Radiosynthesis of the iodine-124 labeled Hsp90 inhibitor PU-H71

Heat shock protein 90 (Hsp90) is an ATP dependent molecular chaperone protein whose function is critical for maintaining several key proteins involved in survival and proliferation of cancer cells. PU‐H71 (1), is a potent purine‐scaffold based ATP pocket binding Hsp90 inhibitor which has been shown...

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Published inJournal of labelled compounds & radiopharmaceuticals Vol. 59; no. 3; pp. 129 - 132
Main Authors Taldone, Tony, Zatorska, Danuta, Ochiana, Stefan O., Smith-Jones, Peter, Koziorowski, Jacek, Dunphy, Mark P., Zanzonico, Pat, Bolaender, Alexander, Lewis, Jason S., Larson, Steven M., Chiosis, Gabriela, Pillarsetty, Naga Vara Kishore
Format Journal Article
LanguageEnglish
Published England Blackwell Publishing Ltd 01.03.2016
Wiley Subscription Services, Inc
Subjects
Benzodioxoles - chemistry
cancer
heat shock protein 90
HSP90 Heat-Shock Proteins - antagonists & inhibitors
Iodine Radioisotopes - chemistry
iodine-124
iododestannylation
PET
PU-H71
purine
Purines - chemistry
Radiopharmaceuticals - chemical synthesis
radiotracer
iodine-124
iododestannylation
radiotracer
purine
cancer
PU-H71
PET
heat shock protein 90
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Abstract Heat shock protein 90 (Hsp90) is an ATP dependent molecular chaperone protein whose function is critical for maintaining several key proteins involved in survival and proliferation of cancer cells. PU‐H71 (1), is a potent purine‐scaffold based ATP pocket binding Hsp90 inhibitor which has been shown to have potent activity in a broad range of in vivo cancer models and is currently in Phase I clinical trials in patients with advanced solid malignancies, lymphomas, and myeloproliferative neoplasms. In this report, we describe the radiosynthesis of [124I]‐PU‐H71(5); this was synthesized from the corresponding Boc‐protected stannane precursor 3 by iododestannylation with [124I]‐NaI using chloramine‐T as an oxidant for 2 min, followed by Boc deprotection with 6 N HCl at 50 °C for 30 min to yield the final compound. The final product 5 was purified using HPLC and was isolated with an overall yield of 55 ± 6% (n = 6, isolated) from 3, and >98% purity and an average specific activity of 980 mCi/µmol. Our report sets the stage for the introduction of [124I]‐PU‐H71 as a potential non‐invasive probe for understanding biodistribution and pharmacokinetics of PU‐H71 in living subjects using positron emission tomography imaging. PU‐H71 (1) is a potent purine‐scaffold based ATP pocket binding Hsp90 inhibitor which has been shown to have potent activity in a broad range of in vivo cancer models and is currently in Phase I clinical trials. In this report, we describe the radiosynthesis of [124I]‐PU‐H71 (5) in four steps from 1. Our report sets the stage for the introduction of [124I]‐PU‐H71 as a potential non‐invasive probe for understanding biodistribution and pharmacokinetics of 1 in living subjects using positron emission tomography imaging.
AbstractList Heat shock protein 90 (Hsp90) is an ATP dependent molecular chaperone protein whose function is critical for maintaining several key proteins involved in survival and proliferation of cancer cells. PU‐H71 (1), is a potent purine‐scaffold based ATP pocket binding Hsp90 inhibitor which has been shown to have potent activity in a broad range of in vivo cancer models and is currently in Phase I clinical trials in patients with advanced solid malignancies, lymphomas, and myeloproliferative neoplasms. In this report, we describe the radiosynthesis of [124I]‐PU‐H71(5); this was synthesized from the corresponding Boc‐protected stannane precursor 3 by iododestannylation with [124I]‐NaI using chloramine‐T as an oxidant for 2 min, followed by Boc deprotection with 6 N HCl at 50 °C for 30 min to yield the final compound. The final product 5 was purified using HPLC and was isolated with an overall yield of 55 ± 6% (n = 6, isolated) from 3, and >98% purity and an average specific activity of 980 mCi/µmol. Our report sets the stage for the introduction of [124I]‐PU‐H71 as a potential non‐invasive probe for understanding biodistribution and pharmacokinetics of PU‐H71 in living subjects using positron emission tomography imaging. PU‐H71 (1) is a potent purine‐scaffold based ATP pocket binding Hsp90 inhibitor which has been shown to have potent activity in a broad range of in vivo cancer models and is currently in Phase I clinical trials. In this report, we describe the radiosynthesis of [124I]‐PU‐H71 (5) in four steps from 1. Our report sets the stage for the introduction of [124I]‐PU‐H71 as a potential non‐invasive probe for understanding biodistribution and pharmacokinetics of 1 in living subjects using positron emission tomography imaging.
Heat shock protein 90 (Hsp90) is an ATP dependent molecular chaperone protein whose function is critical for maintaining several key proteins involved in survival and proliferation of cancer cells. PU-H71 (1), is a potent purine-scaffold based ATP pocket binding Hsp90 inhibitor which has been shown to have potent activity in a broad range of in vivo cancer models and is currently in Phase I clinical trials in patients with advanced solid malignancies, lymphomas, and myeloproliferative neoplasms. In this report, we describe the radiosynthesis of [(124)I]-PU-H71(5); this was synthesized from the corresponding Boc-protected stannane precursor 3 by iododestannylation with [(124)I]-NaI using chloramine-T as an oxidant for 2 min, followed by Boc deprotection with 6 N HCl at 50 °C for 30 min to yield the final compound. The final product 5 was purified using HPLC and was isolated with an overall yield of 55 ± 6% (n = 6, isolated) from 3, and >98% purity and an average specific activity of 980 mCi/µmol. Our report sets the stage for the introduction of [(124)I]-PU-H71 as a potential non-invasive probe for understanding biodistribution and pharmacokinetics of PU-H71 in living subjects using positron emission tomography imaging.Heat shock protein 90 (Hsp90) is an ATP dependent molecular chaperone protein whose function is critical for maintaining several key proteins involved in survival and proliferation of cancer cells. PU-H71 (1), is a potent purine-scaffold based ATP pocket binding Hsp90 inhibitor which has been shown to have potent activity in a broad range of in vivo cancer models and is currently in Phase I clinical trials in patients with advanced solid malignancies, lymphomas, and myeloproliferative neoplasms. In this report, we describe the radiosynthesis of [(124)I]-PU-H71(5); this was synthesized from the corresponding Boc-protected stannane precursor 3 by iododestannylation with [(124)I]-NaI using chloramine-T as an oxidant for 2 min, followed by Boc deprotection with 6 N HCl at 50 °C for 30 min to yield the final compound. The final product 5 was purified using HPLC and was isolated with an overall yield of 55 ± 6% (n = 6, isolated) from 3, and >98% purity and an average specific activity of 980 mCi/µmol. Our report sets the stage for the introduction of [(124)I]-PU-H71 as a potential non-invasive probe for understanding biodistribution and pharmacokinetics of PU-H71 in living subjects using positron emission tomography imaging.
Heat shock protein 90 (Hsp90) is an ATP dependent molecular chaperone protein whose function is critical for maintaining several key proteins involved in survival and proliferation of cancer cells. PU-H71 (1), is a potent purine-scaffold based ATP pocket binding Hsp90 inhibitor which has been shown to have potent activity in a broad range of in vivo cancer models and is currently in Phase I clinical trials in patients with advanced solid malignancies, lymphomas, and myeloproliferative neoplasms. In this report, we describe the radiosynthesis of [(124)I]-PU-H71(5); this was synthesized from the corresponding Boc-protected stannane precursor 3 by iododestannylation with [(124)I]-NaI using chloramine-T as an oxidant for 2 min, followed by Boc deprotection with 6 N HCl at 50 °C for 30 min to yield the final compound. The final product 5 was purified using HPLC and was isolated with an overall yield of 55 ± 6% (n = 6, isolated) from 3, and >98% purity and an average specific activity of 980 mCi/µmol. Our report sets the stage for the introduction of [(124)I]-PU-H71 as a potential non-invasive probe for understanding biodistribution and pharmacokinetics of PU-H71 in living subjects using positron emission tomography imaging.
Heat shock protein 90 (Hsp90) is an ATP dependent molecular chaperone protein whose function is critical for maintaining several key proteins involved in survival and proliferation of cancer cells. PU‐H71 (1), is a potent purine‐scaffold based ATP pocket binding Hsp90 inhibitor which has been shown to have potent activity in a broad range of in vivo cancer models and is currently in Phase I clinical trials in patients with advanced solid malignancies, lymphomas, and myeloproliferative neoplasms. In this report, we describe the radiosynthesis of [ 124 I]‐PU‐H71(5); this was synthesized from the corresponding Boc‐protected stannane precursor 3 by iododestannylation with [ 124 I]‐NaI using chloramine‐T as an oxidant for 2 min, followed by Boc deprotection with 6 N HCl at 50 °C for 30 min to yield the final compound. The final product 5 was purified using HPLC and was isolated with an overall yield of 55 ± 6% ( n  = 6, isolated) from 3, and >98% purity and an average specific activity of 980 mCi/µmol. Our report sets the stage for the introduction of [ 124 I]‐PU‐H71 as a potential non‐invasive probe for understanding biodistribution and pharmacokinetics of PU‐H71 in living subjects using positron emission tomography imaging.
Heat shock protein 90 (Hsp90) is an ATP dependent molecular chaperone protein whose function is critical for maintaining several key proteins involved in survival and proliferation of cancer cells. PU-H71 ( 1 ) is a potent purine-scaffold based ATP pocket binding Hsp90 inhibitor which has been shown to have potent activity in a broad range of in vivo cancer models and is currently in Phase I clinical trials in patients with advanced solid malignancies, lymphomas and myeloproliferative neoplasms. In this report we describe the radiosynthesis of [ 124 I]-PU-H71 ( 5 ); this was synthesized from the corresponding Boc-protected stannane precursor 3 by iododestannylation with [ 124 I]-NaI using chloramine-T as an oxidant for 2 minutes, followed by Boc deprotection with 6 N HCl at 50 °C for 30 min to yield the final compound. The final product 5 was purified using HPLC and was isolated with an overall yield of 55 ± 6 % (n=6, isolated) from 3 , and >98% purity and an average specific activity of 980 mCi/µmol. Our report sets the stage for the introduction of [ 124 I]-PU-H71 as a potential non-invasive probe for understanding biodistribution and pharmacokinetics of PU-H71 in living subjects using PET imaging.
Heat shock protein 90 (Hsp90) is an ATP dependent molecular chaperone protein whose function is critical for maintaining several key proteins involved in survival and proliferation of cancer cells. PU-H71 (1), is a potent purine-scaffold based ATP pocket binding Hsp90 inhibitor which has been shown to have potent activity in a broad range of in vivo cancer models and is currently in Phase I clinical trials in patients with advanced solid malignancies, lymphomas, and myeloproliferative neoplasms. In this report, we describe the radiosynthesis of [I-124]-PU-H71(5); this was synthesized from the corresponding Boc-protected stannane precursor 3 by iododestannylation with [I-124]-NaI using chloramine-T as an oxidant for 2min, followed by Boc deprotection with 6 N HCl at 50 degrees C for 30min to yield the final compound. The final product 5 was purified using HPLC and was isolated with an overall yield of 55 +/- 6% (n=6, isolated) from 3, and >98% purity and an average specific activity of 980mCi/mu mol. Our report sets the stage for the introduction of [I-124]-PU-H71 as a potential non-invasive probe for understanding biodistribution and pharmacokinetics of PU-H71 in living subjects using positron emission tomography imaging.
Heat shock protein 90 (Hsp90) is an ATP dependent molecular chaperone protein whose function is critical for maintaining several key proteins involved in survival and proliferation of cancer cells. PU-H71 (1), is a potent purine-scaffold based ATP pocket binding Hsp90 inhibitor which has been shown to have potent activity in a broad range of in vivo cancer models and is currently in Phase I clinical trials in patients with advanced solid malignancies, lymphomas, and myeloproliferative neoplasms. In this report, we describe the radiosynthesis of [124I]-PU-H71(5); this was synthesized from the corresponding Boc-protected stannane precursor 3 by iododestannylation with [124I]-NaI using chloramine-T as an oxidant for 2min, followed by Boc deprotection with 6 N HCl at 50°C for 30min to yield the final compound. The final product 5 was purified using HPLC and was isolated with an overall yield of 55±6% (n=6, isolated) from 3, and >98% purity and an average specific activity of 980mCi/µmol. Our report sets the stage for the introduction of [124I]-PU-H71 as a potential non-invasive probe for understanding biodistribution and pharmacokinetics of PU-H71 in living subjects using positron emission tomography imaging.
Author Ochiana, Stefan O.
Smith-Jones, Peter
Chiosis, Gabriela
Dunphy, Mark P.
Zanzonico, Pat
Taldone, Tony
Pillarsetty, Naga Vara Kishore
Koziorowski, Jacek
Bolaender, Alexander
Larson, Steven M.
Zatorska, Danuta
Lewis, Jason S.
AuthorAffiliation 1 Molecular Pharmacology and Chemistry Program, Sloan Kettering Institute, New York, NY
3 Department of Medical Physics, Memorial Sloan Kettering Cancer Center, New York, NY
2 Department of Radiology, Memorial Sloan Kettering Cancer Center, New York, NY
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Issue 3
Keywords iodine-124
iododestannylation
radiotracer
purine
cancer
PU-H71
PET
heat shock protein 90
Language English
License http://onlinelibrary.wiley.com/termsAndConditions#vor
Copyright © 2016 John Wiley & Sons, Ltd.
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Notes David Rubenstein Center for Pancreatic Cancer Research - No. P50-CA86438; No. R01 CA172546; No. R01 CA155226; No. P50 CA192937
Department of Defense - No. PDF-BC093421
R03-BC085588
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Currently at
Department of Radiation Physics and Department of Medical and Health Sciences, Linköping University, Linköping, Sweden
Departments of Psychiatry and Radiology, Stony Brook School of Medicine, Stony Brook, NY, USA
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Snippet Heat shock protein 90 (Hsp90) is an ATP dependent molecular chaperone protein whose function is critical for maintaining several key proteins involved in...
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SubjectTerms Benzodioxoles - chemistry
cancer
heat shock protein 90
HSP90 Heat-Shock Proteins - antagonists & inhibitors
Iodine Radioisotopes - chemistry
iodine-124
iododestannylation
PET
PU-H71
purine
Purines - chemistry
Radiopharmaceuticals - chemical synthesis
radiotracer
Title Radiosynthesis of the iodine-124 labeled Hsp90 inhibitor PU-H71
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Volume 59
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