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Synthesis of 225Ac-PSMA-617 for Preclinical Use
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Background:
The recent approval of radiopharmaceuticals for diagnosis and treatment
of cancer is ushering nuclear medicine into a new era of theranostics and alpha therapy using radiopharmaceuticals
labeled with 225Ac shows remarkable results in clinical trials. As such, reliable
methods for the synthesis and quality control of 225Ac-radiopharmaceuticals are needed.
Objective:
225Ac-PSMA-617 is being used for targeted alpha therapy in patients with prostate cancer,
and we had cause to synthesize the agent for preclinical use. However, technology transfer
proved cumbersome owing to the paucity of information available on synthesizing and analyzing
225Ac-radiotherapeutics. To address this need, we describe a straightforward synthesis of 225Ac-PSMA-
617 as well as suitable approaches for quality control analysis using standard equipment in a
modern PET Center.
Methods:
PSMA-617 precursor was dissolved in 25 μL metal-free water (0.67 mg/mL) and combined
with 500 μL 0.05M Tris buffer, pH 9. Actinium stock solution (~65 μCi in 15 μL) was added
and the reaction was heated at 120°C for 40-50 min. The reaction was cooled and 0.6 mL gentisic
acid solution (4 mg/mL in 0.2 M NH4OAc) was added. To formulate the dose for injection, sterile
saline, USP (8 mL) was added and the pH was adjusted by the addition of 100 μL 0.05 M Tris buffer
(pH 9) to give a final pH of ~7.2. The final solution was filtered using a 0.22 μm GV sterile filter
into a sterile dose vial. Radiochemical purity was determined by radio-TLC (eluent: 50mM
Sodium Citrate, pH 5), and plates were analyzed using an AR2000 scanner.
Results:
The method provided 225Ac-PSMA-617 in high radiochemical yield (57 ± 3 μCi, >99%)
and radiochemical purity (98 ± 1%), formulated for preclinical studies (9 mL, pH = 7.2), n=3.
Conclusion:
A straightforward synthesis of 225Ac-PSMA-617 is described that will facilitate production
for (pre)clinical studies. The approach could also be applicable to the synthesis of other alpha
radiotherapeutics incorporating 225Ac.
Bentham Science Publishers Ltd.
Title: Synthesis of 225Ac-PSMA-617 for Preclinical Use
Description:
Background:
The recent approval of radiopharmaceuticals for diagnosis and treatment
of cancer is ushering nuclear medicine into a new era of theranostics and alpha therapy using radiopharmaceuticals
labeled with 225Ac shows remarkable results in clinical trials.
As such, reliable
methods for the synthesis and quality control of 225Ac-radiopharmaceuticals are needed.
Objective:
225Ac-PSMA-617 is being used for targeted alpha therapy in patients with prostate cancer,
and we had cause to synthesize the agent for preclinical use.
However, technology transfer
proved cumbersome owing to the paucity of information available on synthesizing and analyzing
225Ac-radiotherapeutics.
To address this need, we describe a straightforward synthesis of 225Ac-PSMA-
617 as well as suitable approaches for quality control analysis using standard equipment in a
modern PET Center.
Methods:
PSMA-617 precursor was dissolved in 25 μL metal-free water (0.
67 mg/mL) and combined
with 500 μL 0.
05M Tris buffer, pH 9.
Actinium stock solution (~65 μCi in 15 μL) was added
and the reaction was heated at 120°C for 40-50 min.
The reaction was cooled and 0.
6 mL gentisic
acid solution (4 mg/mL in 0.
2 M NH4OAc) was added.
To formulate the dose for injection, sterile
saline, USP (8 mL) was added and the pH was adjusted by the addition of 100 μL 0.
05 M Tris buffer
(pH 9) to give a final pH of ~7.
2.
The final solution was filtered using a 0.
22 μm GV sterile filter
into a sterile dose vial.
Radiochemical purity was determined by radio-TLC (eluent: 50mM
Sodium Citrate, pH 5), and plates were analyzed using an AR2000 scanner.
Results:
The method provided 225Ac-PSMA-617 in high radiochemical yield (57 ± 3 μCi, >99%)
and radiochemical purity (98 ± 1%), formulated for preclinical studies (9 mL, pH = 7.
2), n=3.
Conclusion:
A straightforward synthesis of 225Ac-PSMA-617 is described that will facilitate production
for (pre)clinical studies.
The approach could also be applicable to the synthesis of other alpha
radiotherapeutics incorporating 225Ac.
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