Self-Assembly of pH-Labile Polymer Nanoparticles for Paclitaxel Prodrug Delivery: Formulation, Characterization, and Evaluation

Levit, Shani L.; Gade, Narendar Reddy; Roper, Thomas D.; Tang, Christina

doi:10.3390/ijms21239292

Cited by 14 publications

(7 citation statements)

References 65 publications

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“…For instance, liposome-based paclitaxel formulations have been shown to exert lower levels of neurotoxicity in both in vitro and in vivo conditions compared to standard preparations [36]. Similarly, preparation of a hydrophobic prodrug by conjugating paclitaxel with vitamin E, as well as encapsulating the prodrug into nanoparticles, has been shown to significantly increase the anticancer efficacy of paclitaxel [37]. Taken together, these observations highlight the need for continuous upgradation in paclitaxel-based treatment strategies for better cancer management.…”

Section: Discussionmentioning

confidence: 98%

7-Epitaxol Induces Apoptosis and Autophagy in Head and Neck Squamous Cell Carcinoma through Inhibition of the ERK Pathway

Velmurugan

Hsieh

Mahalakshmi³

et al. 2021

Cells

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As the main derivative of paclitaxel, 7-Epitaxol is known to a have higher stability and cytotoxicity. However, the anticancer effect of 7-Epitaxol is still unclear. The purpose of this study was to explore the anticancer effects of 7-Epitaxol in squamous cell carcinoma of the head and neck (HNSCC). Our study findings revealed that 7-Epitaxol potently suppressed cell viability in SCC-9 and SCC-47 cells by inducing cell cycle arrest. Flow cytometry and DAPI staining demonstrated that 7-Epitaxol treatment induced cell death, mitochondrial membrane potential and chromatin condensation in OSCC cell lines. The compound regulated the proteins of extrinsic and intrinsic pathways at the highest concentration, and also increased the activation of caspases 3, 8, 9, and PARP in OSCC cell lines. Interestingly, a 7-Epitaxol-mediated induction of LC3-I/II expression and suppression of p62 expression were observed in OSCC cells lines. Furthermore, the MAPK inhibitors indicated that 7-Epitaxol induces apoptosis and autophagy marker proteins (cleaved-PARP and LC3-I/II) by reducing the phosphorylation of ERK1/2. In conclusion, these findings indicate the involvement of 7-Epitaxol in inducing apoptosis and autophagy through ERK1/2 signaling pathway, which identify 7-Epitaxol as a potent cytotoxic agent in HNSCC.

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Section: Discussionmentioning

confidence: 98%

7-Epitaxol Induces Apoptosis and Autophagy in Head and Neck Squamous Cell Carcinoma through Inhibition of the ERK Pathway

Velmurugan

Hsieh

Mahalakshmi³

et al. 2021

Cells

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“…Achieving nanoparticles with tunable release of multiple drugs would be advantageous [ 28 , 30 , 31 ]. To tune the release rate of the drugs, various approaches have been used such as prodrug synthesis [ 128 ]. Alternatively, the different drugs can be loaded in different layers of the nanoparticles to achieve different release profiles [ 28 , 31 , 71 ].…”

Section: Discussionmentioning

confidence: 99%

Polymeric Nanoparticle Delivery of Combination Therapy with Synergistic Effects in Ovarian Cancer

Levit

Tang

2021

Nanomaterials

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Treatment of ovarian cancer is challenging due to late stage diagnosis, acquired drug resistance mechanisms, and systemic toxicity of chemotherapeutic agents. Combination chemotherapy has the potential to enhance treatment efficacy by activation of multiple downstream pathways to overcome drug resistance and reducing required dosages. Sequence of delivery and the dosing schedule can further enhance treatment efficacy. Formulation of drug combinations into nanoparticles can further enhance treatment efficacy. Due to their versatility, polymer-based nanoparticles are an especially promising tool for clinical translation of combination therapies with tunable dosing schedules. We review polymer nanoparticle (e.g., micelles, dendrimers, and lipid nanoparticles) carriers of drug combinations formulated to treat ovarian cancer. In particular, the focus on this review is combinations of platinum and taxane agents (commonly used first line treatments for ovarian cancer) combined with other small molecule therapeutic agents. In vitro and in vivo drug potency are discussed with a focus on quantifiable synergistic effects. The effect of drug sequence and dosing schedule is examined. Computational approaches as a tool to predict synergistic drug combinations and dosing schedules as a tool for future nanoparticle design are also briefly discussed.

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“…FNP requires both solvents to be fully miscible, with the polymer component insoluble in the nonsolvent added. Typically, this results in a hydrophobic polymer, such as PS, poly(isoprene) (PI), poly(butadiene) (PB), or mixtures, dissolved in an organic solvent, often tetrahydrofuran (THF), and jetted into the nonsolvent, commonly water. ,,,, THF–H 2 O solvent mixtures have been most frequently used, in conjunction with many polymeric solutes: poly(butylacrylate)- b -poly(acrylic acid) (PBA- b -PAA), , poly(ethylene oxide)- b -poly(styrene) (PEO- b -PS), ,,,,− poly(ethylene glycol)- b -poly(ϵ-caprolactone) (PEO- b -PCL), ,,,,,− poly(styrene)- b -poly(4-vinylpyridine) (PS- b -PVP), − poly(styrene)- b -poly(isoprene) (PS- b -PI), PCL, and PCL end group functionalized with coumarin, as well as poly(ethylene glycol)- b -poly(lactic acid) (PEG- b -PLA) ,,,,− ,, and poly(ethylene glycol)- b -poly(lactic- co -glycolic acid) (PEG- b -PLGA). ,,,,, Hydrophobic polymers, in combination with BCPs, can be added and comprise the NP core, e.g. , PS with PS- b -PEO ,, and poly(lactic acid) (PLA) with PEG- b -PLA …”

Section: Polymeric Np Formation By Flash Nanoprecipitation (Fnp)mentioning

confidence: 99%

“…Reports to date include the encapsulation of hydrophobic small molecules, e.g. , vitamins and vitamin precursors, ,,− ,,, fluorescent dyes, pesticides, pro-drugs, , chemotherapy drugs, ,,, and broad-spectrum antibiotics . The versatility of the approach also allows inorganic NPs to be suspended in inlet streams and incorporated into the polymeric NPs.…”

Section: Polymeric Np Formation By Flash Nanoprecipitation (Fnp)mentioning

confidence: 99%

Precision Polymer Particles by Flash Nanoprecipitation and Microfluidic Droplet Extraction

Sharratt

Lee

Priestley

et al. 2021

ACS Appl. Polym. Mater.

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We comparatively review two versatile approaches employed in the precise formation of polymer particles, with length scales from 10s of nm to to 100s μm, from ternary polymer(s), solvent and nonsolvent mixtures. Flash nanoprecipitation (FNP) utilizes an opposing jet arrangement to mix a dilute polymer solution and a nonsolvent in confinement, inducing a rapid (∼millisecond) chain collapse and eventual precipitation of nanoparticles (NPs) of 10–1000 nm diameters. FNP of polymer mixtures and block copolymers can yield a range of multiphase morphologies with various functionalities. While droplet solvent extraction (DSE) also involves the exposure of a polymer solution to a nonsolvent, in this case the polymer solution is templated into a droplet prior to solvent extraction, often using microfluidics, resulting in polymer particles of 1–1000 μm diameter. Droplet shrinkage and solvent exchange are generally accompanied by a series of processes including demixing, coarsening, phase inversion, skin formation, and kinetic arrest, which lead to a plethora of possible internal and external particle morphologies. In the absence of external flow fields, DSE corresponds effectively to nonsolvent induced phase separation (NIPS) in a spherical geometry. In this review, we discuss the requirements to implement both approaches, detailing consequences of ternary solution phase behavior and the interplay of the various processes underpinning particle formation and highlighting the similarities, differences, and complementarity of FNP and DSE. In addition to reviewing previous work in the field, we report comparative experimental results on the formation of polystyrene particles by both approaches, emphasizing the importance of solution phase behavior in process design.

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Self-Assembly of pH-Labile Polymer Nanoparticles for Paclitaxel Prodrug Delivery: Formulation, Characterization, and Evaluation

Cited by 14 publications

References 65 publications

7-Epitaxol Induces Apoptosis and Autophagy in Head and Neck Squamous Cell Carcinoma through Inhibition of the ERK Pathway

7-Epitaxol Induces Apoptosis and Autophagy in Head and Neck Squamous Cell Carcinoma through Inhibition of the ERK Pathway

Polymeric Nanoparticle Delivery of Combination Therapy with Synergistic Effects in Ovarian Cancer

Precision Polymer Particles by Flash Nanoprecipitation and Microfluidic Droplet Extraction

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