Evaluation of the pharmacokinetic effects of various linking group using the 111In-DOTA-X-BBN(7-14)NH2 structural paradigm in a prostate cancer model

Jered C Garrison, Tammy L. Rold, Gary L. Sieckman, Farah Naz, Samantha V. Sublett, Said Daibes Figueroa, Wynn A. Volkert, Timothy J. Hoffman

Research output: Contribution to journalArticle

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Abstract

The high incidence of BB2 receptor (BB2r) expression in various cancers has prompted investigators to pursue the development of BB2r-targeted agents for diagnostic imaging, chemotherapy, and radiotherapy. Development of BB2r-targeted agents, based on the bombesin (BBN) peptide, has largely involved the use of the bifunctional chelate approach in which the linking group serves several key roles including pharmacokinetic modification. Understanding the in vivo properties of the various pharmacokinetic modifying linking groups is crucial for developing BB2r-targeted agents with improved targeting and clearance characteristics. The goal of this study was to systematically evaluate the pharmacokinetic profile of aliphatic hydrocarbon, aromatic, and poly(ethylene glycol) (ether) functional groups in order to obtain a better understanding of the in vivo properties of these pharmacokinetic modifiers. Specifically, we synthesized six radioconjugates with the structure 111In-DOTA-X- BBN(7-14)NH2, where X = 8-aminooctanoic acid (8-AOC), 5-amino-3-oxapentyl-succinamic acid (5-ADS), 8-amino-3,6-dioxaoctyl-succinamic acid (8-AOS), p-aminobenzoic acid (AMBA), Gly-AMBA, and Gly-p-aminomethylbenzoic acid (Gly-AM2BA). All of the natIn-conjugates demonstrated nanomolar binding affinities to the BB2r. In CF-1 mice, the BB2r uptake in the pancreas of radioconjugates containing aromatic linking groups was found to be significantly higher at 1 h postinjection than the radioconjugates with ether linker moieties. For PC-3 tumor-bearing SCID mice, the tumor uptake was found to be 6.66 ± 2.00, 6.21 ± 1.57, 6.36 ± 1.60, 4.46 ± 0.81, and 7.76 ± 1.19 %ID/g for the 8-AOC, 8-ADS, AMBA, Gly-AMBA, and Gly-AM2BA radioconjugates, respectively, at 15 min postinjection. By 24 h postinjection, the radioconjugates containing aromatic groups exhibited the highest percentage tumor retention with 11.4%, 19.8%, 26.6%, 25.8%, and 25.5% relative to the 15 min values remaining in the tumor tissue for the 8-AOC, 8-ADS, AMBA, Gly-AMBA, and Gly-AM2BA radioconjugates, respectively. Fused Micro-SPECT/CT imaging studies performed at 24 h postinjection revealed substantial accumulation of radioactivity in the tumor tissue for all radioconjugates. In both biodistribution and Micro-SPECT/CT imaging studies, the radioconjugates containing aromatic linking groups typically exhibited significantly higher G.I. tract retention than the hydrocarbon or ether linking moieties. In conclusion, our studies indicate that radioconjugates incorporating aromatic linking groups, of the type investigated, generally demonstrated enhanced retention in BB2r expressing tissues in comparison to either the hydrocarbon or ether linking moieties. Furthermore, this investigation clearly demonstrates the significance of the linking group upon not only the in vivo clearance of the radiopharmaceutical, but also on the in vivo uptake and retention of the BB2r-targeted agent in tumor tissue. Future designs of BB2r-targeted agents should include a careful consideration of the effect linking group functionality has upon tumor targeting and retention.

Original languageEnglish (US)
Pages (from-to)1803-1812
Number of pages10
JournalBioconjugate Chemistry
Volume19
Issue number9
DOIs
StatePublished - Sep 1 2008

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Pharmacokinetics
4-Aminobenzoic Acid
Tumors
Prostatic Neoplasms
Acids
Ether
Neoplasms
Tissue
Hydrocarbons
Ethers
Imaging techniques
Bearings (structural)
Aromatic Hydrocarbons
Bombesin
Chemotherapy
Radiopharmaceuticals
Radioactivity
Radiotherapy
SCID Mice
Ethylene Glycol

ASJC Scopus subject areas

  • Biotechnology
  • Bioengineering
  • Biomedical Engineering
  • Pharmacology
  • Pharmaceutical Science
  • Organic Chemistry

Cite this

Evaluation of the pharmacokinetic effects of various linking group using the 111In-DOTA-X-BBN(7-14)NH2 structural paradigm in a prostate cancer model. / Garrison, Jered C; Rold, Tammy L.; Sieckman, Gary L.; Naz, Farah; Sublett, Samantha V.; Figueroa, Said Daibes; Volkert, Wynn A.; Hoffman, Timothy J.

In: Bioconjugate Chemistry, Vol. 19, No. 9, 01.09.2008, p. 1803-1812.

Research output: Contribution to journalArticle

Garrison, Jered C ; Rold, Tammy L. ; Sieckman, Gary L. ; Naz, Farah ; Sublett, Samantha V. ; Figueroa, Said Daibes ; Volkert, Wynn A. ; Hoffman, Timothy J. / Evaluation of the pharmacokinetic effects of various linking group using the 111In-DOTA-X-BBN(7-14)NH2 structural paradigm in a prostate cancer model. In: Bioconjugate Chemistry. 2008 ; Vol. 19, No. 9. pp. 1803-1812.
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abstract = "The high incidence of BB2 receptor (BB2r) expression in various cancers has prompted investigators to pursue the development of BB2r-targeted agents for diagnostic imaging, chemotherapy, and radiotherapy. Development of BB2r-targeted agents, based on the bombesin (BBN) peptide, has largely involved the use of the bifunctional chelate approach in which the linking group serves several key roles including pharmacokinetic modification. Understanding the in vivo properties of the various pharmacokinetic modifying linking groups is crucial for developing BB2r-targeted agents with improved targeting and clearance characteristics. The goal of this study was to systematically evaluate the pharmacokinetic profile of aliphatic hydrocarbon, aromatic, and poly(ethylene glycol) (ether) functional groups in order to obtain a better understanding of the in vivo properties of these pharmacokinetic modifiers. Specifically, we synthesized six radioconjugates with the structure 111In-DOTA-X- BBN(7-14)NH2, where X = 8-aminooctanoic acid (8-AOC), 5-amino-3-oxapentyl-succinamic acid (5-ADS), 8-amino-3,6-dioxaoctyl-succinamic acid (8-AOS), p-aminobenzoic acid (AMBA), Gly-AMBA, and Gly-p-aminomethylbenzoic acid (Gly-AM2BA). All of the natIn-conjugates demonstrated nanomolar binding affinities to the BB2r. In CF-1 mice, the BB2r uptake in the pancreas of radioconjugates containing aromatic linking groups was found to be significantly higher at 1 h postinjection than the radioconjugates with ether linker moieties. For PC-3 tumor-bearing SCID mice, the tumor uptake was found to be 6.66 ± 2.00, 6.21 ± 1.57, 6.36 ± 1.60, 4.46 ± 0.81, and 7.76 ± 1.19 {\%}ID/g for the 8-AOC, 8-ADS, AMBA, Gly-AMBA, and Gly-AM2BA radioconjugates, respectively, at 15 min postinjection. By 24 h postinjection, the radioconjugates containing aromatic groups exhibited the highest percentage tumor retention with 11.4{\%}, 19.8{\%}, 26.6{\%}, 25.8{\%}, and 25.5{\%} relative to the 15 min values remaining in the tumor tissue for the 8-AOC, 8-ADS, AMBA, Gly-AMBA, and Gly-AM2BA radioconjugates, respectively. Fused Micro-SPECT/CT imaging studies performed at 24 h postinjection revealed substantial accumulation of radioactivity in the tumor tissue for all radioconjugates. In both biodistribution and Micro-SPECT/CT imaging studies, the radioconjugates containing aromatic linking groups typically exhibited significantly higher G.I. tract retention than the hydrocarbon or ether linking moieties. In conclusion, our studies indicate that radioconjugates incorporating aromatic linking groups, of the type investigated, generally demonstrated enhanced retention in BB2r expressing tissues in comparison to either the hydrocarbon or ether linking moieties. Furthermore, this investigation clearly demonstrates the significance of the linking group upon not only the in vivo clearance of the radiopharmaceutical, but also on the in vivo uptake and retention of the BB2r-targeted agent in tumor tissue. Future designs of BB2r-targeted agents should include a careful consideration of the effect linking group functionality has upon tumor targeting and retention.",
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TY - JOUR

T1 - Evaluation of the pharmacokinetic effects of various linking group using the 111In-DOTA-X-BBN(7-14)NH2 structural paradigm in a prostate cancer model

AU - Garrison, Jered C

AU - Rold, Tammy L.

AU - Sieckman, Gary L.

AU - Naz, Farah

AU - Sublett, Samantha V.

AU - Figueroa, Said Daibes

AU - Volkert, Wynn A.

AU - Hoffman, Timothy J.

PY - 2008/9/1

Y1 - 2008/9/1

N2 - The high incidence of BB2 receptor (BB2r) expression in various cancers has prompted investigators to pursue the development of BB2r-targeted agents for diagnostic imaging, chemotherapy, and radiotherapy. Development of BB2r-targeted agents, based on the bombesin (BBN) peptide, has largely involved the use of the bifunctional chelate approach in which the linking group serves several key roles including pharmacokinetic modification. Understanding the in vivo properties of the various pharmacokinetic modifying linking groups is crucial for developing BB2r-targeted agents with improved targeting and clearance characteristics. The goal of this study was to systematically evaluate the pharmacokinetic profile of aliphatic hydrocarbon, aromatic, and poly(ethylene glycol) (ether) functional groups in order to obtain a better understanding of the in vivo properties of these pharmacokinetic modifiers. Specifically, we synthesized six radioconjugates with the structure 111In-DOTA-X- BBN(7-14)NH2, where X = 8-aminooctanoic acid (8-AOC), 5-amino-3-oxapentyl-succinamic acid (5-ADS), 8-amino-3,6-dioxaoctyl-succinamic acid (8-AOS), p-aminobenzoic acid (AMBA), Gly-AMBA, and Gly-p-aminomethylbenzoic acid (Gly-AM2BA). All of the natIn-conjugates demonstrated nanomolar binding affinities to the BB2r. In CF-1 mice, the BB2r uptake in the pancreas of radioconjugates containing aromatic linking groups was found to be significantly higher at 1 h postinjection than the radioconjugates with ether linker moieties. For PC-3 tumor-bearing SCID mice, the tumor uptake was found to be 6.66 ± 2.00, 6.21 ± 1.57, 6.36 ± 1.60, 4.46 ± 0.81, and 7.76 ± 1.19 %ID/g for the 8-AOC, 8-ADS, AMBA, Gly-AMBA, and Gly-AM2BA radioconjugates, respectively, at 15 min postinjection. By 24 h postinjection, the radioconjugates containing aromatic groups exhibited the highest percentage tumor retention with 11.4%, 19.8%, 26.6%, 25.8%, and 25.5% relative to the 15 min values remaining in the tumor tissue for the 8-AOC, 8-ADS, AMBA, Gly-AMBA, and Gly-AM2BA radioconjugates, respectively. Fused Micro-SPECT/CT imaging studies performed at 24 h postinjection revealed substantial accumulation of radioactivity in the tumor tissue for all radioconjugates. In both biodistribution and Micro-SPECT/CT imaging studies, the radioconjugates containing aromatic linking groups typically exhibited significantly higher G.I. tract retention than the hydrocarbon or ether linking moieties. In conclusion, our studies indicate that radioconjugates incorporating aromatic linking groups, of the type investigated, generally demonstrated enhanced retention in BB2r expressing tissues in comparison to either the hydrocarbon or ether linking moieties. Furthermore, this investigation clearly demonstrates the significance of the linking group upon not only the in vivo clearance of the radiopharmaceutical, but also on the in vivo uptake and retention of the BB2r-targeted agent in tumor tissue. Future designs of BB2r-targeted agents should include a careful consideration of the effect linking group functionality has upon tumor targeting and retention.

AB - The high incidence of BB2 receptor (BB2r) expression in various cancers has prompted investigators to pursue the development of BB2r-targeted agents for diagnostic imaging, chemotherapy, and radiotherapy. Development of BB2r-targeted agents, based on the bombesin (BBN) peptide, has largely involved the use of the bifunctional chelate approach in which the linking group serves several key roles including pharmacokinetic modification. Understanding the in vivo properties of the various pharmacokinetic modifying linking groups is crucial for developing BB2r-targeted agents with improved targeting and clearance characteristics. The goal of this study was to systematically evaluate the pharmacokinetic profile of aliphatic hydrocarbon, aromatic, and poly(ethylene glycol) (ether) functional groups in order to obtain a better understanding of the in vivo properties of these pharmacokinetic modifiers. Specifically, we synthesized six radioconjugates with the structure 111In-DOTA-X- BBN(7-14)NH2, where X = 8-aminooctanoic acid (8-AOC), 5-amino-3-oxapentyl-succinamic acid (5-ADS), 8-amino-3,6-dioxaoctyl-succinamic acid (8-AOS), p-aminobenzoic acid (AMBA), Gly-AMBA, and Gly-p-aminomethylbenzoic acid (Gly-AM2BA). All of the natIn-conjugates demonstrated nanomolar binding affinities to the BB2r. In CF-1 mice, the BB2r uptake in the pancreas of radioconjugates containing aromatic linking groups was found to be significantly higher at 1 h postinjection than the radioconjugates with ether linker moieties. For PC-3 tumor-bearing SCID mice, the tumor uptake was found to be 6.66 ± 2.00, 6.21 ± 1.57, 6.36 ± 1.60, 4.46 ± 0.81, and 7.76 ± 1.19 %ID/g for the 8-AOC, 8-ADS, AMBA, Gly-AMBA, and Gly-AM2BA radioconjugates, respectively, at 15 min postinjection. By 24 h postinjection, the radioconjugates containing aromatic groups exhibited the highest percentage tumor retention with 11.4%, 19.8%, 26.6%, 25.8%, and 25.5% relative to the 15 min values remaining in the tumor tissue for the 8-AOC, 8-ADS, AMBA, Gly-AMBA, and Gly-AM2BA radioconjugates, respectively. Fused Micro-SPECT/CT imaging studies performed at 24 h postinjection revealed substantial accumulation of radioactivity in the tumor tissue for all radioconjugates. In both biodistribution and Micro-SPECT/CT imaging studies, the radioconjugates containing aromatic linking groups typically exhibited significantly higher G.I. tract retention than the hydrocarbon or ether linking moieties. In conclusion, our studies indicate that radioconjugates incorporating aromatic linking groups, of the type investigated, generally demonstrated enhanced retention in BB2r expressing tissues in comparison to either the hydrocarbon or ether linking moieties. Furthermore, this investigation clearly demonstrates the significance of the linking group upon not only the in vivo clearance of the radiopharmaceutical, but also on the in vivo uptake and retention of the BB2r-targeted agent in tumor tissue. Future designs of BB2r-targeted agents should include a careful consideration of the effect linking group functionality has upon tumor targeting and retention.

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