Liposomal formulations of poorly soluble camptothecin: drug retention and biodistribution

Flaten, Gøril Eide; Chang, Ting Tung; Phillips, William T.; Brandl, Martin; Bao, Ande; Goins, Beth

doi:10.3109/08982104.2012.742537

Cited by 30 publications

(15 citation statements)

References 71 publications

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“…It is well established that the size distribution of nanoparticles is a major determinant of their biodistribution and serum stability as well as antitumor activities . Herein, we firstly assessed the size distribution of our liposome after successful fabrication, the results of which are shown in Figure A and Table .…”

Section: Resultsmentioning

confidence: 99%

Controlled and Targeted Drug Delivery by a UV‐responsive Liposome for Overcoming Chemo‐resistance in Non‐Hodgkin Lymphoma

Guo

et al. 2015

Chem Biol Drug Des

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Although chemotherapy plays a vital role in treating non-Hodgkin lymphomas, the clinical applications are limited because of intolerable side-effects and multidrug resistance at the beginning or during the course of therapy. In this study, we successfully fabricated a CD20-targeting immuno-liposome based on 1,2-bis(10,12-tricosadiynoyl)-sn-glycero-3-phosphocholine (DC-8,9PC), which can form intermolecular cross-linking through the diacetylenic group by ultraviolet irradiation. This immuno-liposome showed appropriate size distribution, well-defined regular spherical structure, favorable biocompatibility, high serum stability, and prolonged circulation time in blood vessels. The in and ex vivo experiments demonstrate enhanced tumor suppression abilities against both wild-type and resistant non-Hodgkin lymphomas for liposomal doxorubicin when compared with free drugs. The outstanding antitumor activities are attributed to the accumulation and retention of liposomal drugs in malignant tissues and cells, which are realized by the co-operation of active targeting via antibody-antigen reaction and passive targeting via enhanced permeability and retention effect.

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Section: Resultsmentioning

confidence: 99%

Controlled and Targeted Drug Delivery by a UV‐responsive Liposome for Overcoming Chemo‐resistance in Non‐Hodgkin Lymphoma

Guo

et al. 2015

Chem Biol Drug Des

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“…Liposomes, artificially spherical vesicles prepared from naturally derived phospholipids, are widely known as the versatile biomedical materials of choice for the successful delivery of poorly water‐soluble anticancer drugs (PWSADs) 1–5 . Comprising at least one lipid bilayer enclosed aqueous core, liposomes have several advantages for delivery of PWSADs, such as enhancing drug solubility, serving as a sustained release system, reducing the toxic effect of drugs and providing protection against drug degradation 6–8 .…”

Section: Introductionmentioning

confidence: 99%

Methoxy polyethylene glycol–cholesterol modified soy lecithin liposomes for poorlywater‐solubleanticancer drug delivery

Nguyen

et al. 2020

J of Applied Polymer Sci

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Soy lecithin liposomes (SLP) were prepared and partially surface modified with methoxy polyethylene glycol‐cholesterol conjugate (mPEG‐Chol) to improve its poorly‐soluble‐water‐anticancer‐drugs delivery efficiency. Paclitaxel (PTX) was used as the model drug and the PTX/SLP@mPEG was successfully developed with the optimal mass ratio of mPEG‐Chol determined at 4% in the SLP@mPEG formulation. The optimal SLP@mPEG formulation had a particle size range of 161.80 ± 1.51 nm and a negative surface charge of −54.30 ± 1.40 mV. Besides, a sustained drug release profile of 72 h and an encapsulation efficiency of 87.48 ± 0.70% was recorded. Moreover, in vitro cytotoxicity assays demonstrated that SLP@mPEG is nontoxic and cytocompatible. Overall, these obtained results provide insights into the potential of SLP@mPEG as a platform for the development of more effective therapies against cancers.

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“…Among packaging materials for drug delivery, liposome has several advantages, for example, a similar structure to the cell membrane which grants them good biocompatibility, a large surface area, and lack of cytotoxicity 21, etc. Several studies have demonstrated that engineering of liposomes with systematically varied properties by multiple ligands, could thereby improve their in vivo functions 22, 23.…”

Section: Introductionmentioning

confidence: 99%

Enhanced cytotoxic T lymphocytes recruitment targeting tumor vasculatures by endoglin aptamer and IP-10 plasmid presenting liposome-based nanocarriers

et al. 2019

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Background : Adequate recruitment of highly active tumor antigen-specific cytotoxic T lymphocytes (CTLs) remains a major challenge in cancer immunotherapy. Objective : To construct liposome (LP)-based nanocapsules with surface endoglin aptamer (ENG-Apt) encapsulating mouse interferon-inducible protein-10 (mIP-10), with the ability to target mouse tumor vascular endothelial cells (mTECs) and enhance CTLs targeting and recruitment to the tumor vasculature. Methods : ENG-Apt/mIP-10-LP nanocapsules were prepared by grafting DSPE-PEG 2000 -ENG-Apt on the surface of liposomes containing mIP-10 plasmids, characterized and assessed for the cell binding specificity in vitro . The tumor-targeting ability of ENG-Apt/mIP-10-LP nanocapsules was evaluated in vivo . The anti-tumor efficacy of ENG-Apt/mIP-10-LP nanocapsules treatment, as well as the combination treatment of ENG-Apt/mIP-10-LP nanocapsules and adoptive TRP2CD8 + T cells, were both tested in melanoma-bearing mice, by evaluation of the tumor volume and the mouse survival time. To discuss the anti-tumoral mechanism of ENG-Apt/mIP-10-LP nanocapsules-based therapies, IFN-γ secretion, proportion of TRP2CD8 + T cells among TILs, MDSCs in the tumor microenvironment and Tregs in the spleen, were determined after the treatments. Proliferation and apoptosis of tumor cells, and tumor angiogenesis were also assessed. Results : The prepared ENG-Apt/mIP-10-LP nanocapsules possess an adequate nanometric size, good stability, high specificity to mTECs and tumor sites, along with the ability to induce mIP-10 expression in vitro and in vivo . Treatment of ENG-Apt/mIP-10-LP nanocapsules demonstrated CTLs enrichment into the tumor site, which inhibited tumor cell proliferation and angiogenesis, as well as promoted tumor-cell apoptosis, leading to a decrease in tumor progression and prolonged survival time in melanoma tumor-bearing mice. In addition, the proportion of MDSCs and Tregs was found to decrease. The combination of ENG-Apt/mIP-10-LP nanocapsules with adoptive TRP2CD8 + T cells, showed stronger abilities in inhibiting tumor growth and increasing animal survival time, thereby displayed an enhanced anti-melanoma tumor efficacy, due to the recruitment of both endogenous CD8 + T cells and exogenous TRP2CD8 + T cells in vivo . Conclusion : ENG-Apt/mIP-10-LP nanocapsules could enhance the recruitment of both endogenous and exogenous CTLs specifically targeting melanoma tumor vasculatures and exert anti-tumoral effect, therefore provides a potentially novel strategy for tumor immunotherapy.

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Liposomal formulations of poorly soluble camptothecin: drug retention and biodistribution

Cited by 30 publications

References 71 publications

Controlled and Targeted Drug Delivery by a UV‐responsive Liposome for Overcoming Chemo‐resistance in Non‐Hodgkin Lymphoma

Controlled and Targeted Drug Delivery by a UV‐responsive Liposome for Overcoming Chemo‐resistance in Non‐Hodgkin Lymphoma

Methoxy polyethylene glycol–cholesterol modified soy lecithin liposomes for poorlywater‐solubleanticancer drug delivery

Enhanced cytotoxic T lymphocytes recruitment targeting tumor vasculatures by endoglin aptamer and IP-10 plasmid presenting liposome-based nanocarriers

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