Cellular uptake and in vitro antitumor efficacy of composite liposomes for neutron capture therapy

Peters, Tanja; Grunewald, Catrin; Blaickner, Matthias; Ziegner, Markus; Schütz, Christian; Iffland, Dorothée S.; Hampel, G.; Nawroth, Thomas; Langguth, Peter

doi:10.1186/s13014-015-0342-7

Cited by 27 publications

(28 citation statements)

References 30 publications

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“…Although in the present work the endocytic mechanisms were not investigated, we speculate that the difference in the extent of internalisation between the free prodrug and the pH-sensitive liposomes could rely on the involvement of distinct uptake modalities and/or kinetics of intracellular processing. There is compelling evidence showing that liposome/nanoparticle uptake is influenced by a multitude of parameters, including nanocarrier size 52,54 , surface charge 55,56 and hydrophobicity 56,57 , lipid composition 58,59 , shape 53,56 and cell type 53,54 .…”

Section: Discussionmentioning

confidence: 99%

Intracellular Activation of a Prostate Specific Antigen-Cleavable Doxorubicin Prodrug: A Key Feature Toward Prodrug-Nanomedicine Design

et al. 2019

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was in phase I clinical trials for patients with metastatic castration-resistant prostate cancer (mCRPC). It consists of doxorubicin (Dox) conjugated to a prostate specific antigen (PSA)-cleavable peptide that can be selectively activated by secreted PSA at the tumor site. However, despite the initial promising results, further clinical testing with Dox-PSA was halted due to toxicity concerns emerging from non-PSA-specific cleavage, following systemic administration.In the present study, we have reported, for the first time, the intracellular activation of Dox-PSA, where Dox nuclear uptake was specific to C4-2B (PSA-expressing) cells, which agreed with the cytotoxicity studies. This finding was confirmed by encapsulating Dox-PSA prodrug into pH-sensitive liposomes to enable prodrug intracellular release, followed by its enzymatic activation. Interestingly, our results demonstrated that Dox-PSA loaded into pH-responsive nanoparticles exhibited cytotoxicity comparable to free prodrug in C4-2B monolayers, with superior activity in tumor spheroids, due to deeper penetration within tumor spheroids. Our approach could open the doors for novel Dox-PSA nanomedicines with higher safety and efficacy to treat advanced and metastatic prostate cancer.

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Section: Discussionmentioning

confidence: 99%

Intracellular Activation of a Prostate Specific Antigen-Cleavable Doxorubicin Prodrug: A Key Feature Toward Prodrug-Nanomedicine Design

et al. 2019

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“…Gadolinium oxide (Gd 2 O 3 ) nanoparticles (GNPs) are extremely useful for biomedical applications because they possess various excellent physical properties applicable to cancer theragnosis . These applications include positive (T 1 ) magnetic resonance imaging (T 1 MRI), computed tomography (CT) scan, and gadolinium neutron capture therapy (GdNCT) of cancers . For biomedical applications, coating of the GNP surfaces with hydrophilic and biocompatible ligands is essential.…”

Section: Introductionmentioning

confidence: 99%

Synthesis, Characterization, and Enhanced Cancer‐Imaging Application of Trans‐activator of Transcription Peptide‐conjugated Ultrasmall Gadolinium Oxide Nanoparticles

Ahmad

Cha

et al. 2018

Bulletin Korean Chem Soc

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We prepared gadolinium oxide (Gd2O3) nanoparticles (GNPs) coated with a trans‐activator of transcription (TAT) peptide with cell‐penetrating ability (i.e., TAT‐GNPs) through one‐pot process. We characterized the particle diameter, surface‐coating structure, water proton relaxivities, and in vitro cellular toxicities of the TAT‐GNPs. We measured in vivo T1 magnetic resonance images (MRI) in a model nude mouse with liver cancer prior and posterior to intravenous administration. The average particle diameter of the GNPs was 1.5 nm. The sample solution exhibited a longitudinal water proton relaxivity (r1) of 18.2/s/mM (r2/r1 = 1.6, r2 = transverse water proton relaxivity), which is four to five times higher than those of commercial Gd‐chelates. The in vivo T1 MRI exhibited positively (or T1) enhanced contrasts in the mouse liver cancer after intravenous administration, demonstrating that the TAT‐GNPs acted as an enhanced cancer‐imaging agent similar to the cancer‐targeting agent in T1 MRI.

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“…However, successful BNCT requires selective targeting and delivery of adequate 10 B to all tumor cells (∼ 20 μg/g weight or ∼10 9 atoms/cell). Previous studies confirmed 10 B uptake by proliferative cells targeted for killing with thermal neutrons [4–6]. …”

Section: Introductionmentioning

confidence: 61%

Targeting glioma stem cells enhances anti-tumor effect of boron neutron capture therapy

Sun

Huang

et al. 2016

Oncotarget

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The uptake of (10)boron by tumor cells plays an important role for cell damage in boron neutron capture therapy (BNCT). CD133 is frequently expressed in the membrane of glioma stem cells (GSCs), resistant to radiotherapy and chemotherapy, and represents a potential therapeutic target. To increase (10)boron uptake in GSCs, we created a polyamido amine dendrimer, conjugated CD133 monoclonal antibodies, encapsulating mercaptoundecahydrododecaborate (BSH) in void spaces, and monitored the uptake of the bioconjugate nanoparticles by GSCs in vitro and in vivo. Fluorescence microscopy showed the specific uptake of the bioconjugate nanoparticles by CD133-positive GSCs. Treatment with the biconjugate nanoparticles resulted in a significant lethal effect after neutron radiation due to efficient and CD133-independent cellular targeting and uptake in CD133-expressing GSCs. A significantly longer survival occurred in combination with the biconjugate nanoparticles and BSH compared with BSH alone in human intracranial GBM models employing CD133-positive GSCs xenografts. Our data demonstrated that this bioconjugate nanoparticle targets human CD133-positive GSCs and is a potential boron agent in BNCT.

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Cellular uptake and in vitro antitumor efficacy of composite liposomes for neutron capture therapy

Cited by 27 publications

References 30 publications

Intracellular Activation of a Prostate Specific Antigen-Cleavable Doxorubicin Prodrug: A Key Feature Toward Prodrug-Nanomedicine Design

Intracellular Activation of a Prostate Specific Antigen-Cleavable Doxorubicin Prodrug: A Key Feature Toward Prodrug-Nanomedicine Design

Synthesis, Characterization, and Enhanced Cancer‐Imaging Application of Trans‐activator of Transcription Peptide‐conjugated Ultrasmall Gadolinium Oxide Nanoparticles

Targeting glioma stem cells enhances anti-tumor effect of boron neutron capture therapy

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