Gastrin-releasing peptide receptor-based targeting using bombesin analogues is superior to metabolism-based targeting using choline for in vivo imaging of human prostate cancer xenografts

PURPOSE: Prostate cancer (PC) is a major health problem. Overexpression of the gastrin-releasing peptide receptor (GRPR) in PC, but not in the hyperplastic prostate, provides a promising target for staging and monitoring of PC. Based on the assumption that cancer cells have increased metabolic activ...

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Autores principales: Schroeder, Rogier P. J., van Weerden, W. M., Krenning, E. P., Bangma, C. H., Berndsen, S., Grievink-de Ligt, C. H., Groen, H. C., Reneman, S., de Blois, E., Breeman, W. A. P., de Jong, M.
Formato: Texto
Lenguaje:English
Publicado: Springer-Verlag 2011
Materias:
Original Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3104004/
https://www.ncbi.nlm.nih.gov/pubmed/21431398
http://dx.doi.org/10.1007/s00259-011-1775-3
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author Schroeder, Rogier P. J.
van Weerden, W. M.
Krenning, E. P.
Bangma, C. H.
Berndsen, S.
Grievink-de Ligt, C. H.
Groen, H. C.
Reneman, S.
de Blois, E.
Breeman, W. A. P.
de Jong, M.
author_facet Schroeder, Rogier P. J.
van Weerden, W. M.
Krenning, E. P.
Bangma, C. H.
Berndsen, S.
Grievink-de Ligt, C. H.
Groen, H. C.
Reneman, S.
de Blois, E.
Breeman, W. A. P.
de Jong, M.
author_sort Schroeder, Rogier P. J.
collection PubMed
description PURPOSE: Prostate cancer (PC) is a major health problem. Overexpression of the gastrin-releasing peptide receptor (GRPR) in PC, but not in the hyperplastic prostate, provides a promising target for staging and monitoring of PC. Based on the assumption that cancer cells have increased metabolic activity, metabolism-based tracers are also being used for PC imaging. We compared GRPR-based targeting using the (68)Ga-labelled bombesin analogue AMBA with metabolism-based targeting using (18)F-methylcholine ((18)F-FCH) in nude mice bearing human prostate VCaP xenografts. METHODS: PET and biodistribution studies were performed with both (68)Ga-AMBA and (18)F-FCH in all VCaP tumour-bearing mice, with PC-3 tumour-bearing mice as reference. Scanning started immediately after injection. Dynamic PET scans were reconstructed and analysed quantitatively. Biodistribution of tracers and tissue uptake was expressed as percent of injected dose per gram tissue (%ID/g). RESULTS: All tumours were clearly visualized using (68)Ga-AMBA. (18)F-FCH showed significantly less contrast due to poor tumour-to-background ratios. Quantitative PET analyses showed fast tumour uptake and high retention for both tracers. VCaP tumour uptake values determined from PET at steady-state were 6.7 ± 1.4%ID/g (20–30 min after injection, N = 8) for (68)Ga-AMBA and 1.6 ± 0.5%ID/g (10–20 min after injection, N = 8) for (18)F-FCH, which were significantly different (p <0.001). The results in PC-3 tumour-bearing mice were comparable. Biodistribution data were in accordance with the PET results showing VCaP tumour uptake values of 9.5 ± 4.8%ID/g (N = 8) for (68)Ga-AMBA and 2.1 ± 0.4%ID/g (N = 8) for (18)F-FCH. Apart from the GRPR-expressing organs, uptake in all organs was lower for (68)Ga-AMBA than for (18)F-FCH. CONCLUSION: Tumour uptake of (68)Ga-AMBA was higher while overall background activity was lower than observed for (18)F-FCH in the same PC-bearing mice. These results suggest that peptide receptor-based targeting using the bombesin analogue AMBA is superior to metabolism-based targeting using choline for scintigraphy of PC.
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spelling pubmed-31040042011-07-14 Gastrin-releasing peptide receptor-based targeting using bombesin analogues is superior to metabolism-based targeting using choline for in vivo imaging of human prostate cancer xenografts Schroeder, Rogier P. J. van Weerden, W. M. Krenning, E. P. Bangma, C. H. Berndsen, S. Grievink-de Ligt, C. H. Groen, H. C. Reneman, S. de Blois, E. Breeman, W. A. P. de Jong, M. Eur J Nucl Med Mol Imaging Original Article PURPOSE: Prostate cancer (PC) is a major health problem. Overexpression of the gastrin-releasing peptide receptor (GRPR) in PC, but not in the hyperplastic prostate, provides a promising target for staging and monitoring of PC. Based on the assumption that cancer cells have increased metabolic activity, metabolism-based tracers are also being used for PC imaging. We compared GRPR-based targeting using the (68)Ga-labelled bombesin analogue AMBA with metabolism-based targeting using (18)F-methylcholine ((18)F-FCH) in nude mice bearing human prostate VCaP xenografts. METHODS: PET and biodistribution studies were performed with both (68)Ga-AMBA and (18)F-FCH in all VCaP tumour-bearing mice, with PC-3 tumour-bearing mice as reference. Scanning started immediately after injection. Dynamic PET scans were reconstructed and analysed quantitatively. Biodistribution of tracers and tissue uptake was expressed as percent of injected dose per gram tissue (%ID/g). RESULTS: All tumours were clearly visualized using (68)Ga-AMBA. (18)F-FCH showed significantly less contrast due to poor tumour-to-background ratios. Quantitative PET analyses showed fast tumour uptake and high retention for both tracers. VCaP tumour uptake values determined from PET at steady-state were 6.7 ± 1.4%ID/g (20–30 min after injection, N = 8) for (68)Ga-AMBA and 1.6 ± 0.5%ID/g (10–20 min after injection, N = 8) for (18)F-FCH, which were significantly different (p <0.001). The results in PC-3 tumour-bearing mice were comparable. Biodistribution data were in accordance with the PET results showing VCaP tumour uptake values of 9.5 ± 4.8%ID/g (N = 8) for (68)Ga-AMBA and 2.1 ± 0.4%ID/g (N = 8) for (18)F-FCH. Apart from the GRPR-expressing organs, uptake in all organs was lower for (68)Ga-AMBA than for (18)F-FCH. CONCLUSION: Tumour uptake of (68)Ga-AMBA was higher while overall background activity was lower than observed for (18)F-FCH in the same PC-bearing mice. These results suggest that peptide receptor-based targeting using the bombesin analogue AMBA is superior to metabolism-based targeting using choline for scintigraphy of PC. Springer-Verlag 2011-03-23 2011 /pmc/articles/PMC3104004/ /pubmed/21431398 http://dx.doi.org/10.1007/s00259-011-1775-3 Text en © The Author(s) 2011 https://creativecommons.org/licenses/by-nc/4.0/ This article is distributed under the terms of the Creative Commons Attribution Noncommercial License which permits any noncommercial use, distribution, and reproduction in any medium, provided the original author(s) and source are credited.
spellingShingle Original Article
Schroeder, Rogier P. J.
van Weerden, W. M.
Krenning, E. P.
Bangma, C. H.
Berndsen, S.
Grievink-de Ligt, C. H.
Groen, H. C.
Reneman, S.
de Blois, E.
Breeman, W. A. P.
de Jong, M.
Gastrin-releasing peptide receptor-based targeting using bombesin analogues is superior to metabolism-based targeting using choline for in vivo imaging of human prostate cancer xenografts
title Gastrin-releasing peptide receptor-based targeting using bombesin analogues is superior to metabolism-based targeting using choline for in vivo imaging of human prostate cancer xenografts
title_full Gastrin-releasing peptide receptor-based targeting using bombesin analogues is superior to metabolism-based targeting using choline for in vivo imaging of human prostate cancer xenografts
title_fullStr Gastrin-releasing peptide receptor-based targeting using bombesin analogues is superior to metabolism-based targeting using choline for in vivo imaging of human prostate cancer xenografts
title_full_unstemmed Gastrin-releasing peptide receptor-based targeting using bombesin analogues is superior to metabolism-based targeting using choline for in vivo imaging of human prostate cancer xenografts
title_short Gastrin-releasing peptide receptor-based targeting using bombesin analogues is superior to metabolism-based targeting using choline for in vivo imaging of human prostate cancer xenografts
title_sort gastrin-releasing peptide receptor-based targeting using bombesin analogues is superior to metabolism-based targeting using choline for in vivo imaging of human prostate cancer xenografts
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3104004/
https://www.ncbi.nlm.nih.gov/pubmed/21431398
http://dx.doi.org/10.1007/s00259-011-1775-3
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