Supramolecular Copolymer Micelles Based on the Complementary Multiple Hydrogen Bonds of Nucleobases for Drug Delivery

Wang, Dali; Su, Yue; Jin, Chengyu; Zhu, Bangshang; Pang, Yan; Zhu, Lijuan; Liu, Jinyao; Tu, Chunlai; Yan, Deyue; Zhu, Xinyuan

doi:10.1021/bm200155t

Cited by 140 publications

(107 citation statements)

References 49 publications

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“…225-300 nm) for PVBT/PVBA = 30/70, 50/50 and 70/30. In addition, multiple complementary hydrogen bonds are sensitive to the variation of environments, such as temperature and solvents, which will be discussed in our further study [52][53][54]. …”

Section: Multiple Hydrogen Bonding Interactions In Pvbt/pvba Blend Comentioning

confidence: 99%

Thymine- and Adenine-Functionalized Polystyrene Form Self-Assembled Structures through Multiple Complementary Hydrogen Bonds

Wu¹,

Wu²,

Kuo³

2014

Polymers

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Abstract:In this study, we investigated the self-assembly of two homopolymers of the same molecular weight, but containing complementary nucleobases. After employing nitroxide-mediated radical polymerization to synthesize poly(vinylbenzyl chloride), we converted the polymer into poly(vinylbenzyl azide) through a reaction with NaN 3 and then performed click chemistry with propargyl thymine and propargyl adenine to yield the homopolymers, poly(vinylbenzyl triazolylmethyl methylthymine) (PVBT) and poly(vinylbenzyl triazolylmethyl methyladenine) (PVBA), respectively. This PVBT/PVBA blend system exhibited a single glass transition temperature over the entire range of compositions, indicative of a miscible phase arising from the formation of multiple strong complementary hydrogen bonds between the thymine and adenine groups of PVBT and PVBA, respectively; Fourier transform infrared and 1 H nuclear magnetic resonance spectroscopy confirmed the presence of these noncovalent interactions. In addition, dynamic rheology, dynamic light scattering and transmission electron microscopy provided evidence for the formation of supramolecular network structures in these binary PVBT/PVBA blend systems.

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Section: Multiple Hydrogen Bonding Interactions In Pvbt/pvba Blend Comentioning

confidence: 99%

Thymine- and Adenine-Functionalized Polystyrene Form Self-Assembled Structures through Multiple Complementary Hydrogen Bonds

Wu¹,

Wu²,

Kuo³

2014

Polymers

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“…This property was employed for the encapsulation of chemicals using polymeric drug carriers, 3 as well as for the synthesis of membranes, 4 for instance. Many routes led the synthesis of amphiphilic copolymers using sequential polymerization of CROP and CRP 5 and especially CROP and RITP.…”

Section: Introductionmentioning

confidence: 99%

Well‐defined poly(oxazoline)‐b‐poly(acrylate) amphiphilic copolymers: From synthesis by polymer–polymer coupling to self‐organization in water

Guillerm

Monge

Lapinte

et al. 2012

J. Polym. Sci. A Polym. Chem.

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In this contribution, we report on the self assembly in water of original amphiphilic poly(2-methyl-2-oxazoline)-b-poly(tert-butyl acrylate) copolymers, synthesized by copper catalyzed azide-alkyne cycloaddition (CuAAC) reaction. For such purpose, polyoxazoline (poly(2-methyl-2-oxazoline)) and polyacrylate (poly(tert-butyl acrylate)) are first prepared by cationic ring-opening polymerization (CROP) and atom transfer radical polymerization (ATRP), respectively. Well-defined polymeric building blocks, ω-N 3 -P(t-BA) and -alkyne-P(MOx), bearing reactive chain end groups, are accurately characterized by MALDI-Tof spectroscopy. Then, P(MOx) n -b-P(t-BA) m are achieved by polymer-polymer coupling and are fully characterized by DOSY NMR and size exclusion chromatography, demonstrating the obtaining of pure amphiphilic copolymers. Consequently, the latter lead to the formation in water of well-defined monodisperse spherical micelles (R H = 40-60 nm) which are studied by fluorescence spectroscopy, SLS, AFM and TEM.

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“…This is consistent with observations that the triggering mechanisms for most particulate carriers occur in the endosome and release the drugs into the cytoplasm. 43 The red and green fluorescence were not overlay completely, which indicated that some DOX was successfully released inside the cells from the polymeric micelles (Fig. 7, Line 4).…”

Section: Drug Release From Micellesmentioning

confidence: 99%

Temperature and pH dual‐sensitive polyaspartamide derivatives for antitumor drug delivery

Zhang

et al. 2015

J. Polym. Sci. Part A: Polym. Chem.

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The pH-sensitive tertiary amino groups were introduced to synthesize temperature and pH dual-sensitive degradable polyaspartamide derivatives (phe/DEAE-g-PHPA) containing pendant aromatic structures and ionizable tertiary amino groups. The thermo/pH-responsive behavior of phe/ DEAE-g-PHPA polymer can be tuned by adjusting the graft copolymer composition. Due to the pH sensitivity of the phe/ DEAE-g-PHPA-g-mPEG polymer with hydrophilic long PEG chain, the micelles and the anticancer drug-loaded micelles were prepared by a quick pH-changing method without using toxic organic solvent. The obtained polymeric micelles, paclitaxel-loaded micelles and doxorubicin-loaded micelles were stable under physiological conditions. Both the drugloaded micelles showed much faster release at pH 5 than at pH 7.4. The doxorubicin-loaded micelles showed obvious and better anticancer activity against both HepG2 and HeLa cells than free doxorubicin. Thus these nontoxic, dual thermo-and pHsensitive phe/DEAE-g-PHPA-g-mPEG micelles may be a promising anticancer drug delivery system.

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Supramolecular Copolymer Micelles Based on the Complementary Multiple Hydrogen Bonds of Nucleobases for Drug Delivery

Cited by 140 publications

References 49 publications

Thymine- and Adenine-Functionalized Polystyrene Form Self-Assembled Structures through Multiple Complementary Hydrogen Bonds

Thymine- and Adenine-Functionalized Polystyrene Form Self-Assembled Structures through Multiple Complementary Hydrogen Bonds

Well‐defined poly(oxazoline)‐b‐poly(acrylate) amphiphilic copolymers: From synthesis by polymer–polymer coupling to self‐organization in water

Temperature and pH dual‐sensitive polyaspartamide derivatives for antitumor drug delivery

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