PRRT. In the preliminary patient-specific dosimetry study, a low risk of toxicity was shown and a mean absorbed dose of 12.5 ± 10.2 (1.2–28) Gy/GBq was calculated for delineable tumour lesions.The radiopharmaceutical development and the preclinical/clinical results support the initiation of a first clinical trial to evaluate the therapeutic potential of [177Lu]Lu-DOTA-MGS5 in PRRT.Conclusion: Radiolabelled minigastrin (MG) analogues targeting the cholecystokinin-2 receptor (CCK2R) have proven to be a promising approach for peptide receptor radionuclide therapy (PRRT). In this study, we report on the radiopharmaceutical development and standardization of the preparation of [177Lu]Lu-DOTA-MGS5 using an automated synthesis module. Furthermore, we present the preclinical tests required to move forward towards a first therapeutic clinical trial as well as preliminary clinical dosimetry data.Five individual batches of [177Lu]Lu-DOTA-MGS5 were synthesized and analysed according to predefined quality control specifications. Cell-based experiments and biodistribution studies were performed to evaluate the specific receptor binding and tumour uptake of the radiopharmaceutical formulation. A preclinical dosimetry study was carried out in tumour xenografted mice and a first dosimetry study was performed in a patient with small cell lung cancer.The automated cassette-based production of [177Lu]Lu-DOTA-MGS5 resulted in a product with high radiochemical purity of > 98% and high stability. The new radiopharmaceutical showed a favourable biodistribution profile in A431-CCK2R xenografted BALB/c nude mice. Pharmacokinetic data obtained in mice and dosimetry extrapolation demonstrated the feasibility of PRRT. In the preliminary patient-specific dosimetry study, a low risk of toxicity was shown and a mean absorbed dose of 12.5 ± 10.2 (1.2–28) Gy/GBq was calculated for delineable tumour lesions.The radiopharmaceutical development and the preclinical/clinical results support the initiation of a first clinical trial to evaluate the therapeutic potential of [177Lu]Lu-DOTA-MGS5 in PRRT. [ABSTRACT FROM AUTHOR]

Published

2024

9. Comparative analysis of cancer cell responses to targeted radionuclide therapy (TRT) and external beam radiotherapy (EBRT).

Author

Grzmil, Michal, Boersema, Paul, Sharma, Ashish, Blanc, Alain, Imobersteg, Stefan, Pruschy, Martin, Picotti, Paola, Schibli, Roger, and Behe, Martin

Subjects

*CANCER cell analysis, *EXTERNAL beam radiotherapy, *ERLOTINIB, *MITOGEN-activated protein kinases, *EPIDERMAL growth factor receptors, *RADIOISOTOPES, *DOSE-response relationship (Radiation)

Abstract

The vast majority of our knowledge regarding cancer radiobiology and the activation of radioresistance mechanisms emerged from studies using external beam radiation therapy (EBRT). Yet, less is known about the cancer response to internal targeted radionuclide therapy (TRT). Our comparative phosphoproteomics analyzed cellular responses to TRT with lutetium-177-labeled minigastrin analogue [177Lu]Lu-PP-F11N (β-emitter) and EBRT (ɣ-rays) in CCKBR-positive cancer cells. Activation of DNA damage response by p53 was induced by both types of radiotherapy, whereas TRT robustly increased activation of signaling pathways including epidermal growth factor receptor (EGFR), mitogen-activated protein kinases (MAPKs) or integrin receptor. Inhibition of EGFR or integrin signaling sensitized cancer cells to radiolabeled minigastrin. In vivo, EGFR inhibitor erlotinib increased therapeutic response to [177Lu]Lu-PP-F11N and median survival of A431/CCKBR-tumor bearing nude mice. In summary, our study explores a complex scenario of cancer responses to different types of irradiation and pinpoints the radiosensitizing strategy, based on the targeting survival pathways, which are activated by TRT. [ABSTRACT FROM AUTHOR]

Published

2022

10. Radiolabeled Peptides for Cancer Imaging and Therapy: From Bench-to-Bedside

Author

Rosalba Mansi and Melpomene Fani

Subjects

clinical translation, exendin-4, minigastrin, somatostatin, theranostics, Chemistry, QD1-999

Abstract

Radiolabeled peptides can deliver radiation selectively to tumors via targeting peptide receptors that are overexpressed on the surface of cancer cells. The radiation is used either for detection (imaging) or for destruction (therapy) of these tumors. The Division of Radiopharmaceutical Chemistry at the University Hospital Basel has conducted pioneering work on the development of peptide-based radiopharmaceuticals. Our research covers the entire spectrum of such developments, from bench-to-bedside, and it is illustrated in this article by selective cases.

Published

2021

11. Automated Synthesis of 68 Ga-Labeled DOTA-MGS8 and Preclinical Characterization of Cholecystokinin-2 Receptor Targeting.

Author

Hörmann, Anton Amadeus, Plhak, Elisabeth, Klingler, Maximilian, Rangger, Christine, Pfister, Joachim, Schwach, Gert, Kvaternik, Herbert, and von Guggenberg, Elisabeth

Subjects

*POSITRON emission tomography, *QUALITY control, *GIBBERELLINS

Abstract

The new minigastrin analog DOTA-MGS8 targeting the cholecystokinin-2 receptor (CCK2R) used in this study displays the combination of two site-specific modifications within the C-terminal receptor binding sequence together with an additional N-terminal amino acid substitution preventing fast metabolic degradation. Within this study, the preparation of 68Ga-labeled DOTA-MGS8 was validated using an automated synthesis module, describing the specifications and analytical methods for quality control for possible clinical use. In addition, preclinical studies were carried out to characterize the targeting potential. [68Ga]Ga-DOTA-MGS8 showed a high receptor-specific cell internalization into AR42J rat pancreatic cells (~40%) with physiological expression of rat CCK2R as well as A431-CCK2R cells transfected to stably express human CCK2R (~47%). A favorable biodistribution profile was observed in BALB/c nude mice xenografted with A431-CCK2R cells and mock-transfected A431 cells as control. The high tumor uptake of ~27% IA/g together with low background activity and limited uptake in non-target tissue confirms the potential for high-sensitivity positron emission tomography of stabilized MG analogs in patients with MTC and other CCK2R-related malignancies. [ABSTRACT FROM AUTHOR]

Published

2022

12. Targeted Radiotherapeutics from 'Bench-to-Bedside'

Author

Cristina Müller, Martin Béhé, Susanne Geistlich, Nicholas P. van der Meulen, and Roger Schibli

Subjects

folate, minigastrin, psma, radiopharmacy, targeted radionuclide therapy, terbium radionuclides, theragnostics, Chemistry, QD1-999

Abstract

he concept of targeted radionuclide therapy (TRT) is the accurate and efficient delivery of radiation to disseminated cancer lesions while minimizing damage to healthy tissue and organs. Critical aspects for successful development of novel radiopharmaceuticals for TRT are: i) the identification and characterization of suitable targets expressed on cancer cells; ii) the selection of chemical or biological molecules which exhibit high affinity and selectivity for the cancer cell-associated target; iii) the selection of a radionuclide with decay properties that suit the properties of the targeting molecule and the clinical purpose. The Center for Radiopharmaceutical Sciences (CRS) at the Paul Scherrer Institute in Switzerland is privileged to be situated close to unique infrastructure for radionuclide production (high energy accelerators and a neutron source) and access to C/B-type laboratories including preclinical, nuclear imaging equipment and Swissmedic-certified laboratories for the preparation of drug samples for human use. These favorable circumstances allow production of non-standard radionuclides, exploring their biochemical and pharmacological features and effects for tumor therapy and diagnosis, while investigating and characterizing new targeting structures and optimizing these aspects for translational research on radiopharmaceuticals. In close collaboration with various clinical partners in Switzerland, the most promising candidates are translated to clinics for 'first-in-human' studies. This article gives an overview of the research activities at CRS in the field of TRT by the presentation of a few selected projects.

Published

2020

13. Effects of Side Chain and Peptide Bond Modifications on the Targeting Properties of Stabilized Minigastrin Analogs

Author

Taraneh Sadat Zavvar, Anton Amadeus Hörmann, Maximilian Klingler, Dominik Summer, Christine Rangger, Laurence Desrues, Hélène Castel, Pierrick Gandolfo, and Elisabeth von Guggenberg

Subjects

minigastrin, cholecystokinin-2 receptor, metabolic stabilization, molecular imaging, radiometals, theranostics, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Different attempts have been made in the past two decades to develop radiolabeled peptide conjugates with enhanced pharmacokinetic properties in order to improve the application for tumor imaging and peptide receptor radionuclide therapy (PRRT), which targets the cholecystokinin-2 receptor (CCK2R). In this paper, the influence of different side chain and peptide bond modifications has been explored for the minigastrin analog DOTA-DGlu-Ala-Tyr-Gly-Trp-(N-Me)Nle-Asp-1Nal-NH2 (DOTA-MGS5). Based on this lead structure, five new derivatives were synthesized for radiolabeling with trivalent radiometals. Different chemical and biological properties of the new derivatives were analyzed. Receptor interaction of the peptide derivatives and cell internalization of the radiolabeled peptides were studied in A431-CCK2R cells. The stability of the radiolabeled peptides in vivo was investigated using BALB/c mice. Tumor targeting of all 111In-labeled peptide conjugates, and of a selected compound radiolabeled with gallium-68 and lutetium-177, was evaluated in BALB/c nude mice xenografted with A431-CCK2R and A431-mock cells. All 111In-labeled conjugates, except [111In]In-DOTA-[Phe8]MGS5, showed a high resistance against enzymatic degradation. A high receptor affinity with IC50 values in the low nanomolar range was confirmed for most of the peptide derivatives. The specific cell internalization over time was 35.3–47.3% for all radiopeptides 4 h after incubation. Only [111In]In-DOTA-MGS5[NHCH3] exhibited a lower cell internalization of 6.6 ± 2.8%. An overall improved resistance against enzymatic degradation was confirmed in vivo. Of the radiopeptides studied, [111In]In-DOTA-[(N-Me)1Nal8]MGS5 showed the most promising targeting properties, with significantly increased accumulation of radioactivity in A431-CCK2R xenografts (48.1 ± 9.2% IA/g) and reduced accumulation of radioactivity in stomach (4.2 ± 0.5% IA/g). However, in comparison with DOTA-MGS5, a higher influence on the targeting properties was observed for the change of radiometal, resulting in a tumor uptake of 15.67 ± 2.21% IA/g for [68Ga]Ga-DOTA-[(N-Me)1Nal8]MGS5 and 35.13 ± 6.32% IA/g for [177Lu]Lu-DOTA-[(N-Me)1Nal8]MGS5.

Published

2023

14. Theranostics in neuroendocrine tumors: an overview of current approaches and future challenges.

Author

Refardt, Julie, Hofland, Johannes, Kwadwo, Antwi, Nicolas, Guillaume P., Rottenburger, Christof, Fani, Melpomeni, Wild, Damian, and Christ, Emanuel

Abstract

Neuroendocrine neoplasms (NENs) comprise a heterogeneous group of tumors, mainly localized in the gastrointestinal system. What characterizes NENs is the expression of hormone receptors on the tumor cell surface, making them accessible for diagnostic and therapeutic approaches (theranostics) using radiolabelled peptides. Somatostatin receptors subtype-two (SST2) play an important role in NENs since they are overexpressed and homogeneously distributed at the surface of the majority of NENs. Accordingly, targeting SST2 for diagnostic and therapeutic purposes has been established. Current research aims at upregulating its expression by epigenetic treatment or improving its targeting via use of alternative radioligands. In addition, recent data suggest a future role of SST antagonists as a diagnostic tool and a potential therapeutic option. Another promising target is the glucagon-like peptide-1 (GLP-1) receptor. Targeting GLP-1R using exendin-4 (GLP-1 analogue) has a high sensitivity for the localization of the often SST2-negative sporadic insulinomas and insulinomas in the context of multiple endocrine neoplasia type-1. Further options for patients with insufficient expression of SST2 involve metaiodobenzylguanidine (MIBG) and the molecular target C-X-C motif chemokine receptor-4 (CXCR4), which have been evaluated for potential theranostic approach in symptomatic NENs or dedifferentiated tumors. Recently, new targets such as the glucose-dependent insulinotropic polypeptide receptor (GIPR) and the fibroblast activation protein (FAP) have been identified in NENs. Finally, minigastrin – a ligand targeting the cholecystokinin-2 (CCK2) receptors in medullary thyroid carcinoma and foregut neuroendocrine tumors – may improve future management of these diseases with currently limited therapeutic options. This review summarises the current approaches and future challenges of diagnostic and therapeutic evaluations in neuroendocrine neoplasms. [ABSTRACT FROM AUTHOR]

Published

2021

15. Automated Synthesis of 68Ga-Labeled DOTA-MGS8 and Preclinical Characterization of Cholecystokinin-2 Receptor Targeting

Author

Anton Amadeus Hörmann, Elisabeth Plhak, Maximilian Klingler, Christine Rangger, Joachim Pfister, Gert Schwach, Herbert Kvaternik, and Elisabeth von Guggenberg

Subjects

minigastrin, automated synthesis, cholecystokinin-2 receptor, radiometals, molecular imaging, Organic chemistry, QD241-441

Abstract

The new minigastrin analog DOTA-MGS8 targeting the cholecystokinin-2 receptor (CCK2R) used in this study displays the combination of two site-specific modifications within the C-terminal receptor binding sequence together with an additional N-terminal amino acid substitution preventing fast metabolic degradation. Within this study, the preparation of 68Ga-labeled DOTA-MGS8 was validated using an automated synthesis module, describing the specifications and analytical methods for quality control for possible clinical use. In addition, preclinical studies were carried out to characterize the targeting potential. [68Ga]Ga-DOTA-MGS8 showed a high receptor-specific cell internalization into AR42J rat pancreatic cells (~40%) with physiological expression of rat CCK2R as well as A431-CCK2R cells transfected to stably express human CCK2R (~47%). A favorable biodistribution profile was observed in BALB/c nude mice xenografted with A431-CCK2R cells and mock-transfected A431 cells as control. The high tumor uptake of ~27% IA/g together with low background activity and limited uptake in non-target tissue confirms the potential for high-sensitivity positron emission tomography of stabilized MG analogs in patients with MTC and other CCK2R-related malignancies.

Published

2022

16. Radiopharmaceutical Formulation and Preclinical Testing of 68Ga-Labeled DOTA-MGS5 for the Regulatory Approval of a First Exploratory Clinical Trial

Author

Anton A. Hörmann, Maximilian Klingler, Christine Rangger, Christian Mair, Clemens Decristoforo, Christian Uprimny, Irene J. Virgolini, and Elisabeth von Guggenberg

Subjects

cholecystokinin-2 receptor, minigastrin, molecular imaging, radiometals, clinical trial, automated synthesis, Medicine, Pharmacy and materia medica, RS1-441

Abstract

The new minigastrin analog DOTA-MGS5 is a promising new candidate for targeting cholecystokinin-2 receptor (CCK2R)-expressing tumors. To enable the clinical translation of PET/CT imaging using 68Ga-labeled DOTA-MGS5, different quality and safety aspects need to be considered to comply with the regulatory framework for clinical trial application. The preparation of the radiopharmaceutical was established using a cassette-based automated synthesis unit. Product specifications, including analytical procedures and acceptance criteria, were adopted from Ph. Eur. monographs for other 68Ga-labeled radiopharmaceuticals. Non-clinical studies included receptor affinity and cell uptake studies using two different CCK2R-expressing cell lines, as well as pharmacokinetic biodistribution studies in BALB/c mice for dosimetry calculations and toxicological studies in Wistar rats. The produced masterbatches fulfilled the defined acceptance criteria. DOTA-MGS5, with confirmed affinity to the CCK2R, showed a high specific cell uptake and no interaction with other receptors in vitro when radiolabeled with gallium-68. Favorable in vivo properties were observed in biodistribution and dosimetry studies. An effective dose of ~0.01 mSv/MBq was estimated for humans utilizing OLINDA/EXM software. A maximum peptide dose of 50 µg was established for the initial clinical dose based on the toxicity study in rats. The standardized production of [68Ga]Ga-DOTA-MGS5 using an automated synthesis module and the performed non-clinical safety studies support a first exploratory clinical trial with this new PET imaging agent.

Published

2021

17. Signaling Network Response to α-Particle–Targeted Therapy with the 225Ac-Labeled Minigastrin Analog 225Ac-PP-F11N Reveals the Radiosensitizing Potential of Histone Deacetylase Inhibitors

Author

Qin, Yun, Imobersteg, Stefan, Frank, Stephan, Blanc, Alain, Chiorazzo, Tanja, Berger, Philipp, Schibli, Roger, Béhé, Martin P., and Grzmil, Michal

Subjects

radioresistance, 225Ac, phosphoproteomics, minigastrin, CCKBR

Abstract

α-particle emitters have recently been explored as valuable therapeutic radionuclides. Yet, toxicity to healthy organs and cancer radioresistance limit the efficacy of targeted α-particle therapy (TAT). Identification of the radiation-activated mechanisms that drive cancer cell survival provides opportunities to develop new points for therapeutic interference to improve the efficacy and safety of TAT. Methods: Quantitative phosphoproteomics and matching proteomics followed by the bioinformatics analysis were used to identify alterations in the signaling networks in response to TAT with the 225Ac-labeled minigastrin analog 225Ac-PP-F11N (DOTA-(dGlu)6-Ala-Tyr-Gly-Trp-Nle-Asp-Phe) in A431 cells, which overexpress cholecystokinin B receptor (CCKBR). Western blot analysis and microscopy verified the activation of the selected signaling pathways. Small-molecule inhibitors were used to validate the potential of the radiosensitizing combinatory treatments both in vitro and in A431/CCKBR tumor-bearing nude mice. Results: TAT-induced alterations were involved in DNA damage response, cell cycle regulation, and signal transduction, as well as RNA transcription and processing, cell morphology, and transport. Western blot analysis and microscopy confirmed increased phosphorylations of the key proteins involved in DNA damage response and carcinogenesis, including p53, p53 binding protein 1 (p53BP1), histone deacetylases (HDACs), and H2AX. Inhibition of HDAC class II, ataxia-telangiectasia mutated (ATM), and p38 kinases by TMP269, AZD1390, and SB202190, respectively, sensitized A431/CCKBR cells to 225Ac-PP-F11N. As compared with the control and monotherapies, the combination of 225Ac-PP-F11N with the HDAC inhibitor vorinostat (suberoylanilide hydroxamic acid, SAHA) significantly reduced the viability and increased the DNA damage of A431/CCKBR cells, led to the most pronounced tumor growth inhibition, and extended the mean survival of A431/CCKBR xenografted nude mice. Conclusion: Our study revealed the cellular responses to TAT and demonstrated the radiosensitizing potential of HDAC inhibitors to 225Ac-PP-F11N in CCKBR-positive tumors. This proof-of-concept study recommends development of novel radiosensitizing strategies by targeting TAT-activated and survival-promoting signaling pathways., The Journal of Nuclear Medicine, 64 (6), ISSN:0097-9058, ISSN:0022-3123, ISSN:0161-5505, ISSN:2159-662X, ISSN:1535-5667

Published

2023

18. Initial In Vitro and In Vivo Evaluation of a Novel CCK2R Targeting Peptide Analog Labeled with Lutetium-177

Author

Anton Amadeus Hörmann, Maximilian Klingler, Maliheh Rezaeianpour, Nikolas Hörmann, Ronald Gust, Soraya Shahhosseini, and Elisabeth von Guggenberg

Subjects

cholecystokinin-2 receptor, minigastrin, molecular imaging, targeted radiotherapy, lutetium-177, Organic chemistry, QD241-441

Abstract

Targeting of cholecystokinin-2 receptor (CCK2R) expressing tumors using radiolabeled minigastrin (MG) analogs is hampered by rapid digestion of the linear peptide in vivo. In this study, a new MG analog stabilized against enzymatic degradation was investigated in preclinical studies to characterize the metabolites formed in vivo. The new MG analog DOTA-DGlu-Pro-Tyr-Gly-Trp-(N-Me)Nle-Asp-1Nal-NH2 comprising site-specific amino acid substitutions in position 2, 6 and 8 and different possible metabolites thereof were synthesized. The receptor interaction of the peptide and selected metabolites was evaluated in a CCK2R-expressing cell line. The enzymatic stability of the 177Lu-labeled peptide analog was evaluated in vitro in different media as well as in BALB/c mice up to 1 h after injection and the metabolites were identified based on radio-HPLC analysis. The new radiopeptide showed a highly increased stability in vivo with >56% intact radiopeptide in the blood of BALB/c mice 1 h after injection. High CCK2R affinity and cell uptake was confirmed only for the intact peptide, whereas enzymatic cleavage within the receptor specific C-terminal amino acid sequence resulted in complete loss of affinity and cell uptake. A favorable biodistribution profile was observed in BALB/c mice with low background activity, preferential renal excretion and prolonged uptake in CCK2R-expressing tissues. The novel stabilized MG analog shows high potential for diagnostic and therapeutic use. The radiometabolites characterized give new insights into the enzymatic degradation in vivo.

Published

2020

19. Radiooznačeni peptidi v nuklearni medicini

Author

Marko Krošelj, Petra Kolenc Peitl, Aljaž Sočan, Marijana Leskovec, Irena Mlinarič-Raščan, and Tanja Gmeiner

Subjects

radiooznačeni peptidi, teranostiki, radiofarmaki, somatostatin, minigastrin, Medicine

Abstract

Nuklearna medicina pri obravnavi onkoloških bolnikov omogoča slikovni prikaz oziroma lokalizacijo tumorjev, ciljano zdravljenje ter spremljanje uspešnosti zdravljenja. Visoko specifične radiooznačene peptidne učinkovine lahko izkoristimo za ciljanje tumorskih celic, ki imajo na svoji površini prekomerno izražene receptorje za te učinkovine. Enako peptidno učinkovino lahko radiooznačimo tako z diagnostičnimi kot terapevtskimi radionuklidi, kar nam omogoča personaliziran pristop pri obravnavi bolnikov. V preglednem članku opisujemo dva sistema teranostičnih parov, ki jih v nuklearni medicini uporabljamo za diagnosticiranje ter zdravljenje tumorjev. Klasičen primer takšnih teranostičnih parov so radiooznačeni analogi somatostatina, ki se rutinsko uporabljajo v diagnostiki ter zdravljenju nevroendokrinih tumorjev (NET) s prekomerno izraženimi receptorji za somatostatin. Po drugi strani pa so radiooznačeni analogi minigastrina, ki se vežejo na receptorje za holecistokinin-2, primerni za diagnostiko medularnega raka ščitnice (MTC), za njihovo varno zdravljenje pa še potekajo klinična preskušanja.

Published

2018

20. Cholecystokinin-2 Receptor Targeting with Novel C-terminally Stabilized HYNIC-Minigastrin Analogs Radiolabeled with Technetium-99m

Author

Maximilian Klingler, Christine Rangger, Dominik Summer, Piriya Kaeopookum, Clemens Decristoforo, and Elisabeth von Guggenberg

Subjects

cholecystokinin-2 receptor, minigastrin, molecular imaging, radiometals, technetium-99m, hydrazinonicotinic acid (HYNIC), Medicine, Pharmacy and materia medica, RS1-441

Abstract

The high overexpression of cholecystokinin-2 receptors (CCK2R) in tumors, such as medullary thyroid carcinoma, allows for highly specific diagnostic and therapeutic targeting with radiolabeled peptide probes derived from natural ligands for the receptor. Based on the ideal imaging characteristics, high availability and low cost of technetium-99m (99mTc)-labeled radiopharmaceuticals we have developed two hydrazinonicotinic acid (HYNIC) conjugated minigastrin analogs allowing labeling at high specific activity. The CCK2R targeting peptide conjugates show specific amino acid substitutions in the C-terminal receptor-specific sequence with the aim to increase stability and tumor targeting. The CCK2R affinity and the cell uptake of the new radioligands were analyzed using A431 human epidermoid carcinoma cells stably transfected with human CCK2R and mock transfected cells. Metabolic studies in BALB/c mice revealed a high resistance against enzymatic degradation for both radioligands. Biodistribution studies in tumor-xenografted athymic BALB/c nude mice at 1 h and 4 h p.i. showed that the two 99mTc-labeled compounds showed varying uptake in receptor expressing organs, stomach and pancreas (1.3–10.4% IA/g), as well as kidneys, the main route of excretion (7.8–19.9% IA/g). The tumor uptake in A431-CCK2R xenografts was 24.75 ± 4.38% IA/g for [99mTc]Tc-HYNIC-MGS5 and 42.48 ± 6.99% IA/g for [99mTc]Tc-HYNIC-MGS11 at 4 h p.i., whereas the tumor-to-kidney ratio was comparable (2.6–3.3). On demand availability and potential application for radioguided surgery of a 99mTc-labeled minigastrin analog support the further evaluation of these highly promising new compounds.

Published

2019

21. Načrtovanje, sinteza in vrednotenje radiooznačenih ligandov za somatostatinske in holecistokininski-2 receptor

Author

Krošelj, Marko and Gmeiner, Tanja

Subjects

udc:616.441-006-085.849(043.3), zdravljenje, farmakokinetika, somatostatin, holecistokininski receptorji, radiofarmacija, radionuklidi, nuklearna medicina, nevroendokrini tumorji, somatostatinski receptorji, medularni tumorji, minigastrin, radiooznačeni peptidi, radiooznačevanje, analogi

Abstract

Medularni rak ščitnice (ang. Medullary Thyroid Cancer, MTC) predstavlja okoli 3,5 % vseh rakov ščitnice in se uvršča med redke bolezni. MTC je nevroendokrini tumor, ki v nasprotju z ostalimi vrstami raka ščitnice ne izhaja iz folikularnih celic ščitnice, njegove metastaze pa ne kopičijo radioaktivnega jodida. Zato je obravnava bolnikov z medularnim rakom ščitnice bolj zahtevna. Ob postavitvi diagnoze je pri večini bolnikov bolezen že napredovala, saj MTC ponavadi metastazira že pred pojavom simptomov. Trenutni pristopi zdravljenja (agresivno kirurško zdravljenje, kemoterapija, novejši zaviralci tirozin kinaz) so le deloma učinkoviti in so povezani s pojavom neželenih učinkov. Iskanje učinkovitega zdravljenja bolnikov z napredovalim MTC ostaja danes še vedno izziv za mnoge raziskovalne skupine. Nuklearna medicina ima v obravnavi onkoloških bolnikov pomembno vlogo tako pri diagnostiki kot tudi pri zdravljenju. Radiooznačeni peptidi predstavljajo pomemben razred radiofarmakov za diagnostiko in zdravljenje tumorjev, ki imajo na celični površini prekomerno izražene receptorje za regulatorne peptide. Ti peptidi imajo visoko afiniteto in specifičnost do receptorjev. Odkritje, da so pri medularnem raku ščitnice (ter še nekaterih ostalih rakih) prekomerno izraženi receptorji za holecistokininski receptor 2 (CCK2R), je omogočilo razvoj radiooznačenih analogov minigastrina za slikovno diagnostiko ter ciljano radionuklidno terapijo. Hkratna ekspresija somatostatinskih receptorjev in CCK2R pri MTC in drugih tipih rakov pa omogoča uporabo radiooznačenih analogov somatostatina pri obravnavi bolnikov z MTC ter tudi načrtovanje in razvoj t.i. hibridnih molekul za ciljanje multireceptorskih tarč. Glavni namen doktorske disertacije je bil načrtovanje, sinteza, radiooznačevanje in ovrednotenje novih analogov minigastrina in somatostatina z namenom optimizacije radiofarmacevtskih ter farmakokinetičnih lastnosti. Uspešno radiooznačevanje načrtovanih peptidov z različnimi radionuklidi (indij-111, galij-68, lutecij-177, itrij-90, bizmut-213) ter njihovo ustrezno ovrednotenje omogoča tudi translacijo (prenos) novih dognanj v klinično prakso. Raziskave smo tako zasnovali v več sklopih in jih načrtovali tako, da bomo lahko izsledke doktorske disertacije tudi implementirali v klinično prakso pri rutinski pripravi radiofarmakov in obravnavi bolnikov. Osnova za načrtovanje ter razvoj novih radiooznačenih analogov minigastrina v doktorskem delu so bili tudi izsledki raziskav, opisani v poglavju 1. Pri ciljani radionuklidni terapiji s peptidnimi radiofarmaki je največja težava nefrotoksičnost, saj se peptidne učinkovine večinoma izločajo skozi ledvice, kjer se tudi deloma ponovno privzamejo. Visoko zadrževanje radiooznačenih analogov minigastrina v ledvicah lahko zmanjšamo s sočasnim injiciranjem poliglutaminskih kislin, gelofuzina, albumina ali albuminskih fragmentov. Glavni mehanizem zadrževanja minigastrinskih analogov v ledvicah so povezovali z N-terminalnimi glutaminskimi kislinami (torej celokupnim nabojem molekule). S primerjavo dveh analogov, ki se razlikujeta le v stereokemiji aminokislin v distančniku (L- in D-Glu), ne pa tudi v kemijski sestavi in naboju, smo ugotovili velike razlike v metabolični stabilnosti ter v privzemu in zadrževanju v ledvicah. Pokazali smo tudi pomembno vlogo sekundarne strukture peptidnih molekul na farmakokinetične lastnosti. V prvem sklopu doktorskega dela smo sintetizirali ter ovrednotili več novih, z indijem-111 (111In) radiooznačenih analogov minigastrina. Z uporabo analogov z različnimi distančniki med bifunkcionalnem kelatorjem ter C-terminalnim delom minigastrina, ki je odgovoren za vezavo na receptor, smo sintetizirali novo serijo analogov minigastrina. Analogi s t.i. mešanim distančnikom (izmenjajoče nenaravne aminokisline s kislimi ali bazičnimi funkcionalnimi skupinami v stranski verigi ali brez njih (D-Gln-D-Glu)3 in (D-Gln-D-Asp)3) v primerjavi z analogom, ki imajo v distančniku samo neionske (6 D-Gln) aminokisline, izkazujejo nižjo metabolično stabilnost, v primerjavi z analogom z ionskim distančnikom (6 D-Glu) pa podobno metabolično stabilnost. Vsi novi analogi imajo podobno vezavno afiniteto do CCK2R v nM območju. Metionin v C-terminalnem delu minigastrinskih analogov se pri radiooznačevanju pri povišani temperaturi oksidira in s tem izgubi vezavno afiniteto do CCK2R, kar smo pokazali tudi s študijo na živalskem modelu in vivo. Z izosterno zamenjavo z norlevcinom se tej težavi enostavno izognemo. Ker literaturni podatki kažejo nasprotujoče si rezultate pri študijah analogov z norlevcinom in vitro, smo s primerjavo rezultatov raziskav in vitro ter in vivo pokazali, da menjava bistveno ne vpliva na vezavno afiniteto do CCK2R, metabolično stabilnost ter biodistribucijo na živalskih modelih. Pokazali smo, da se ti analogi hitro nakopičijo v tumorju ter se tam zadržijo tudi 4h po injiciranju. Dolgo zadrževanje radiooznačenih peptidov je predpogoj za njihovo uporabo v ciljani radionuklidni terapiji s peptidnimi radiofarmaki (ang. Peptide Receptor Radionuclide Therapy, PRRT). Glavne prednosti peptidnih analogov z norlevcinom so lažja formulacija peptida za radiooznačevanje, izboljšana radiokemijska čistota ter odsotnost stranskih produktov pri radiooznačevanju, kar v našem primeru pomeni varnejša in učinkovitejša zdravila - radiofarmake. Uporaba peptidnih analogov, radiooznačenih z različnimi radionuklidi (diagnostičnimi, kot sta 111In in 68Ga, in terapevtskimi, kot so 177Lu, 90Y, 213Bi), omogoča t.i. teranostični pristop k obravnavi bolnikov. 68Ga je eden redkih PET (ang. Positron Emission Tomography) radionuklidov, ki za pridobivanje ne potrebuje ciklotrona. Rokovanje z visokoenergijskimi PET ali β- sevalci je kritično z vidika varstva pred ionizirajočem sevanjem, zato je v vsakdanji klinični in tudi raziskovalni praksi zelo pomembna avtomatizacija procesov. V drugem sklopu raziskav smo z uporabo modularnega sistema za popolnoma avtomatizirano pripravo radiofarmakov razvili metode za radiooznačevanje klinično pomembnih analogov somatostatina za diagnostiko (68Ga-DOTATATE) ter PRRT (90Y-, 177Lu-DOTATATE). Uspešno smo razvili metodo za avtomatizirano radiooznačevanje dveh minigastrinskih analogov z 68Ga ter izračunali zaščitne faktorje pred radioaktivnim sevanjem. Izbrane minigastrinske analoge smo uspešno radiooznačili z 213Bi ter primerjali lastnosti in vitro z 111In radiooznačenimi analogi. Primerjava je pokazala, da menjava kovinskega radionuklida ne vpliva na lastnosti in vitro in bi te analoge lahko uporabili v ciljani terapiji z delci alfa. Ker MTC sočasno izraža več različnih receptorjev smo z vidika multireceptorskega pristopa k obravnavi MTC optimizirali tako analoge minigastrina kot somatostatina. Razvili smo nove analoge minigastrina z izboljšanimi lastnostmi ter razvili metode radiooznačevanja za nove analoge minigastrina ter nekatere že klinično uveljavljene analoge somatostatina. Na ta način smo postavili osnovo za uporabo teh radiooznačenih peptidov v multireceptorskem pristopu k prikazovanju ali ciljani terapiji MTC. Načrtovali smo tudi t.i. »hibridno« molekulo, ki bi združevala minigastrinski ter somatostatinski del in bi omogočala tudi radiooznačevanje. Uspešno smo sintetizirali združen minigastrinski ter somatostatinski del, neuspešni pa smo bili pri konjugaciji te molekule z bifunkcionalnim kelatorjem, ki bi omogočil tudi radiooznačevanje ter nadaljnjo ovrednotenje s študijami in vitro ter in vivo. V zadnjem delu opisujemo pomembnost merjenja radioaktivnosti z radionuklidnim kalibratorjem pred aplikacijo pripravljenih odmerkov preiskovancem. Posledica napačnih meritev in posledično odmerjanja radiofarmakov je lahko prevelika izpostavljenost preiskovanca ionizirajočem sevanju, v najslabšem primeru tudi toksičnost, po drugi strani pa bi prenizka radioaktivnost za preiskovanca pomenila neustrezno kakovost slikovne diagnostike ali neučinkovito zdravljenje. Na meritev radioaktivnosti vplivajo vrsta radionuklida, vrsta vsebnika (geometrijsko telo), v katerem se radionuklid nahaja, in volumen raztopine v samem vsebniku. Z meritvami 90Y in 111In v različnih radionuklidnih kalibratorjih smo ugotovili, da se lahko izmerjene meritve z uporabo tovarniško določenih kalibracijskih faktorjev od dejanskih razlikujejo tudi za do 25 %. Odstopanja so še posebej kritična pri meritvah radioaktivnosti terapevtskih sevalcev β-, saj je za učinkovito in varno PRRT izjemnega pomena natančno odmerjanje terapevtskih radiofarmakov. Medullary thyroid cancer (MTC) is a rare disease and represents 3.5 % of all thyroid cancers. MTC is a neuroendocrine tumour which in comparison to other thyroid cancers does not derive from thyroid follicular cells, while its metastases does not take up radioiodine. Thus, the management of patients with MTC is more demanding. The majority of MTC patients presents with the advanced disease at the time of diagnosis, since it is metastasizing before the onset of the symptoms. The currently available therapeutic options (surgery, conventional chemotherapy, latest tyrosine kinase inhibitors) are only partially effective and connected to side effects. The search for effective treatment is still a challenge for many research groups. Nuclear medicine plays an important part in the field of oncology for imaging of tumour cells and/or targeted radionuclide therapy. Radiolabelled peptides are an important class of radiopharmaceuticals in imaging and therapy of tumours, overexpressing receptors for regulatory peptides. These molecules have high affinity and specificity for receptors and enable visualisation and/or targeted radionuclide therapy. Overexpression of CCK2R on MTC cells is the molecular basis for the development of radiolabelled CCK/gastrin analogues. Thus, nuclear medicine can play a major role in both diagnosis (scintigraphy, PET/CT) and therapy of advanced MTC. Besides CCK2R, MTC cells also overexpress somatostatin receptors. Receptor co-expression enables the use of multiple radiolabelled ligands in the management of MTC and development of multireceptor (hybride) targeting molecules. The main goal of dissertation was design, synthesis, radiolabelling and characterisation of minigastrin and somatostatin analogues. The radiolabelling of these molecules with different radionuclides (indium-111, gallium-68, lutetium-177, yttrium-90, bismuth-213) and their characterisation enables translation of these molecules into clinical practice. We have designed the research work in such a way that we also can influence the daily clinical practice regarding preparation of radiopharmaceuticals and patient management. The results from the study in chapter one are the basis for the development of novel radiolabelled minigastrin analogues. Nephrotoxicity is the main side effect in targeted radionuclide therapy due to renal reuptake and accumulation of radiolabelled peptides. The main mechanism of high kidney retention of radiolabelled minigastrin analogues has been related to N-terminal glutamic acids (the overall charge of molecule) and can be reduced by coinjection of polyglutamic acids or gelofusine. The comparison of two radiolabelled minigastrin analogues with the same chemical composition and charge, differing only in the stereochemistry of the amino acids that form the spacer, showed the difference in enzymatic stability and large difference in their kidney uptake and retention. We also showed the influence of secondary structure on the pharmacokinetics of the radiopeptides. In the first part of the research, we synthesised and characterised several novel, indium-111 radiolabelled minigastrin analogues. We developed a series of minigastrin analogues with mixed (non-ionic/ionic) amino acids that form the spacer. The introduction of mixed ionic/non-ionic spacers lead to a lower enzymatic stability in vitro in comparison to non-ionic spacer (6 D-Gln) analogue, whereas, relative to the charged analogue with 6 D-Glu as a spacer, there was no significant change in the stability. All radiopeptides tested show similar internalisation rate in cell lines and have similar binding affinity for CCK2R in nM range. Methionine in the C-terminal part of the peptide is oxidation-prone, especially during the radiolabelling step at high temperature. The binding affinity for the CCK2R is lost, if the methionine residue is oxidized (sulphones, sulphoxides), which was also demonstrated in the experiment in vivo. To overcome the problem of oxidation, we introduced isosteric replacement (norleucine) of the oxidation-prone methionine in the C-terminus of the analogues. In contrast to literature data, direct comparison between methionine and norleucine congeners in vitro and in vivo showed no significant difference in the behaviour of these analogues. We also showed that these analogues are quickly accumulated in the tumour and retained there for up to 4h p.i. Good tumour retention is a prerequisite for the use of these analogues in PRRT. The main advantages of norleucine congeners are more effective formulation for radiolabelling, better radiolabelling results and fewer side products which, in our case, can lead to safer and more effective radiopharmaceuticals. Radiolabelling of the same molecule with different radionuclides (diagnostic – 111In and 68Ga and therapeutic - 177Lu, 90Y, 213Bi) enables so called theranostic approach to patient management. 68Ga is a generator-based PET radionuclide. The full automation of the processes in everyday clinical and research practice is required when handling the high-energy PET or β- emitters. In the second part of the research, we used a novel, self-shielded radiosynthesis box for fully automated preparation of radiopharmaceuticals and determined the shielding properties of the modular synthesis system. We developed radiolabelling methods of novel minigastrin analogues and optimized methods for radiolabelling of clinical relevant somatostatin analogues with 68Ga, 90Y and 177Lu. We radiolabelled minigastrin analogues with 213Bi and compared in vitro characteristics with 111In labelled ones. There was no significant difference between two analogues in vitro. We showed the feasibility of 213Bi radiolabelling and thus the potential use of these analogues in alpha radionuclide therapy. Co-expression of both cholecystokinin and somatostatin receptors on the surface of MTC cells is a basis for multireceptor targeting of these tumour cells. We developed minigastrin analogues with improved characteristics and developed radiolabelling methods for novel minigastrin analogues and optimized radiolabelling of clinical relevant somatostatin analogues. The optimisation of both radioligands is a prerequisite for a possible multireceptor targeting of MTC. We also designed a hybride molecule with both minigastrin and somatostatin moiety. We successfully synthesised hybride molecule employing principles of “click” chemistry. However, the conjugation of bifunctional chelator to the molecule, which enables radiolabelling and further characterization of the molecule, was not successful. The importance of correct measurements of radioactivity in radionuclide calibrator is described in the last chapter. Imprecise measurement leads to administration of either excessive or too low activity to the patient. Excessive activity administered is not in agreement with patient radioprotection and in the worst case can lead to toxicity. On the other hand, too low activity administered can result in insufficient quality of diagnostic scans or inadequate response in case of targeted radionuclide therapy. Type of radiation, geometry and volume of radiation influence the measurement of radioactivity. Measurements of 90Y and 111In in different radionuclide calibrators showed significant difference between measured and true activity, which can be as much as 25%, by either overestimation or underestimation of true activity. Measuring true activity is especially critical for efficient and safe targeted PRRT with β- emitters.

Published

2022

22. Targeted Radiotherapeutics from 'Bench-to-Bedside'

Author

Nicholas P. van der Meulen, Martin Béhé, Susanne Geistlich, Cristina Müller, and Roger Schibli

Subjects

High energy, medicine.medical_specialty, Nuclear imaging, Targeted radionuclide therapy, theragnostics, Translational research, Healthy tissue, folate, Translational Research, Biomedical, lcsh:Chemistry, Neoplasms, radiopharmacy, medicine, Humans, Medical physics, Folate, PSMA, Minigastrin, Radiopharmacy, Terbium radio-nuclides, Theragnostics, Radioisotopes, business.industry, psma, Tumor therapy, General Medicine, General Chemistry, targeted radionuclide therapy, Bench to bedside, terbium radionuclides, lcsh:QD1-999, minigastrin, Radiopharmaceuticals, business, Switzerland, Disseminated cancer

Abstract

The concept of targeted radionuclide therapy (TRT) is the accurate and efficient delivery of radiation to disseminated cancer lesions while minimizing damage to healthy tissue and organs. Critical aspects for successful development of novel radiopharmaceuticals for TRT are: i) the identification and characterization of suitable targets expressed on cancer cells; ii) the selection of chemical or biological molecules which exhibit high affinity and selectivity for the cancer cell-associated target; iii) the selection of a radionuclide with decay properties that suit the properties of the targeting molecule and the clinical purpose. The Center for Radiopharmaceutical Sciences (CRS) at the Paul Scherrer Institute in Switzerland is privileged to be situated close to unique infrastructure for radionuclide production (high energy accelerators and a neutron source) and access to C/B-type laboratories including preclinical, nuclear imaging equipment and Swissmedic-certified laboratories for the preparation of drug samples for human use. These favorable circumstances allow production of non-standard radionuclides, exploring their biochemical and pharmacological features and effects for tumor therapy and diagnosis, while investigating and characterizing new targeting structures and optimizing these aspects for translational research on radiopharmaceuticals. In close collaboration with various clinical partners in Switzerland, the most promising candidates are translated to clinics for 'first-in-human' studies. This article gives an overview of the research activities at CRS in the field of TRT by the presentation of a few selected projects., Chimia, 74 (12), ISSN:0009-4293

Published

2020

23. New Directions in Imaging Neuroendocrine Neoplasms

Author

Julie Refardt, Emanuel Christ, Johannes Hofland, and Damian Wild

Subjects

GLP-1 receptor imaging, Minigastrin, 030218 nuclear medicine & medical imaging, Peptide hormone receptors, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Fibroblast activation protein, alpha, Humans, Medicine, Radionuclide imaging, Receptors, Somatostatin, Radionuclide Imaging, Receptor, CCK2-receptor imaging, business.industry, Somatostatin receptor, Neuroendocrine Neoplasms (NS Reed, Section Editor), 3. Good health, Neuroendocrine Tumors, Oncology, chemistry, Neuroendocrine neoplasms, 030220 oncology & carcinogenesis, Molecular targets, Receptors, Cholecystokinin, Somatostatin receptor antagonist, Imaging technique, Molecular imaging, Peptides, business, Neuroscience

Abstract

Purpose of Review Accurate imaging is crucial for correct diagnosis, staging, and therapy of neuroendocrine neoplasms (NENs). The search for the optimal imaging technique has triggered rapid development in the field. This review aims at giving an overview on contemporary imaging methods and providing an outlook on current progresses. Recent Findings The discovery of molecular targets due to the overexpression of specific peptide hormone receptors on the NEN’s surface has triggered the development of multiple radionuclide imaging modalities. In addition to the established imaging technique of targeting somatostatin receptors, several alternative radioligands have been developed. Targeting the glucagon-like peptide-1 receptor by exendin-4 has a high sensitivity in localizing insulinomas. For dedifferentiated NENs, new molecular targets such as the C-X-C motif chemokine-receptor-4 have been evaluated. Other new targets involve the fibroblast activation protein and the cholecystokinin-2 receptors, where the ligand minigastrin opens new possibilities for the management of medullary thyroid carcinoma. Summary Molecular imaging is an emerging field that improves the management of NENs.

Published

2021

24. Preliminary Clinical Experience with Cholecystokinin-2 Receptor PET/CT Using the 68 Ga-Labeled Minigastrin Analog DOTA-MGS5 in Patients with Medullary Thyroid Cancer.

Author

von Guggenberg E, Uprimny C, Klinger M, Warwitz B, Sviridenko A, Bayerschmidt S, di Santo G, and Virgolini IJ

Subjects

Humans, Receptor, Cholecystokinin B metabolism, Gallium Radioisotopes chemistry, Tissue Distribution, Retrospective Studies, Radiopharmaceuticals, Positron Emission Tomography Computed Tomography, Thyroid Neoplasms diagnostic imaging, Thyroid Neoplasms metabolism

Abstract

PET/CT with the new 68 Ga-labeled minigastrin analog DOTA-dGlu-Ala-Tyr-Gly-Trp-( N -Me)Nle-Asp-1-Nal-NH 2 ( 68 Ga-DOTA-MGS5) was performed on patients with advanced medullary thyroid cancer (MTC) to evaluate cholecystokinin-2 receptor expression status. Methods: Six patients with advanced MTC underwent PET/CT with 68 Ga-DOTA-MGS5. From the images acquired 1 and 2 h after injection, preliminary data on the biodistribution and tumor-targeting properties were evaluated in a retrospective analysis. Results: In total, 87 lesions with increased radiotracer uptake considered malignant were detected (2 local recurrences, 8 lymph node lesions, 27 liver lesions, and 50 bone lesions). In general, radiotracer accumulation in lesions was higher at 2 h than at 1 h after injection (mean SUV max , 7.2 vs. 6.0, respectively; mean SUV mean , 4.4 vs. 3.6, respectively). Conclusion: The preliminary results clearly demonstrate the potential of 68 Ga-DOTA-MGS5 PET/CT in detecting local recurrence and metastases in patients with advanced MTC., (© 2023 by the Society of Nuclear Medicine and Molecular Imaging.)

Published

2023

25. Signaling Network Response to α-Particle-Targeted Therapy with the 225 Ac-Labeled Minigastrin Analog 225 Ac-PP-F11N Reveals the Radiosensitizing Potential of Histone Deacetylase Inhibitors.

Author

Qin Y, Imobersteg S, Frank S, Blanc A, Chiorazzo T, Berger P, Schibli R, Béhé MP, and Grzmil M

Subjects

Animals, Mice, Mice, Nude, Cell Line, Tumor, Vorinostat pharmacology, Signal Transduction, Hydroxamic Acids pharmacology, Hydroxamic Acids therapeutic use, Histone Deacetylase Inhibitors pharmacology, Tumor Suppressor Protein p53

Abstract

α-particle emitters have recently been explored as valuable therapeutic radionuclides. Yet, toxicity to healthy organs and cancer radioresistance limit the efficacy of targeted α-particle therapy (TAT). Identification of the radiation-activated mechanisms that drive cancer cell survival provides opportunities to develop new points for therapeutic interference to improve the efficacy and safety of TAT. Methods: Quantitative phosphoproteomics and matching proteomics followed by the bioinformatics analysis were used to identify alterations in the signaling networks in response to TAT with the 225 Ac-labeled minigastrin analog 225 Ac-PP-F11N (DOTA-(dGlu) 6 -Ala-Tyr-Gly-Trp-Nle-Asp-Phe) in A431 cells, which overexpress cholecystokinin B receptor (CCKBR). Western blot analysis and microscopy verified the activation of the selected signaling pathways. Small-molecule inhibitors were used to validate the potential of the radiosensitizing combinatory treatments both in vitro and in A431/CCKBR tumor-bearing nude mice. Results: TAT-induced alterations were involved in DNA damage response, cell cycle regulation, and signal transduction, as well as RNA transcription and processing, cell morphology, and transport. Western blot analysis and microscopy confirmed increased phosphorylations of the key proteins involved in DNA damage response and carcinogenesis, including p53, p53 binding protein 1 (p53BP1), histone deacetylases (HDACs), and H2AX. Inhibition of HDAC class II, ataxia-telangiectasia mutated (ATM), and p38 kinases by TMP269, AZD1390, and SB202190, respectively, sensitized A431/CCKBR cells to 225 Ac-PP-F11N. As compared with the control and monotherapies, the combination of 225 Ac-PP-F11N with the HDAC inhibitor vorinostat (suberoylanilide hydroxamic acid, SAHA) significantly reduced the viability and increased the DNA damage of A431/CCKBR cells, led to the most pronounced tumor growth inhibition, and extended the mean survival of A431/CCKBR xenografted nude mice. Conclusion: Our study revealed the cellular responses to TAT and demonstrated the radiosensitizing potential of HDAC inhibitors to 225 Ac-PP-F11N in CCKBR-positive tumors. This proof-of-concept study recommends development of novel radiosensitizing strategies by targeting TAT-activated and survival-promoting signaling pathways., (© 2023 by the Society of Nuclear Medicine and Molecular Imaging.)

Published

2023

26. From preclinical development to clinical application: Kit formulation for radiolabelling the minigastrin analogue CP04 with In-111 for a first-in-human clinical trial.

Author

Pawlak, Dariusz, Rangger, Christine, Kolenc Peitl, Petra, Garnuszek, Piotr, Maurin, Michał, Ihli, Laura, Kroselj, Marko, Maina, Theodosia, Maecke, Helmut, Erba, Paola, Kremser, Leopold, Hubalewska-Dydejczyk, Alicja, Mikołajczak, Renata, and Decristoforo, Clemens

Subjects

*DRUG development, *DRUG formularies, *RADIOLABELING, *GASTRIN, *CLINICAL trials

Abstract

Introduction A variety of radiolabelled minigastrin analogues targeting the cholecystokinin 2 (CCK2) receptor were developed and compared in a concerted preclinical testing to select the most promising radiotracer for diagnosis and treatment of medullary thyroid carcinoma (MTC). DOTA–DGlu–DGlu–DGlu–DGlu–DGlu–DGlu–Ala–Tyr–Gly–Trp–Met–Asp–Phe–NH 2 (CP04) after labelling with 111 In displayed excellent characteristics, such as high stability, receptor affinity, specific and persistent tumour uptake and low kidney retention in animal models. Therefore, it was selected for further clinical evaluation within the ERA-NET project GRAN-T-MTC. Here we report on the development of a pharmaceutical freeze-dried formulation of the precursor CP04 for a first multi-centre clinical trial with 111 In-CP04 in MTC patients. Materials and methods The kit formulation was optimised by adjustment of buffer, additives and radiolabelling conditions. Three clinical grade batches of a final kit formulation with two different amounts of peptide (10 or 50 μg) were prepared and radiolabelled with 111 In. Quality control and stability assays of both the kits and the resulting radiolabelled compound were performed by HPLC analysis. Results Use of ascorbic acid buffer (pH 4.5) allowed freeze-drying of the kit formulation with satisfactory pellet-formation. Addition of methionine and gentisic acid as well as careful selection of radiolabelling temperature was required to avoid extensive oxidation of the Met 11 -residue. Trace metal contamination, in particular Zn, was found to be a major challenge during the pharmaceutical filling process in particular for the 10 μg formulation. The final formulations contained 10 or 50 μg CP04, 25 mg ascorbic acid, 0.5 mg gentisic acid and 5 mg l -methionine. The radiolabelling performed by incubation of 200–250 MBq 111 InCl 3 at 90 °C for 15 min resulted in reproducible radiochemical purity (RCP) > 94%. Kit-stability was proven for > 6 months at + 5 °C and at + 25 °C. The radiolabelled product was stable for > 4 h at + 25 °C. Conclusion A kit formulation to prepare 111 In-CP04 for clinical application was developed, showing high stability of the kit as well as high RCP of the final product. [ABSTRACT FROM AUTHOR]

Published

2016

27. Synthese und präklinische Charakterisierung stabilisierter, radioaktiv markierter Minigastrinanaloga

Author

Forer, Eva and Forer, Eva

Abstract

vorgelegt von Eva Forer, B.Sc., Masterarbeit Universität Innsbruck 2021, Masterarbeit Medizinische Universität Innsbruck 2021

Published

2021

28. Radiolabeled Peptides for Cancer Imaging and Therapy: From Bench-to-Bedside

Author

Melpomeni Fani and Rosalba Mansi

Subjects

chemistry.chemical_classification, theranostics, business.industry, Peptide, General Medicine, General Chemistry, Cancer imaging, somatostatin, University hospital, clinical translation, Bench to bedside, Chemistry, chemistry, Neoplasms, exendin-4, Cancer cell, minigastrin, Cancer research, Medicine, Humans, Radiopharmaceuticals, business, Peptides, QD1-999

Abstract

Radiolabeled peptides can deliver radiation selectively to tumors via targeting peptide receptors that are overexpressed on the surface of cancer cells. The radiation is used either for detection (imaging) or for destruction (therapy) of these tumors. The Division of Radiopharmaceutical Chemistry at the University Hospital Basel has conducted pioneering work on the development of peptide-based radiopharmaceuticals. Our research covers the entire spectrum of such developments, from bench-to-bedside, and it is illustrated in this article by selective cases.

Published

2021

29. Improved Tumor-Targeting with Peptidomimetic Analogs of Minigastrin 177Lu-PP-F11N

Author

Roger Schibli, Thomas L. Mindt, Martin Béhé, and Nathalie M. Grob

Subjects

Cancer Research, Proteases, Biodistribution, Peptidomimetic, media_common.quotation_subject, cholecystokinin-2 receptor, peptidomimetics, Minigastrin, molecular imaging, Peptide receptor radionuclide therapy, digestive system, Article, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, In vivo, Internalization, Receptor, RC254-282, media_common, chemistry.chemical_classification, peptide receptor radionuclide therapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, minigastrin, In vitro, Amino acid, Oncology, Biochemistry, chemistry, 030220 oncology & carcinogenesis

Abstract

The cholecystokinin-2 receptor (CCK2R) is an attractive target in nuclear medicine due to its overexpression by different tumors. Several radiolabeled peptidic ligands targeting the CCK2R have been investigated in the past; however, their low stability against proteases can limit their uptake in tumors and metastases. Substitution of single or multiple amide bonds with metabolically stable 1,4-disubstituted 1,2,3-triazoles as amide bond bioisosteres proved a promising strategy for improving the tumor-targeting properties of a truncated analog of minigastrin. In this study, we applied the previously studied structural modifications to improve the pharmacokinetic and pharmacodynamic properties of PP-F11N, a minigastrin analog currently in clinical trials. Novel minigastrins (NMGs) as analogs of PP-F11N with one or two amide bonds substituted by 1,2,3-triazoles were synthesized, radiolabeled with 177Lu3+, and subjected to full evaluation in vitro (cell internalization, receptor affinity, stability in blood plasma) and in vivo (stability, biodistribution, SPECT/CT imaging). NMGs with triazoles inserted between the amino acids DGlu10-Ala11 and/or Tyr12-Gly13 showed a significantly increased cellular uptake and affinity toward the CCK2R in vitro. Resistance against the metabolic degradation of the NMGs was comparable to those of the clinical candidate PP-F11N. Imaging by SPECT/CT and biodistribution studies demonstrated a higher uptake in CCK2R-positive tumors but also in the CCK2R-positive stomach. The peptidomimetic compounds showed a slow tumor washout and high tumor-to-kidney ratios. The structural modifications led to the identification of analogs with promising properties for progression to clinical applications in the diagnosis and therapy of CCK2R-positive neoplasms., Cancers, 13 (11), ISSN:2072-6694

Published

2021

30. The radiometal makes a difference. Synthesis and preliminary characterisation of DOTA-minigastrin analogue complexes with Ga, Lu and Y.

Author

Maurin, Michał, Garnuszek, Piotr, Baran, Piotr, Pawlak, Dariusz, and Mikołajczak, Renata

Subjects

CHOLECYSTOKININ, RADIATION measurements, RADIOIMMUNOIMAGING, RESEARCH funding, RADIOACTIVE elements

Abstract

BACKGROUND: The minigastrin analogue — CP04: DOTA-(DGlu)6-Ala-Tyr-Gly-Trp-Met-Asp-Phe-NH2 has been developed for CCK2R targeting. This analogue can be radiolabelled with 111In or 68Ga for imaging, or with 90Y and 177Lu for therapy. However, affinity of the chelator-peptide conjugates to the cell membrane receptors may vary depending on the metal incorporated into the complex. So far, there are no such studies for the ligands of gastrin/cholecystokinin receptor CCK2R. It is supposed that the reason for the differentiation of receptor affinity to the respective receptors is in the changes of structure of chelating system and their influence on the bioactive conformations of the metal conjugated peptides. Herein, we report on the radiolabelling of CP04 with 90Y, 177Lu and 68Ga and synthesis of cold CP04 complexes with respective stable metals for further structural and physico-chemical and biological studies. MATERIALS AND METHODS: From 200 to 600 MBq of 90Y, 177Lu or 68Ga were used for radiolabelling of 20 μg of CP04 dissolved in ascorbic acid solution (50 mg/mL, pH 4.5). Non-radioactive complexes with Lu and Ga were synthesized in milligram amounts starting from 0.5 mg up to 5 mg of CP04 dissolved in ascorbic acid solution (50 mg/mL, pH 4.5) when using 2-molar excess of the metal ions. Complex formation needed 5 min in microwave oven or 12 min in thermo-block at 95°C. RP-HPLC isocratic method (Kinetex 150/4.6 mm; 25% AcN/0.1% TFA, 1 mL/min) with UV/Vis and radiometric detection was developed for investigation of the radiolabelled and “cold” complexes. For LC-MS investigations, HPLC method was modified replacing TFA by formic acid. RESULTS AND DISCUSSION: Yields of CP04 radiolabelling were greater than 90% for all three radionuclides. The HPLC method enabled identification of these radio-complexes based on comparison to their non-radioactive equivalents. In all cases, chromatograms revealed peaks that could be attributed to the metal-CP04 complexes and to impurities (including methionine oxidation). LC-MS analysis of Ga and Lu complexes revealed conformity of the observed molecular ions to the predicted formulas (m/z 2116 and 2220 Da for Ga and Lu, respectively). Different chromatographic behaviour observed for Ga-CP04 complex comparing to Lu- and Y- labelled peptide (relative retention to CP04: 1.08, 0.86 and 0.85, respectively) suggest different coordination of the metal ions. Therefore, further studies are planned using the non-radioactive complexes in order to assess their structural conformations. [ABSTRACT FROM AUTHOR]

Published

2015

31. Initial In Vitro and In Vivo Evaluation of a Novel CCK2R Targeting Peptide Analog Labeled with Lutetium-177

Author

Guggenberg, Anton Amadeus Hörmann, Maximilian Klingler, Maliheh Rezaeianpour, Nikolas Hörmann, Ronald Gust, Soraya Shahhosseini, and Elisabeth von

Subjects

cholecystokinin-2 receptor, minigastrin, molecular imaging, targeted radiotherapy, lutetium-177

Abstract

Targeting of cholecystokinin-2 receptor (CCK2R) expressing tumors using radiolabeled minigastrin (MG) analogs is hampered by rapid digestion of the linear peptide in vivo. In this study, a new MG analog stabilized against enzymatic degradation was investigated in preclinical studies to characterize the metabolites formed in vivo. The new MG analog DOTA-DGlu-Pro-Tyr-Gly-Trp-(N-Me)Nle-Asp-1Nal-NH2 comprising site-specific amino acid substitutions in position 2, 6 and 8 and different possible metabolites thereof were synthesized. The receptor interaction of the peptide and selected metabolites was evaluated in a CCK2R-expressing cell line. The enzymatic stability of the 177Lu-labeled peptide analog was evaluated in vitro in different media as well as in BALB/c mice up to 1 h after injection and the metabolites were identified based on radio-HPLC analysis. The new radiopeptide showed a highly increased stability in vivo with >56% intact radiopeptide in the blood of BALB/c mice 1 h after injection. High CCK2R affinity and cell uptake was confirmed only for the intact peptide, whereas enzymatic cleavage within the receptor specific C-terminal amino acid sequence resulted in complete loss of affinity and cell uptake. A favorable biodistribution profile was observed in BALB/c mice with low background activity, preferential renal excretion and prolonged uptake in CCK2R-expressing tissues. The novel stabilized MG analog shows high potential for diagnostic and therapeutic use. The radiometabolites characterized give new insights into the enzymatic degradation in vivo.

Published

2020

32. Pharmacological inhibition of mTORC1 increases CCKBR-specific tumor uptake of radiolabeled minigastrin analogue [177Lu]Lu-PP-F11N

Author

Stephan Frank, Martin Béhé, Carina Schleuniger, Roger Schibli, Philipp Berger, Yun Qin, Alain Blanc, Martin Spillmann, Michal Grzmil, and Stefan Imobersteg

Subjects

0301 basic medicine, Cholecystokinin B receptor, Minigastrin, PPF-11N, RAD001, Peptide receptor radionuclide therapy, Single Photon Emission Computed Tomography Computed Tomography, Medicine (miscellaneous), mTORC1, Lutetium, Mechanistic Target of Rapamycin Complex 1, 03 medical and health sciences, Mice, 0302 clinical medicine, In vivo, Spect imaging, Cell Line, Tumor, Neoplasms, Gastrins, Animals, Humans, Tissue Distribution, Everolimus, Receptor, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), Radioisotopes, Chemistry, Chemoradiotherapy, Xenograft Model Antitumor Assays, Peptide Fragments, Receptor, Cholecystokinin B, Rats, 030104 developmental biology, Epidermoid carcinoma, 030220 oncology & carcinogenesis, Radionuclide therapy, Cancer research, Female, Radiopharmaceuticals, A431 cells, Research Paper

Abstract

Rationale: A high tumor-to-healthy-tissue uptake ratio of radiolabeled ligands is an essential prerequisite for safe and effective peptide receptor radionuclide therapy (PRRT). In the present study, we searched for novel opportunities to increase tumor-specific uptake of the radiolabeled minigastrin analogue [177Lu]Lu-DOTA-(DGlu)6-Ala-Tyr-Gly-Trp-Nle-Asp-Phe-NH2 ([177Lu]Lu-PP-F11N), that targets the cholecystokinin B receptor (CCKBR) in human cancers. Methods: A kinase inhibitor library screen followed by proliferation and internalization assays were employed to identify compounds which can increase uptake of [177Lu]Lu-PP-F11N in CCKBR-transfected human epidermoid carcinoma A431 cells and natural CCKBR-expressing rat pancreatic acinar AR42J cells. Western blot (WB) analysis verified the inhibition of the signaling pathways and the CCKBR level, whereas the cell-based assay analyzed arrestin recruitment. Biodistribution and SPECT imaging of the A431/CCKBR xenograft mouse model as well as histological analysis of the dissected tumors were used for in vivo validation. Results: Our screen identified the inhibitors of mammalian target of rapamycin complex 1 (mTORC1), which increased cell uptake of [177Lu]Lu-PP-F11N. Pharmacological mTORC1 inhibition by RAD001 and metformin increased internalization of [177Lu]Lu-PP-F11N in A431/CCKBR and in AR42J cells. Analysis of protein lysates from RAD001-treated cells revealed increased levels of CCKBR (2.2-fold) and inhibition of S6 phosphorylation. PP-F11N induced recruitment of β-arrestin1/2 and ERK1/2 phosphorylation. In A431/CCKBR-tumor bearing nude mice, 3 or 5 days of RAD001 pretreatment significantly enhanced tumor-specific uptake of [177Lu]Lu-PP-F11N (ratio [RAD001/Control] of 1.56 or 1.79, respectively), whereas metformin treatment did not show a significant difference. Quantification of SPECT/CT images confirmed higher uptake of [177Lu]Lu-PP-F11N in RAD001-treated tumors with ratios [RAD001/Control] of average and maximum concentration reaching 3.11 and 3.17, respectively. HE staining and IHC of RAD001-treated tumors showed a significant increase in necrosis (1.4% control vs.10.6% of necrotic area) and the reduction of proliferative (80% control vs. 61% of Ki67 positive cells) and mitotically active cells (1.08% control vs. 0.75% of mitotic figures). No significant difference in the tumor vascularization was observed after five-day RAD001 or metformin treatment. Conclusions: Our data demonstrates, that increased CCKBR protein level by RAD001 pretreatment has the potential to improve tumor uptake of [177Lu]Lu-PP-F11N and provides proof-of-concept for the development of molecular strategies aimed at enhancing the level of the targeted receptor, to increase the efficacy of PRRT and nuclear imaging., Theranostics, 10 (24), ISSN:1838-7640

Published

2020

33. Multifactorial diagnostic NIR imaging of CCK2R expressing tumors.

Author

Kossatz, Susanne, Béhé, Martin, Mansi, Rosalba, Saur, Dieter, Czerney, Peter, Kaiser, Werner A., and Hilger, Ingrid

Subjects

*CANCER diagnosis, *IMAGING of cancer, *CANCER treatment, *GENE therapy, *CHOLECYSTOKININ receptors, *TUMOR markers, *GENE expression, *DIAGNOSTIC imaging

Abstract

Abstract: Optical imaging-based diagnostics identify malignancies based on molecular changes instead of morphological criteria in a non-invasive, irradiation free process. The aim of this study was to improve imaging efficiency by the development of a new Cholecystokinin-2-receptor targeted fluorescent peptide that matches the clinical needs regarding biodistribution and pharmacokinetics while displaying superior target specificity. Furthermore we performed multifactorial imaging of Cholecystokinin-2-receptor and tumor metabolism, since simultaneous targeting of various tumor biomarkers could intensely increase tumor identification and characterization. Affinity and specificity of the fluorescent Cholecystokinin-2-receptor targeted minigastrin (dQ-MG-754) were tested in vitro. We conducted in vivo imaging of the dQ-MG-754 probe alone and in a multifactorial approach with a GLUT-1 targeted probe (IR800 2-DG) on subcutaneous xenograft bearing athymic nude mice up to 24 h after intravenous injection (n = 5/group), followed by ex vivo biodistribution analysis and histological examination. We found specific, high affinity binding (Kd = 1.77 nm ± 0.6 nm) of dQ-MG-754 to Cholecystokinin-2-receptor expressing cells and xenografts as well as favorable pharmacokinetics for fluorescence-guided endoscopy. We successfully performed multifactorial imaging for the simultaneous detection of the Cholecystokinin-2-receptor and GLUT-1 targeted probe. Prominent differences in uptake patterns of the two contrast agents could be detected. The results were validated by histological examinations. The multifactorial imaging approach presented in this study could facilitate cancer detection in diagnostic imaging and intraoperative and endoscopic applications. Especially the dQ-MG-754 probe bears great potential for translation to clinical endoscopy imaging, because it combines specific high affinity binding with renal elimination and a favorable biodistribution. [Copyright &y& Elsevier]

Published

2013

34. Radiolabeled CCK/gastrin peptides for imaging and therapy of CCK2 receptor-expressing tumors.

Author

Roosenburg, Susan, Laverman, Peter, Delft, Floris, and Boerman, Otto

Subjects

*CHOLECYSTOKININ, *RADIOLABELING, *PEPTIDES, *CANCER tomography, *POSITRON emission tomography, *THYROID cancer, *LUNG cancer

Abstract

Cholecystokinin (CCK) receptors are overexpressed in numerous human cancers, like medullary thyroid carcinomas, small cell lung cancers and stromal ovarian cancers. The specific receptor-binding property of the endogenous ligands for these receptors can be exploited by labeling peptides with a radionuclide and using these as carriers to guide the radioactivity to the tissues that express the receptors. In this way, tumors can be visualized using positron emission tomography and single photon emission computed tomography imaging. A variety of radiolabeled CCK/gastrin-related peptides has been synthesized and characterized for imaging. All peptides have the C-terminal CCK receptor-binding tetrapeptide sequence Trp-Met-Asp-Phe-NH in common or derivatives thereof. This review focuses on the development and application of radiolabeled CCK/gastrin peptides for radionuclide imaging and radionuclide therapy of tumors expressing CCK receptors. We discuss both preclinical studies as well as clinical studies with CCK and gastrin peptides. [ABSTRACT FROM AUTHOR]

Published

2011

35. Renal uptake of different radiolabelled peptides is mediated by megalin: SPECT and biodistribution studies in megalin-deficient mice.

Author

Vegt, Erik, Melis, Marleen, Eek, Annemarie, Visser, Monique, Brom, Maarten, Oyen, Wim, Gotthardt, Martin, Jong, Marion, and Boerman, Otto

Subjects

*KIDNEY tubules, *PEPTIDES, *RADIONUCLIDE imaging, *NEPHROTOXICOLOGY, *SINGLE-photon emission computed tomography, *LABORATORY mice, *DISEASES

Abstract

Purpose: Radiolabelled peptides used for peptide receptor radionuclide therapy are excreted mainly via the kidneys and are partly reabsorbed and retained in the proximal tubular cells. The resulting high renal radiation dose can cause nephrotoxicity, limiting the maximum activity dose and the effectiveness of peptide receptor radionuclide therapy. The mechanisms of kidney reabsorption of these peptides are incompletely understood, but the scavenger receptor megalin has been shown to play a role in the reabsorption of In-octreotide. In this study, the role of megalin in the renal reabsorption of various relevant radiolabelled peptides was investigated. Methods: Groups of kidney-specific megalin-deficient mice and wild-type mice were injected with In-labelled somatostatin, exendin, neurotensin or minigastrin analogues. Single photon emission computed tomographic (SPECT) images of the kidneys were acquired and analysed quantitatively, or the animals were killed 3 h after injection and the activity concentration in the kidneys was measured. Results: Megalin-deficient mice showed significantly lower uptake of all studied radiolabelled peptides in the kidneys, ranging from 22% (In-octreotide) to 65% (In-exendin) of uptake in wild-type kidneys. Quantitative analysis of renal uptake by SPECT and ex vivo measurements showed a very good correlation. Conclusion: Megalin is involved in the renal reabsorption of radiolabelled octreotide, octreotate, exendin, neurotensin and minigastrin. This knowledge may help in the design of strategies to reduce this reabsorption and the resulting nephrotoxicity in peptide receptor radionuclide therapy, enabling more effective therapy. Small-animal SPECT is an accurate tool, allowing in vivo quantification of renal uptake and serial measurements in individual mice. [ABSTRACT FROM AUTHOR]

Published

2011

36. Radiopeptide internalisation and externalisation assays: Cell viability and radioligand integrity

Author

Raza Naqvi, Syed Ali, Sosabowski, Jane K., Ahamad Nagra, Saeed, Ishfaq, Malik M., Mather, Stephen J., and Matzow, Torkjel

Subjects

*ENDOCYTOSIS, *RADIOLIGAND assay, *PEPTIDES, *HYDROGEN-ion concentration, *LIGANDS (Biochemistry), *MOLECULAR cell differentiation, *CELL receptors

Abstract

Abstract: Various aspects of radiopeptide receptor-mediated cell internalisation and externalisation assays were assessed, including the integrity of externalised peptides and the effect of varying the pH and incubation time of the acid wash step (to remove surface receptor-bound ligand) on efficacy and cell viability. The observed intact proportion of externalised peptide was 5–10%, and acid wash buffers with pH 2.8 or below were found to be detrimental to cell viability and integrity, particularly following prolonged incubation times. [Copyright &y& Elsevier]

Published

2011

37. Albumin-derived peptides efficiently reduce renal uptake of radiolabelled peptides.

Author

Vegt, Erik, Eek, Annemarie, Oyen, Wim J. G., de Jong, Marion, Gotthardt, Martin, and Boerman, Otto C.

Subjects

*PEPTIDES, *RADIOISOTOPES, *ALBUMINS, *CYANOGEN bromide, *AMINO acids

Abstract

In peptide-receptor radionuclide therapy (PRRT), the maximum activity dose that can safely be administered is limited by high renal uptake and retention of radiolabelled peptides. The kidney radiation dose can be reduced by coinfusion of agents that competitively inhibit the reabsorption of radiolabelled peptides, such as positively charged amino acids, Gelofusine, or trypsinised albumin. The aim of this study was to identify more specific and potent inhibitors of the kidney reabsorption of radiolabelled peptides, based on albumin. Albumin was fragmented using cyanogen bromide and six albumin-derived peptides with different numbers of electric charges were selected and synthesised. The effect of albumin fragments (FRALB-C) and selected albumin-derived peptides on the internalisation of 111In-albumin, 111In-minigastrin, 111In-exendin and 111In-octreotide by megalin-expressing cells was assessed. In rats, the effect of Gelofusine and albumin-derived peptides on the renal uptake and biodistribution of 111In-minigastrin, 111In-exendin and 111In-octreotide was determined. FRALB-C significantly reduced the uptake of all radiolabelled peptides in vitro. The albumin-derived peptides showed different potencies in reducing the uptake of 111In-albumin, 111In-exendin and 111In-minigastrin in vitro. The most efficient albumin-derived peptide (peptide #6), was selected for in vivo testing. In rats, 5 mg of peptide #6 very efficiently inhibited the renal uptake of 111In-minigastrin, by 88%. Uptake of 111In-exendin and 111In-octreotide was reduced by 26 and 33%, respectively. The albumin-derived peptide #6 efficiently inhibited the renal reabsorption of 111In-minigastrin, 111In-exendin and 111In-octreotide and is a promising candidate for kidney protection in PRRT. [ABSTRACT FROM AUTHOR]

Published

2010

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

Author

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

Subjects

*PEPTIDES, *POSITRON emission tomography, *CHOLECYSTOKININ, *SOMATOSTATIN, *HORMONE receptors

Abstract

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. 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. 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. 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. [ABSTRACT FROM AUTHOR]

Published

2009

39. Optimised labeling, preclinical and initial clinical aspects of CCK-2 receptor-targeting with 3 radiolabeled peptides

Author

Breeman, Wouter A.P., Fröberg, A.C., de Blois, E., van Gameren, A., Melis, M., de Jong, M., Maina, T., Nock, B.A., Erion, J.L., Mäcke, H.R., and Krenning, E.P.

Subjects

*DRUG receptors, *CANCER patients, *BLOOD plasma, *URINARY organs

Abstract

Abstract: Medullary thyroid carcinoma (MTC) expresses CCK-2 receptors. 111In-labeled DOTA-DGlu-Ala-Tyr-Gly-Trp-Met-Asp-Phe-NH2 (DOTA-MG11), DOTA-DAsp-Tyr-Nle-Gly-Trp-Nle-Asp-Phe-NH2 (DOTA-CCK), and 99mTc-labeled N4-Gly-DGlu-(Glu)5-Ala-Tyr-Gly-Trp-Met-Asp-Phe-NH2 (99mTc-Demogastrin 2) are analogs developed for CCK-2 receptor-targeted scintigraphy. All 3 radiolabeled analogs were selected on the basis of their high CCK-2 receptor affinity and their good in vitro serum stability, with in vitro serum t1/2 values of several hours. Radiolabeling of DOTA-peptides with 111In requires a heating procedure, typically in the range of 80°-100°C up to 30 min. Following this procedure with DOTA-MG11 resulted in a >98 % incorporation of 111In, however, with a radiochemical purity (RCP) of <50 %. The decrease in RCP was found to be due to oxidation of the methionine residue in the molecule. Moreover, this oxidized compound lost its CCK-2 receptor affinity. Therefore, conditions during radiolabeling were optimised: labeling of DOTA-MG11 and DOTA-CCK with 111In involved 5 min heating at 80°C and led to an incorporation of 111In of >98 %. In addition, all analogs were radiolabeled in the presence of quenchers to prevent radiolysis and oxidation resulting in a RCP of >90 %. All 3 radiolabeled analogs were i.v. administered to 6 MTC patients: radioactivity cleared rapidly by the kidneys, with no significant differences in the excretion pattern of the 3 radiotracers. All 3 radiolabeled analogs exhibited a low in vivo stability in patients, as revealed during analysis of blood samples, with the respective t1/2 found in the order of minutes. In patient blood, the rank of radiopeptide in vivo stability was: 99mTc-Demogastrin 2 (t1/2 10-15 min)>111In-DOTA-CCK (t1/2≈5-10 min)>111In-DOTA-MG11 (t1/2<5 min). [Copyright &y& Elsevier]

Published

2008

40. Macrocyclic chelator-coupled gastrin-based radiopharmaceuticals for targeting of gastrin receptor-expressing tumours.

Author

Good, Stephan, Walter, Martin A., Waser, Beatrice, Xuejuan Wang, Müller-Brand, Jan, Béhé, Martin, Reubi, Jean-Claude, and Maecke, Helmut

Subjects

*RADIOPHARMACEUTICALS, *TUMORS, *DIETHYLENETRIAMINEPENTAACETIC acid, *GASTRIN, *GASTROINTESTINAL hormones, *THERAPEUTICS, *CANCER patients, *MEDICAL radiology

Abstract

Diethylenetriamine-pentaacetic acid (DTPA)-coupled minigastrins are unsuitable for therapeutic application with the available β-emitting radiometals due to low complex stability. Low tumour-to-kidney ratio of the known radiopharmaceuticals is further limiting their potency. We used macrocyclic chelators for coupling to increase complex stability, modified the peptide sequence to enhance radiolytic stability and studied tumour-to-kidney ratio and metabolic stability using 111In-labelled derivatives. Gastrin derivatives with decreasing numbers of glutamic acids were synthesised using 111In as surrogate for therapeutic radiometals for in vitro and in vivo studies. Gastrin receptor affinities of the natIn-metallated compounds were determined by receptor autoradiography using 125I-CCK as radioligand. Internalisation was evaluated in AR4-2J cells. Enzymatic stability was determined by incubating the 111In-labelled peptides in human serum. Biodistribution was performed in AR4-2J-bearing Lewis rats. IC50 values of the natIn-metallated gastrin derivatives vary between 1.2 and 4.8 nmol/L for all methionine-containing derivatives. Replacement of methionine by norleucine, isoleucine, methionine-sulfoxide and methionine-sulfone resulted in significant decrease of receptor affinity (IC50 between 9.9 and 1,195 nmol/L). All cholecystokinin receptor affinities were >100 nmol/L. All 111In-labelled radiopeptides showed receptor-specific internalisation. Serum mean-life times varied between 2.0 and 72.6 h, positively correlating with the number of Glu residues. All 111In-labelled macrocyclic chelator conjugates showed higher tumour-to-kidney ratios after 24 h (0.37–0.99) compared to 111In-DTPA-minigastrin 0 (0.05). Tumour wash out between 4 and 24 h was low. Imaging studies confirmed receptor-specific blocking of the tumour uptake. Reducing the number of glutamates increased tumour-to-kidney ratio but resulted in lower metabolic stability. The properties of the macrocyclic chelator-bearing derivatives make them potentially suitable for clinical purposes. [ABSTRACT FROM AUTHOR]

Published

2008

41. Targeting of a CCK2 receptor splice variant with 111In-labelled cholecystokinin-8 (CCK8) and 111In-labelled minigastrin.

Author

Laverman, Peter, Roosenburg, Susan, Gotthardt, Martin, Jeseong Park, Oyen, Wim J. G., de Jong, Marion, Hellmich, Mark R., Rutjes, Floris P. J. T., van Delft, Floris L., and Boerman, Otto C.

Subjects

*CHOLECYSTOKININ, *RADIONUCLIDE imaging, *COLON cancer, *CANCER diagnosis, *PEPTIDE synthesis, *SCIENTIFIC method

Abstract

Radiolabelled cholecystokinin (CCK) and gastrin-derived peptides potentially can be used for peptide receptor radionuclide therapy (PRRT). Recently, a splice variant version of the CCK2R has been identified, designated CCK2i4svR. Constitutive expression of this receptor has been demonstrated in human colorectal cancer and in pancreatic cancer, but not in normal tissue. So far, it has never been shown whether radiolabelled peptides can target the CCK2i4svR in vivo. In this paper, we investigated the potential of sulfated 111In-labelled DOTA-CCK8 (sCCK8), a pan-CCKR-binding peptide, and [111In]DOTA-minigastrin (MG0), a CCK2R selective peptide, for the targeting of the CCK2i4svR. The receptor binding affinity of [111In]DOTA-sCCK8 and [111In]DOTA-MG0 for the CCK2R and CCK2i4svR was determined using stably transfected HEK293 cell lines, expressing either CCK2R or CCK2i4svR. Tumour targeting was studied in HEK293-CCK2i4svR tumour-bearing athymic mice. [111In]DOTA-sCCK8 as well as [111In]DOTA-MG0 specifically bound both CCK2R and CCK2i4svR with affinities in the low nanomolar range. In vivo experiments revealed that accumulation of both peptides in CCK2i4svR-positive tumours was similar (3.21 ± 0.77 and 3.01 ± 0.67%ID/g, sCCK8 and MG0, respectively, 24 h p.i.). Kidney retention of [111In]DOTA-MG0 (32.4 ± 7.5%ID/g, 24 h p.i.) was markedly higher than that of [111In]DOTA-sCCK8 (2.75 ± 0.31%ID/g, 24 h p.i.). We demonstrated that the CCK2i4svR is a potential target for PRRT using a radiolabelled sulfated CCK8 peptide. As this receptor is expressed on colorectal and pancreatic tumours, but not in normal tissue, these tumours are potentially new targets for PRRT with CCK8 and gastrin analogs. [ABSTRACT FROM AUTHOR]

Published

2008

42. 99mTc-labelled HYNIC-minigastrin with reduced kidney uptake for targeting of CCK-2 receptor-positive tumours.

Author

von Guggenberg, E., Dietrich, H., Skvortsova, I., Gabriel, M., Virgolini, I. J., and Decristoforo, C.

Subjects

*CHOLECYSTOKININ, *GASTROINTESTINAL hormones, *RADIOLIGAND assay, *THYROID gland tumors, *TECHNETIUM, *GASTRIN

Abstract

Different attempts have been made to develop a suitable radioligand for targeting CCK-2 receptors in vivo, for staging of medullary thyroid carcinoma (MTC) and other receptor-expressing tumours. After initial successful clinical studies with [DTPA0, DGlu1]minigastrin (DTPA-MG0) radiolabelled with 111In and 90Y, our group developed a 99mTc-labelled radioligand, based on HYNIC-MG0. A major drawback observed with these derivatives is their high uptake by the kidneys. In this study we describe the preclinical evaluation of the optimised shortened peptide analogue, [HYNIC0, DGlu1,desGlu2–6]minigastrin (HYNIC-MG11). 99mTc labelling of HYNIC-MG11 was performed using tricine and EDDA as coligands. Stability experiments were carried out by reversed phase HPLC analysis in PBS, PBS/cysteine and plasma as well as rat liver and kidney homogenates. Receptor binding and cell uptake experiments were performed using AR4-2J rat pancreatic tumour cells. Animal biodistribution was studied in AR4-2J tumour-bearing nude mice. Radiolabelling was performed at high specific activities and radiochemical purity was >90%. 99mTc-EDDA-HYNIC-MG11 showed high affinity for the CCK-2 receptor and cell internalisation comparable to that of 99mTc-EDDA-HYNIC-MG0. Despite high stability in solution, a low metabolic stability in rat tissue homogenates was found. In a nude mouse tumour model, very low unspecific retention in most organs, rapid renal excretion with reduced renal retention and high tumour uptake were observed. 99mTc-EDDA-HYNIC-MG11 shows advantages over 99mTc-EDDA-HYNIC-MG0 in terms of lower kidney retention with unchanged uptake in tumours and CCK-2 receptor-positive tissue. However, the lower metabolic stability and impurities formed in the labelling process still leave room for further improvement. [ABSTRACT FROM AUTHOR]

Published

2007

43. Targets, Tracers and Translation – Novel Radiopharmaceuticals Boost Nuclear Medicine

Author

Gerald Reischl

Subjects

Iodo gen, chemistry.chemical_compound, Tumor targeting, chemistry, Fusarinine C, Computer science, 11C-meta-hydroxyephedrine, Translation (biology), Computational biology, Molecular imaging, Metabolic stability, Minigastrin

Published

2019

44. Cholecystokinin-2 Receptor Targeting with Novel C-terminally Stabilized HYNIC-Minigastrin Analogs Radiolabeled with Technetium-99m

Author

Clemens Decristoforo, Elisabeth von Guggenberg, Dominik Summer, Maximilian Klingler, Piriya Kaeopookum, and Christine Rangger

Subjects

Biodistribution, Cell, Pharmaceutical Science, lcsh:Medicine, lcsh:RS1-441, Peptide, Article, 030218 nuclear medicine & medical imaging, radiometals, lcsh:Pharmacy and materia medica, 03 medical and health sciences, 0302 clinical medicine, Drug Discovery, medicine, Receptor, chemistry.chemical_classification, lcsh:R, hydrazinonicotinic acid (HYNIC), Correction, Transfection, molecular imaging, Molecular biology, 3. Good health, Amino acid, medicine.anatomical_structure, Epidermoid carcinoma, chemistry, 030220 oncology & carcinogenesis, minigastrin, Molecular Medicine, cholecystokinin-2 receptor, technetium-99m, Technetium-99m

Abstract

The high overexpression of cholecystokinin-2 receptors (CCK2R) in tumors, such as medullary thyroid carcinoma, allows for highly specific diagnostic and therapeutic targeting with radiolabeled peptide probes derived from natural ligands for the receptor. Based on the ideal imaging characteristics, high availability and low cost of technetium-99m (99mTc)-labeled radiopharmaceuticals we have developed two hydrazinonicotinic acid (HYNIC) conjugated minigastrin analogs allowing labeling at high specific activity. The CCK2R targeting peptide conjugates show specific amino acid substitutions in the C-terminal receptor-specific sequence with the aim to increase stability and tumor targeting. The CCK2R affinity and the cell uptake of the new radioligands were analyzed using A431 human epidermoid carcinoma cells stably transfected with human CCK2R and mock transfected cells. Metabolic studies in BALB/c mice revealed a high resistance against enzymatic degradation for both radioligands. Biodistribution studies in tumor-xenografted athymic BALB/c nude mice at 1 h and 4 h p.i. showed that the two 99mTc-labeled compounds showed varying uptake in receptor expressing organs, stomach and pancreas (1.3&ndash, 10.4% IA/g), as well as kidneys, the main route of excretion (7.8&ndash, 19.9% IA/g). The tumor uptake in A431-CCK2R xenografts was 24.75 &plusmn, 4.38% IA/g for [99mTc]Tc-HYNIC-MGS5 and 42.48 &plusmn, 6.99% IA/g for [99mTc]Tc-HYNIC-MGS11 at 4 h p.i., whereas the tumor-to-kidney ratio was comparable (2.6&ndash, 3.3). On demand availability and potential application for radioguided surgery of a 99mTc-labeled minigastrin analog support the further evaluation of these highly promising new compounds.

Published

2019

45. Radiooznačeni peptidi v nuklearni medicini

Author

Irena Mlinarič-Raščan, Tanja Gmeiner, Petra Kolenc Peitl, Marijana Leskovec, Aljaž Sočan, and Marko Kroselj

Subjects

teranostiki, radiofarmaki, lcsh:R, minigastrin, lcsh:Medicine, radiooznačeni peptidi, somatostatin

Abstract

Nuklearna medicina pri obravnavi onkoloških bolnikov omogoča slikovni prikaz oziroma lokalizacijo tumorjev, ciljano zdravljenje ter spremljanje uspešnosti zdravljenja. Visoko specifične radiooznačene peptidne učinkovine lahko izkoristimo za ciljanje tumorskih celic, ki imajo na svoji površini prekomerno izražene receptorje za te učinkovine. Enako peptidno učinkovino lahko radiooznačimo tako z diagnostičnimi kot terapevtskimi radionuklidi, kar nam omogoča personaliziran pristop pri obravnavi bolnikov. V preglednem članku opisujemo dva sistema teranostičnih parov, ki jih v nuklearni medicini uporabljamo za diagnosticiranje ter zdravljenje tumorjev. Klasičen primer takšnih teranostičnih parov so radiooznačeni analogi somatostatina, ki se rutinsko uporabljajo v diagnostiki ter zdravljenju nevroendokrinih tumorjev (NET) s prekomerno izraženimi receptorji za somatostatin. Po drugi strani pa so radiooznačeni analogi minigastrina, ki se vežejo na receptorje za holecistokinin-2, primerni za diagnostiko medularnega raka ščitnice (MTC), za njihovo varno zdravljenje pa še potekajo klinična preskušanja.

Published

2018

46. Radiopharmaceutical Formulation and Preclinical Testing of 68 Ga-Labeled DOTA-MGS5 for the Regulatory Approval of a First Exploratory Clinical Trial.

Author

Hörmann, Anton A., Klingler, Maximilian, Rangger, Christine, Mair, Christian, Decristoforo, Clemens, Uprimny, Christian, Virgolini, Irene J., and von Guggenberg, Elisabeth

Subjects

*COMPUTED tomography, *POSITRON emission tomography, *REGULATORY approval, *CLINICAL trials, *LABORATORY rats, *DRUG labeling

Abstract

The new minigastrin analog DOTA-MGS5 is a promising new candidate for targeting cholecystokinin-2 receptor (CCK2R)-expressing tumors. To enable the clinical translation of PET/CT imaging using 68Ga-labeled DOTA-MGS5, different quality and safety aspects need to be considered to comply with the regulatory framework for clinical trial application. The preparation of the radiopharmaceutical was established using a cassette-based automated synthesis unit. Product specifications, including analytical procedures and acceptance criteria, were adopted from Ph. Eur. monographs for other 68Ga-labeled radiopharmaceuticals. Non-clinical studies included receptor affinity and cell uptake studies using two different CCK2R-expressing cell lines, as well as pharmacokinetic biodistribution studies in BALB/c mice for dosimetry calculations and toxicological studies in Wistar rats. The produced masterbatches fulfilled the defined acceptance criteria. DOTA-MGS5, with confirmed affinity to the CCK2R, showed a high specific cell uptake and no interaction with other receptors in vitro when radiolabeled with gallium-68. Favorable in vivo properties were observed in biodistribution and dosimetry studies. An effective dose of ~0.01 mSv/MBq was estimated for humans utilizing OLINDA/EXM software. A maximum peptide dose of 50 µg was established for the initial clinical dose based on the toxicity study in rats. The standardized production of [68Ga]Ga-DOTA-MGS5 using an automated synthesis module and the performed non-clinical safety studies support a first exploratory clinical trial with this new PET imaging agent. [ABSTRACT FROM AUTHOR]

Published

2021

47. Improved Tumor-Targeting with Peptidomimetic Analogs of Minigastrin 177 Lu-PP-F11N.

Author

Grob, Nathalie M., Schibli, Roger, Béhé, Martin, and Mindt, Thomas L.

Subjects

*CONFIDENCE intervals, *ANIMAL experimentation, *CELL receptors, *DESCRIPTIVE statistics, *MOLECULAR structure, *CHOLECYSTOKININ, *PEPTIDES, *MICE

Abstract

Simple Summary: Several radiolabeled peptides targeting CCK2R-positive types of cancer (such as medullary thyroid cancer and small cell lung cancer) have been reported in the last 25 years, some of which have entered clinical trials. In an effort to improve its tumor-targeting properties, we applied chemical modifications to the backbone of the peptide 177Lu-PP-F11N, an analog of minigastrin in clinical trials. The generated radiolabeled peptidomimetics showed significantly improved characteristics in mice bearing CCK2R-positive tumor xenografts, such as higher tumor uptake, slower tumor washout, and increased tumor-to-kidney ratios. These properties make the novel compounds promising candidates for the imaging and therapy of CCK2R-positive tumors and metastases. The cholecystokinin-2 receptor (CCK2R) is an attractive target in nuclear medicine due to its overexpression by different tumors. Several radiolabeled peptidic ligands targeting the CCK2R have been investigated in the past; however, their low stability against proteases can limit their uptake in tumors and metastases. Substitution of single or multiple amide bonds with metabolically stable 1,4-disubstituted 1,2,3-triazoles as amide bond bioisosteres proved a promising strategy for improving the tumor-targeting properties of a truncated analog of minigastrin. In this study, we applied the previously studied structural modifications to improve the pharmacokinetic and pharmacodynamic properties of PP-F11N, a minigastrin analog currently in clinical trials. Novel minigastrins (NMGs) as analogs of PP-F11N with one or two amide bonds substituted by 1,2,3-triazoles were synthesized, radiolabeled with 177Lu3+, and subjected to full evaluation in vitro (cell internalization, receptor affinity, stability in blood plasma) and in vivo (stability, biodistribution, SPECT/CT imaging). NMGs with triazoles inserted between the amino acids DGlu10-Ala11 and/or Tyr12-Gly13 showed a significantly increased cellular uptake and affinity toward the CCK2R in vitro. Resistance against the metabolic degradation of the NMGs was comparable to those of the clinical candidate PP-F11N. Imaging by SPECT/CT and biodistribution studies demonstrated a higher uptake in CCK2R-positive tumors but also in the CCK2R-positive stomach. The peptidomimetic compounds showed a slow tumor washout and high tumor-to-kidney ratios. The structural modifications led to the identification of analogs with promising properties for progression to clinical applications in the diagnosis and therapy of CCK2R-positive neoplasms. [ABSTRACT FROM AUTHOR]

Published

2021

48. Site-specific stabilization of minigastrin analogs against enzymatic degradation for enhanced cholecystokinin-2 receptor targeting

Author

Klingler, Maximilian, Decristoforo, Clemens, Rangger, Christine, Summer, Dominik, Foster, Julie, Sosabowski, Jane K, and von Guggenberg, Elisabeth

Subjects

Male, metabolic stabilization, Metabolic Clearance Rate, radiometals, Mice, Cell Line, Tumor, Neoplasms, Gastrins, Animals, Humans, Tissue Distribution, neoplasms, Mice, Inbred BALB C, Protein Stability, Indium Radioisotopes, Receptor, Cholecystokinin B, Molecular Imaging, Rats, Amino Acid Substitution, Isotope Labeling, minigastrin, cholecystokinin-2 receptor, Female, Erratum, Peptides, Research Paper, Protein Binding

Abstract

Minigastrin (MG) analogs show high affinity to the cholecystokinin-2 receptor (CCK2R) and have therefore been intensively studied to find a suitable analog for imaging and treatment of CCK2R-expressing tumors. The clinical translation of the radioligands developed thus far has been hampered by high kidney uptake or low enzymatic stability. In this study, we aimed to develop new MG analogs with improved targeting properties stabilized against degradation through site-specific amino acid modifications. Method: Based on the lead structure of a truncated MG analog, four new MG derivatives with substitutions in the C-terminal part of the peptide (Trp-Met-Asp-Phe-NH2) were synthesized and derivatized with DOTA at the N-terminus for radiolabeling with trivalent radiometals. The in vitro properties of the new analogs were characterized by analyzing the lipophilicity, the protein binding, and the stability of the Indium-111 (111In)-labeled analogs in different media. Two different cell lines, AR42J cells physiologically expressing the rat CCK2R and A431 cells transfected with human CCK2R (A431-CCK2R), were used to study the receptor affinity and cell uptake. For the two most promising MG analogs, metabolic studies in normal BALB/c mice were carried out as well as biodistribution and imaging studies in tumor xenografted athymic BALB/c nude mice. Results: Two out of four synthesized peptide analogs (DOTA-MGS1 and DOTA-MGS4) showed retained receptor affinity and cell uptake when radiolabeled with 111In. These two peptide analogs, however, showed a different stability against enzymatic degradation in vitro and in vivo. When injected to normal BALB/c mice, for 111In-DOTA-MGS1 at 10 min post injection (p.i.) no intact radiopeptide was found in the blood, whereas for 111In-DOTA-MGS4 more than 75% was still intact. 111In-DOTA-MGS4 showed a clear increase in injected activity per gram tissue (IA/g) for A431-CCK2R xenografts (10.40±2.21% IA/g 4 h p.i.) when compared to 111In-DOTA-MGS1 (1.23±0.15% IA/g 4 h p.i.). The tumor uptake of 111In-DOTA-MGS4 was also combined with a low uptake in stomach and kidney leading to high-contrast NanoSPECT/CT images. Conclusion: Of the four new MG analogs developed, the best results in terms of enzymatic stability and increased tumor targeting were obtained with 111In-DOTA-MGS4 showing two substitutions with N-methylated amino acids. 111In-DOTA-MGS4 was also superior to other MG analogs reported thus far and seems therefore an extremely promising targeting molecule for theranostic use with alternative radiometals.

Published

2017

49. 177Lu-labelled peptidomimetics: novel minigastrin analogues for improved tumour targeting

Author

N. Grob, Roger Schibli, Martin Béhé, and Thomas L. Mindt

Subjects

Cancer Research, chemistry.chemical_compound, Chemistry, Peptidomimetic, Cancer research, Tumour targeting, Molecular Medicine, Radiology, Nuclear Medicine and imaging, Minigastrin

Published

2019

50. Correction: Klingler, M., et al. Cholecystokinin-2 Receptor Targeting with Novel C-terminally Stabilized HYNIC-Minigastrin Analogs Radiolabeled with Technetium-99m. Pharmaceuticals 2019, 12, 13

Author

Elisabeth von Guggenberg, Christine Rangger, Dominik Summer, Clemens Decristoforo, Maximilian Klingler, and Piriya Kaeopookum

Subjects

Chemistry, lcsh:R, lcsh:Medicine, lcsh:RS1-441, Pharmaceutical Science, Pharmacology, Minigastrin, lcsh:Pharmacy and materia medica, Cholecystokinin-2 Receptor, chemistry.chemical_compound, n/a, Drug Discovery, Molecular Medicine, Technetium-99m

Abstract

In our paper [...]

Published

2019