TY - JOUR
T1 - Synthesis, radiolabeling, and preliminary in vivo evaluation of [68ga] ipcat-nota as an imaging agent for dopamine transporter
AU - Farn, Shiou Shiow
AU - Chang, Kang Wei
AU - Lin, Wan Chi
AU - Yu, Hung Man
AU - Lin, Kun Liang
AU - Tseng, Yu Chin
AU - Chang, Yu
AU - Yu, Chung Shan
AU - Lin, Wuu Jyh
N1 - Funding Information:
Authors would like to thank Cheng-Li, Chou Ph.D. for providing the LogP estimation of QSAR computer models by Discovery Studio software and the financial support of MOST (NSC 104-3111-Y-042A-065).
Publisher Copyright:
© 2021 Farn et al.
PY - 2021
Y1 - 2021
N2 - Introduction: Novel radiotracer development for imaging dopamine transporters is a subject of interest because although [99mTc]TRODAT-1, [123I]β-CIT, and [123I]FP-CIT are commercially available;99Mo/99mTc generator is in short supply and123I production is highly dependent on compact cyclotron. Therefore, we designed a novel positron emission tomography (PET) tracer based on a tropane derivative through C-2 modification to conjugate NOTA for chelating68Ga, a radioisotope derived from a68Ge/68Ga generator. Methods: IPCAT-NOTA 22 was synthesized and labeled with [68Ga]GaCl4 − at room tem-perature. Biological studies on serum stability, LogP, and in vitro autoradiography (binding assay and competitive assay) were performed. Furthermore, ex vivo autoradiography, biodis-tribution, and dynamic PET imaging studies were performed in Sprague Dawley rats. Results: [68Ga]IPCAT-NOTA 24 obtained had a radiochemical yield of ≥90% and a specific activity of 4.25 MBq/nmol. [68Ga]IPCAT-NOTA 24 of 85% radiochemical purity (RCP%) was stable at 37°C for up to 60 minutes in serum with a lipophilicity of 0.88. The specific binding ratio (SBR%) reached 15.8 ± 6.7 at 60 minutes, and the 85% specific uptake could be blocked through co-injection at 100-and 1000-fold of the cold precursor in in vitro binding studies. Tissue regional distribution studies in rats with [68Ga]IPCAT-NOTA 24 showed striatal uptake (0.02% at 5 minutes and 0.007% at 60 minutes) with SBR% of 6%, 25%, and 62% at 5–15, 30–40, and 60–70 minutes, respectively, in NanoPET studies. The RCP% of [68Ga]IPCAT-NOTA 24 at 30 minutes in vivo remained 67.65%. Conclusion: Data described here provide new information on the design of PET probe of conjugate/pendent approach for DAT imaging. Another chelator or another direct method of intracranial injection must be used to prove the relation between [68Ga]IPCAT-NOTA 24 uptake and transporter localization.
AB - Introduction: Novel radiotracer development for imaging dopamine transporters is a subject of interest because although [99mTc]TRODAT-1, [123I]β-CIT, and [123I]FP-CIT are commercially available;99Mo/99mTc generator is in short supply and123I production is highly dependent on compact cyclotron. Therefore, we designed a novel positron emission tomography (PET) tracer based on a tropane derivative through C-2 modification to conjugate NOTA for chelating68Ga, a radioisotope derived from a68Ge/68Ga generator. Methods: IPCAT-NOTA 22 was synthesized and labeled with [68Ga]GaCl4 − at room tem-perature. Biological studies on serum stability, LogP, and in vitro autoradiography (binding assay and competitive assay) were performed. Furthermore, ex vivo autoradiography, biodis-tribution, and dynamic PET imaging studies were performed in Sprague Dawley rats. Results: [68Ga]IPCAT-NOTA 24 obtained had a radiochemical yield of ≥90% and a specific activity of 4.25 MBq/nmol. [68Ga]IPCAT-NOTA 24 of 85% radiochemical purity (RCP%) was stable at 37°C for up to 60 minutes in serum with a lipophilicity of 0.88. The specific binding ratio (SBR%) reached 15.8 ± 6.7 at 60 minutes, and the 85% specific uptake could be blocked through co-injection at 100-and 1000-fold of the cold precursor in in vitro binding studies. Tissue regional distribution studies in rats with [68Ga]IPCAT-NOTA 24 showed striatal uptake (0.02% at 5 minutes and 0.007% at 60 minutes) with SBR% of 6%, 25%, and 62% at 5–15, 30–40, and 60–70 minutes, respectively, in NanoPET studies. The RCP% of [68Ga]IPCAT-NOTA 24 at 30 minutes in vivo remained 67.65%. Conclusion: Data described here provide new information on the design of PET probe of conjugate/pendent approach for DAT imaging. Another chelator or another direct method of intracranial injection must be used to prove the relation between [68Ga]IPCAT-NOTA 24 uptake and transporter localization.
KW - Dopamine transporter
KW - Ga-68
KW - Parkinson disease
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U2 - 10.2147/DDDT.S288600
DO - 10.2147/DDDT.S288600
M3 - Article
C2 - 34168430
AN - SCOPUS:85109367047
SN - 1177-8881
VL - 15
SP - 2577
EP - 2591
JO - Drug Design, Development and Therapy
JF - Drug Design, Development and Therapy
ER -