TY - JOUR
T1 - Recent advances in bioorthogonal click chemistry for efficient synthesis of radiotracers and radiopharmaceuticals
AU - Mushtaq, Sajid
AU - Yun, Seong Jae
AU - Jeon, Jongho
N1 - Publisher Copyright:
© 2019 by the authors.
PY - 2019/10/2
Y1 - 2019/10/2
N2 - In recent years, several catalyst-free site-specific reactions have been investigated for the efficient conjugation of biomolecules, nanomaterials, and living cells. Representative functional group pairs for these reactions include the following: (1) azide and cyclooctyne for strain-promoted cycloaddition reaction, (2) tetrazine and trans-alkene for inverse-electron-demand-Diels-Alder reaction, and (3) electrophilic heterocycles and cysteine for rapid condensation/addition reaction. Due to their excellent specificities and high reaction rates, these conjugation methods have been utilized for the labeling of radioisotopes (e.g., radiohalogens, radiometals) to various target molecules. The radiolabeled products prepared by these methods have been applied to preclinical research, such as in vivo molecular imaging, pharmacokinetic studies, and radiation therapy of cancer cells. In this review, we explain the basics of these chemical reactions and introduce their recent applications in the field of radiopharmacy and chemical biology. In addition, we discuss the significance, current challenges, and prospects of using bioorthogonal conjugation reactions.
AB - In recent years, several catalyst-free site-specific reactions have been investigated for the efficient conjugation of biomolecules, nanomaterials, and living cells. Representative functional group pairs for these reactions include the following: (1) azide and cyclooctyne for strain-promoted cycloaddition reaction, (2) tetrazine and trans-alkene for inverse-electron-demand-Diels-Alder reaction, and (3) electrophilic heterocycles and cysteine for rapid condensation/addition reaction. Due to their excellent specificities and high reaction rates, these conjugation methods have been utilized for the labeling of radioisotopes (e.g., radiohalogens, radiometals) to various target molecules. The radiolabeled products prepared by these methods have been applied to preclinical research, such as in vivo molecular imaging, pharmacokinetic studies, and radiation therapy of cancer cells. In this review, we explain the basics of these chemical reactions and introduce their recent applications in the field of radiopharmacy and chemical biology. In addition, we discuss the significance, current challenges, and prospects of using bioorthogonal conjugation reactions.
KW - Bioorthogonal reaction
KW - Click chemistry
KW - Molecular imaging
KW - Radioisotopes
KW - Radiolabeling
KW - Radiopharmaceuticals
KW - Site-specific reaction
UR - http://www.scopus.com/inward/record.url?scp=85072913406&partnerID=8YFLogxK
U2 - 10.3390/molecules24193567
DO - 10.3390/molecules24193567
M3 - Review article
C2 - 31581645
AN - SCOPUS:85072913406
SN - 1420-3049
VL - 24
JO - Molecules
JF - Molecules
IS - 19
M1 - 3567
ER -