Design Considerations for Developing Hyperbranched Polyglycerol Nanoparticles as Systemic Drug Carriers

Wong, Nelson K.Y.; Misri, Ripen; Shenoi, Rajesh A.; Chafeeva, Irina; Kizhakkedathu, Jayachandran N.; Khan, Mohamed K.

doi:10.1166/jbn.2016.2219

Cited by 9 publications

(19 citation statements)

References 34 publications

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“…The degrees of hydrophobicity of the unmodified HPG NPs were measured and reported before with pyrene fluorescence probe method. 16 The orders of hydrophobicity of unmodified and Alexa 488-conjugated HPG NPs remain the same. The results of these complementary methods revealed that the conjugation of the Alexa dye did not influence the order of hydrophobicity of the HPG NPs.…”

Section: ■ Results and Discussionmentioning

confidence: 95%

“…The syntheses and physicochemical characterization of these HPG NPs were reported previously. 16 HPG-C 10 -HPG is a nanoparticle that contains a hydrophobic core of C10 alkyl chains with a hydrophilic HPG shell. HPG-C 10 -PEG is similar to HPG-C 10 -HPG, except that the polyethylene glycol (PEG) shell was grafted onto the surface of the nanoparticle.…”

Section: ■ Experimental Sectionmentioning

confidence: 99%

“…Moreover, we have recently reported the delivery of docetaxel using two of these HPG NPs and found that these formulations widen the therapeutic index of the drug at the cellular level, and we hypothesized that the HPG NP:drug complex interacts with cancer and normal cells differently. 14,16 To investigate how the chemical composition of HPG NPs affects cellular interaction, we labeled three HPG NP variants with Alexa 488 and followed their interaction with cancer and normal cells. In this study, we found that cancer and normal cells utilize different endocytic mechanisms to internalize these nanoparticles.…”

Section: ■ Introductionmentioning

confidence: 99%

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Nontransformed and Cancer Cells Can Utilize Different Endocytic Pathways To Internalize Dendritic Nanoparticle Variants: Implications on Nanocarrier Design

et al. 2017

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Three hyperbranched polyglycerol nanoparticle (HPG NP) variants were synthesized and fluorescently labeled for the study of their cellular interactions. The polymeric nanoparticle that contains a hydrophobic core and a hydrophilic HPG shell, HPG-C-HPG, is taken up faster by HT-29 cancer cells than nontransformed cells, while similar uptake rates are observed with both cell types for the nanoparticle HPG-C-PEG that contains a hydrophobic core and a polyethylene glycol shell. The nanoparticle HPG-104, containing neither the hydrophobic core nor the polyethylene glycol shell, is taken up faster by nontransformed cells than HT-29 cells. Importantly, cancer and normal cells can utilize different endocytic mechanisms for the internalization of these HPG NPs. Both HPG-C-HPG and HPG-C-PEG are taken up by HT-29 cells through clathrin-mediated endocytosis and macropinocytosis. Nontransformed cells, however, take up HPG-C-HPG and HPG-104 through macropinocytosis, while these cells utilize both clathrin-mediated endocytosis and macropinocytosis to internalize HPG-C-PEG.

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Section: ■ Results and Discussionmentioning

confidence: 95%

Section: ■ Experimental Sectionmentioning

confidence: 99%

Section: ■ Introductionmentioning

confidence: 99%

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Nontransformed and Cancer Cells Can Utilize Different Endocytic Pathways To Internalize Dendritic Nanoparticle Variants: Implications on Nanocarrier Design

et al. 2017

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“…HPG ( M n = 6659, M w / M n = 1.3) was prepared in our laboratory, according to the literature. 34 , 35 The hyperbranched polyglycerols were synthesized by anionic ring-opening polymerization, and the monomers in the reactions should be added very slowly to ensure low polydispersity.…”

Section: Methodsmentioning

confidence: 99%

Thermal Conductivity and Stability of Hydrocarbon-Based Nanofluids with Palladium Nanoparticles Dispersed by Modified Hyperbranched Polyglycerol

et al. 2020

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Palladium nanoparticles, which were prepared by modified hyperbranched polyglycerol (mHPG) as stabilizers, can be dispersed well in nonpolar organic solvents and form highly stable nanofluids. The influences of three mHPG products modified with cyclohexanethiol (CSHPG), dodecanethiol (DSHPG), and octadecanethiol (OSHPG) on the preparation and stability of the palladium nanoparticles were investigated. The stability and thermal conductivity enhancement of the hydrocarbon-based nanofluids with Pd@mHPG (Pd@CSHPG, Pd@DSHPG, and Pd@OSHPG) compared to the corresponding base fluid were investigated at different temperatures. The average diameters of nanoparticles stabilized by CSHPG, DSHPG, and OSHPG are within 2.7−3.6 nm. The palladium nanoparticles could be dispersed well in the nonpolar base fluid such as decalin. The nanofluids with Pd@DSHPG and Pd@OSHPG could remain stable for up to 330 days at room temperature. The nanofluid with Pd@DSHPG or Pd@OSHPG could be stable for more than 24 h at 110 °C. The thermal conductivity of the nanofluids improved with increasing temperature and the mass fraction of nanoparticles compared to the corresponding base fluid. The long alkyl chain-modified HPG can give better protection for nanoparticles from agglomeration and assist metal nanoparticles in enhancing the thermal conductivity of nanofluids.

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“…Among such highly branched macromolecules, hyperbranched polyglycerol (HbPG) with average diameter in the few nanometer range (~2-20 nm) and with both chain end and pendant hydroxyl functionalities offers a variety of new derivatization processes to obtain materials with advantageous application possibilities, ranging from biomedicine to nanotechnologies and large scale commodities as well [9][10][11][12][13][14][15][16][17][18]. HbPG is a polyether polyol, which has favorable properties, namely low cytotoxicity, biocompatibility, water solubility and low viscosity [19][20][21].…”

Section: Introductionmentioning

confidence: 99%

Hyperbranched polyglycerol nanoparticles based multifunctional, nonmigrating hindered phenolic macromolecular antioxidants: Synthesis, characterization and its stabilization effect on poly(vinyl chloride)

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et al. 2017

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Design Considerations for Developing Hyperbranched Polyglycerol Nanoparticles as Systemic Drug Carriers

Cited by 9 publications

References 34 publications

Nontransformed and Cancer Cells Can Utilize Different Endocytic Pathways To Internalize Dendritic Nanoparticle Variants: Implications on Nanocarrier Design

Nontransformed and Cancer Cells Can Utilize Different Endocytic Pathways To Internalize Dendritic Nanoparticle Variants: Implications on Nanocarrier Design

Thermal Conductivity and Stability of Hydrocarbon-Based Nanofluids with Palladium Nanoparticles Dispersed by Modified Hyperbranched Polyglycerol

Hyperbranched polyglycerol nanoparticles based multifunctional, nonmigrating hindered phenolic macromolecular antioxidants: Synthesis, characterization and its stabilization effect on poly(vinyl chloride)

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