Radiobioconjugate Targeted Therapy in Cancer, using Radiolabeled Mediated Biological Analogs

Garg, Pankaj

doi:10.4103/bbrj.bbrj_282_21

Biomedical and Biotechnology Research Journal (BBRJ)

2022

DOI: 10.4103/bbrj.bbrj_282_21

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Radiobioconjugate Targeted Therapy in Cancer, using Radiolabeled Mediated Biological Analogs

Pankaj Garg

Abstract: Radiobioconjugate therapy, recommended as one of the effective modalities for the treatment of cancer cells, is based on the concept of delivering the localized radiation at the cellular level to the disease site using a biological moiety. The high tumor/nontumor ratio is the essentially a sine qua non for the successful execution of targeted therapy which is highly desired. The central problem associated to radiobioconjugate therapy is the small fraction of a radiobioconjugate localized to the tumor, while th… Show more

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2022

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Cited by 2 publications

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Pretargeting Articulation for Improving the Deliverance of Injected Dose to the Tumor

Garg

2022

Biomedical and Biotechnology Research Journal (BBRJ)

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Background: Radiobioconjugate targeting using monoclonal antibodies linked to a high-energy radionuclide is a promising approach for treating metastatic cancer. The central problem of radiobioconjugate targeting is the small fraction of radiobioconjugate localized in the tumor. Pretargeting based on avidin–biotin approach has been recommended to maximize tumor targeting. The current study was conceded with an aim to assess a selective targeting strategy for the site-specific deliverance of an injected radioactive dose to the tumor cells. Methods: Two labeling protocols were tested and evaluated, both for the direct and indirect radiolabeling of antibodies with radionuclide technetium. A comparative evaluation of biodistribution studies relating to the deposition of injected dose in different organs was carried out in tumor-bearing nude mice both for a direct single-step and indirect multistep pretargeting approach. Results: High concentration of the injected dose was accounted in the nontarget organs and blood for a direct targeting mode, as compared to indirect multistep pretargeting with high tumor uptake. Better tumor visibility and high tumor/nontumor ratio were observed at 24 h and 48 h. However, a considerable deposition of radioactivity in the organs such as liver, spleen, kidney, and lungs as a nonspecific, reticuloendothelial system uptake was observed as a cause of concern and the use of certain blocking agents were explored, effective for reducing the same. Conclusions: The study demonstrates a successful targeting efficiency of the radiolabeled bioconjugate for technetium (Tc-99m), through a multistep pretargeting approach, and the same can be applied for other related therapy radionuclides also.

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Pretargeting Articulation for Improving the Deliverance of Injected Dose to the Tumor

Garg

2022

Biomedical and Biotechnology Research Journal (BBRJ)

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In silico Study of shape complementarity, binding affinity, and protein–ligand interactions of systematic evolution of ligands by exponential enrichment-aptamer to programmed death ligand-1 using patchdock

Ching,

Nazri,

Rachman

et al. 2022

Journal of Preventive, Diagnostic and Treatment Strategies in Medicine

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BACKGROUND: Nucleic acid aptamers hold great promise in diagnostic and therapeutic applications for a wide range of diseases due to their analog feature to antibodies. Despite the utility of systematic evolution of ligands by exponential enrichment (SELEX) method for aptamer determination, complementarity in silico aptamer design is highly sought after to facilitate virtual screening and increased understanding of important aptamer–protein interactions. MATERIALS AND METHODS: We previously obtained aptamers against programmed death ligand-1 (PD-L1) through SELEX: P12, P32, and P33. In the present work, structure prediction and binding mode of these aptamers to PD-L1 were evaluated using mFold and DNA sequence to structure (IIT Delhi) for two-dimensional and three-dimensional structure prediction, respectively, and PatchDock for docking. PD-L1 model protein 5N2F was used as the target protein. Docking was performed and analyzed based on three aspects: shape complementarity score, binding affinity, and interactions with aptamer. RESULTS: All three aptamers combine steadily with 5N2F protein through strong hydrogen (polar bonds), hydrophobic interactions (nonpolar bonds), and π-cation interactions, which can be accessed through a fully automated protein–ligand interaction profiler. CONCLUSIONS: Molecular docking experiments indicated the feasibility of using in silico technique to select aptamers that can function as antibodies analog.

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Radiobioconjugate Targeted Therapy in Cancer, using Radiolabeled Mediated Biological Analogs

Cited by 2 publications

References 68 publications

Pretargeting Articulation for Improving the Deliverance of Injected Dose to the Tumor

Pretargeting Articulation for Improving the Deliverance of Injected Dose to the Tumor

In silico Study of shape complementarity, binding affinity, and protein–ligand interactions of systematic evolution of ligands by exponential enrichment-aptamer to programmed death ligand-1 using patchdock

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