Fluorescent, Plasmonic, and Radiotherapeutic Properties of the <sup>177</sup>Lu–Dendrimer-AuNP–Folate–Bombesin Nanoprobe Located Inside Cancer Cells

Mendoza-Nava, Héctor; Ferro-Flores, Guillermina; Ramı́rez, Flor de Marı́a; Ocampo‐García, Blanca; Santos-Cuevas, Clara; Azorín-Vega, Erika; Jiménez-Mancilla, Nallely; Luna-Gutiérrez, Myrna; Isaac‐Olivé, Keila

doi:10.1177/1536012117704768

Cited by 44 publications

(34 citation statements)

References 30 publications

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“…The entrapped AuNPs provided photophysical properties to the whole nanoconjugate suitable for optical imaging. The final nanoconjugate was labeled with 177 Lu, seeking for multimodal platforms suitable for breast cancer cell targeting [128,129]. The radiolabeled nanoconjugate showed specific uptake in breast cancer T47D cells and provided suitable optical images.…”

Section: Lutetium-177mentioning

confidence: 99%

Radiolabeled Gold Nanoparticles for Imaging and Therapy of Cancer

2020

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In the Last decades, nanotechnology has provided novel and alternative methodologies and tools in the field of medical oncology, in order to tackle the issues regarding the control and treatment of cancer in modern society. In particular, the use of gold nanoparticles (AuNPs) in radiopharmaceutical development has provided various nanometric platforms for the delivery of medically relevant radioisotopes for SPECT/PET diagnosis and/or radionuclide therapy. In this review, we intend to provide insight on the methodologies used to obtain and characterize radiolabeled AuNPs while reporting relevant examples of AuNPs developed during the last decade for applications in nuclear imaging and/or radionuclide therapy, and highlighting the most significant preclinical studies and results.

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Section: Lutetium-177mentioning

confidence: 99%

Radiolabeled Gold Nanoparticles for Imaging and Therapy of Cancer

2020

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“…Preliminary in vitro studies in T47D breast cancer cells showed a specific cell uptake (41.15% ± 2.72%), which can be potentially used for targeted RT of breast tumors overexpressing GRPR and FAR. In another work, the same authors attempted to combine fluorescence imaging capability and plasmonic‐photothermal property owing to the entrapment of Au NPs within the dendritic cavity with radiotherapeutic potential. After the 177 Lu‐labeled dendrimeric nanodevices were internalized into T47D breast cancer cells, the intense near‐Infrared (NIR) fluorescence emitted at 825 nm from the conjugate inside cells corroborated the usefulness of DenAuNP–folate–bombesin for optical imaging.…”

Section: Radiolabeled Dendrimer‐based Nanodevices For Rt and Theranosmentioning

confidence: 99%

PAMAM Dendrimer‐Based Nanodevices for Nuclear Medicine Applications

Xiao

Shi

et al. 2019

Macromolecular Bioscience

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Nuclear medicine, involving nuclear medicine imaging and radiotherapy (RT), has become a mainstay of theranostics in the field of nanomedicine and several examples have been successfully translated into clinical practice. The combination of radionuclides with dendrimers has long been investigated in nuclear imaging, such as positron emission tomography (PET) and single‐photon emission computed tomography (SPECT), providing functional information for whole body quantitative analysis with high sensitivity due to the unique structural advantages of the dendrimer platform. Besides, radioisotopes with both therapeutic and imaging functionalities can also be combined with dendrimer platforms for theranostic applications. In this review, the recent advances in the development of radionuclide‐labeled poly(amidoamine) dendrimer‐based nanodevices for targeted PET, SPECT, SPECT/computed tomography, SPECT/magnetic resonance imaging of tumors, RT, as well as for SPECT‐imaging‐guided RT of cancer are summarized. Current restrictions hindering the clinical translation of dendrimer‐based nuclear nanodevices and future prospects are also discussed.

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“…Bombesin and folic acid were covalently conjugated onto the dendrimers via their carboxylate groups, and were consequently radiolabeled with 177 Lu, via the chelator S-2-[4-Isothiocyanatobenzyl]-1,4,7,10-tetraazacyclododecane tetraacetic acid (p-SCN-benzyl-DOTA). Results of T47D tumor cells treated with this complex showed an outstanding decrease in cell viability up to 90% [103]. A combo treatment of breast and pancreatic cancer was devised, consisting of two separate systems; an anticancer agent called cyclopamine (CPA) combined with liquid-lipid nanoparticles (LLP) and radiolabeled 177 Lu into lipid-calcium-phosphate (LCP) nanoparticles and studied the effect of increased radioisotope on the properties of the nanosystem.…”

Section: Lutetium-177mentioning

confidence: 99%

Radiolabeled Nanoparticles in Nuclear Oncology

2018

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A B S T R A C TDuring recent years, a plethora of pioneering radiolabeled nanoparticles have grown to be an integral part of nuclear medicine as theranostic tools. Herein, we focus on the most representative examples of nanoparticles of the past decade, which have been investigated in conjunction with radioisotopes aiming to serve as drug delivery or imaging agents. The present review highlights the key attributes of each nanosystem and the following classification of radiolabeled nanovehicles is based on increasing mass number (A) of radioisotopic elements.

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Fluorescent, Plasmonic, and Radiotherapeutic Properties of the ¹⁷⁷Lu–Dendrimer-AuNP–Folate–Bombesin Nanoprobe Located Inside Cancer Cells

Cited by 44 publications

References 30 publications

Radiolabeled Gold Nanoparticles for Imaging and Therapy of Cancer

Radiolabeled Gold Nanoparticles for Imaging and Therapy of Cancer

PAMAM Dendrimer‐Based Nanodevices for Nuclear Medicine Applications

Radiolabeled Nanoparticles in Nuclear Oncology

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Fluorescent, Plasmonic, and Radiotherapeutic Properties of the 177Lu–Dendrimer-AuNP–Folate–Bombesin Nanoprobe Located Inside Cancer Cells

Cited by 44 publications

References 30 publications

Radiolabeled Gold Nanoparticles for Imaging and Therapy of Cancer

Radiolabeled Gold Nanoparticles for Imaging and Therapy of Cancer

PAMAM Dendrimer‐Based Nanodevices for Nuclear Medicine Applications

Radiolabeled Nanoparticles in Nuclear Oncology

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Fluorescent, Plasmonic, and Radiotherapeutic Properties of the ¹⁷⁷Lu–Dendrimer-AuNP–Folate–Bombesin Nanoprobe Located Inside Cancer Cells