Design of a New 99m Tc-radiolabeled Cyclo-peptide as Promising Molecular Imaging Agent of CXCR 4 Receptor: Molecular Docking, Synthesis, Radiolabeling, and Biological Evaluation

Design of a New 99m Tc-radiolabeled Cyclo-peptide as Promising Molecular Imaging Agent of CXCR 4 Receptor: Molecular Docking, Synthesis, Radiolabeling, and Biological Evaluation

C-X-C Chemokine receptor type 4 (CXCR4) is often overexpressed or overactivated in different types and stages of cancer disease. Therefore, it is considered a promising target for imaging and early detection of primary tumors and metastasis. In the present research, a new cyclo-peptide radiolabelled...

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Bibliographic Details
Published in:Current radiopharmaceuticals Vol. 17; no. 1; p. 77
Main Authors: Hassanzadeh, Leila, Erfani, Mostafa, Jokar, Safura, Shariatpanahi, Marjan
Format: Journal Article
Language:English
Published: United Arab Emirates 2024
Subjects:
Animals
Cell Line, Tumor
Drug Design
Humans
Mice
Molecular Docking Simulation
Molecular Imaging - methods
Organotechnetium Compounds - chemical synthesis
Organotechnetium Compounds - chemistry
Organotechnetium Compounds - pharmacokinetics
Peptides, Cyclic - chemical synthesis
Peptides, Cyclic - chemistry
Peptides, Cyclic - pharmacokinetics
Radiopharmaceuticals - chemical synthesis
Radiopharmaceuticals - chemistry
Radiopharmaceuticals - pharmacokinetics
Receptors, CXCR4 - metabolism
Technetium - chemistry
Tissue Distribution
Tomography, Emission-Computed, Single-Photon
C-X-C chemokine
AMD3100
HYNIC
Technetium 99m
SPECT imaging
cancer
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Summary:C-X-C Chemokine receptor type 4 (CXCR4) is often overexpressed or overactivated in different types and stages of cancer disease. Therefore, it is considered a promising target for imaging and early detection of primary tumors and metastasis. In the present research, a new cyclo-peptide radiolabelled with Tc, Tc-Cyclo [D-Phe-D-Tyr-Lys (HYNIC)- D-Arg-2-Nal-Gly-Lys(iPr)], was designed based on the parental LY251029 peptide, as a potential imaging agent of CXCR4-expressing tumors. The radioligand was successfully prepared using the method of Fmoc solid-phase peptide synthesis and was evaluated in biological assessment. Molecular docking findings revealed high affinity (binding energy of -9.7 kcal/mol) and effective interaction of Cyclo [D-Phe- D-Tyr-Lys (HYNIC)-D-Arg-2-Nal-Gly-Lys(iPr)] in the binding pocket of CXCR4 receptor (PDB code: 3OE0) as well. The synthesized peptide and its purity were assessed by both reversed-phase high-performance liquid chromatography (RP-HPLC) and mass spectroscopy. High stability (95%, n = 3) in human serum and favorable affinity (Kd = 28.70 ± 13.56 nM and Bmax = 1.896 ± 0.123 fmol/mg protein) in the B16-F10 cell line resulted. Biodistribution evaluation findings and planar image interpretation of mice both showed high affinity and selectivity of the radiotracer to the CXCR4 receptors. Therefore, the findings indicate this designed radioligand could be used as a potential SPECT imaging agent in highly proliferated CXCR4 receptor tumors.
ISSN:1874-4729