Chen-Yang Qiao scite author profile

In order to precisely tail the endocytosis process and determine the internal location of drug carriers in cells, fluorescent tracers with high sensitivity and versatility are one of the most powerful tools. Nevertheless, conventional single fluorescent probes always suffered from the interference of background fluorescence or the lack of long-time monitoring capability, resulting in the low resolution and efficiency. To overcome this drawback, nanocarriers capable of multicolor fluorogenic and ratiometric properties became an urgently needed solution. In this contribution, starting from pentafluorophenyl ester (PFP)-and tetraphenylethene (TPE)-functionalized phenyl isocyanide (PI) monomers as well as L-hydrophilic (HP) PI monomers, a type of well-defined amphiphilic block copolymer, P(PFPPI-co-TPEPIco-HPPI)-b-HPPPI, with controlled molecular weights and tunable compositions was prepared through sequential living copolymerization with phenylethynyl Pd(II) complex as a single catalyst in one pot. Disulfide bonds were then introduced by the exchange reaction between PFP units and cystamine (Cys; a degradable cross-linker). The resultant P(CysPI-co-TPEPI-co-HPPI)-b-HPPPI copolymers showed a time-dependent disruption in the conditions mimicking the intracellular reducing environment and an aggregation-caused quenching (ACQ) optical behavior that they were emissive when single chain dispersed but became nonfluorescent if the polymer chains were aggregated. Thanks to such a unique optical phenomenon, nanocarriers capable of fluorescence ratiometric property could be constructed after incorporating another solvatochromic dye, Nile red (NR), in water. This new class of core cross-linked NR@P(CysPI-co-TPEPIco-HPPI)-b-HPPPI micelles not only exhibited excellent fluorescence ratiometric cell imaging ability but also possessed rapid cell membrane permeability due to the PEGylated single left-handed helical PPI corona and exposed the real-time disintegration of nanocarriers in front of us. Fatal and irreversible damage to cancer cells could be achieved by the high-efficiency delivery of chemotherapeutic agents. We speculate that these newly developed fluorescent integrated nanocarriers can potentially be utilized as a promising approach to cancer diagnosis and therapy.

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Synthesis of Unimolecular Micelles with Incorporated Hyperbranched Boltorn H30 Polyester modified with Hyperbranched Helical Poly(phenyl isocyanide) Chains and their Enantioselective Crystallization Performance

Zhang

Qiao

Zhang

et al. 2017

Macromol. Rapid Commun.

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Here, the fabrication of unimolecular micelles functionalized with helical polymeric chains as a chiral nucleating agent in enantioselective crystallization is reported. Starting from a fractionated hyperbranched polyester (Boltorn H30), the ring-opening polymerization of l-lactic acid (LLA) and subsequent terminal-group modification affords the alkyne-Pd(II)-anchored hyperbranched macroinitiator (H30-PLLA-Pd). By taking advantage of a Pd(II)-catalyzed living polymerization of chiral pendant modified l- or d-phenyl isocyanide (PI) monomers, well-defined chiral unimolecular micelles (H30-PLLA-PPI) grafted with radiating helical PPI coronas of one predominant screw sense are obtained. The resultant chiral materials demonstrate excellent application in the enantioselective crystallization of racemic threonine in water, and a 92% enantiomeric excess value of the residual solution is obtained. It is believed this present proof of concept and methodology are facile and powerful for preparing novel and versatile chiral materials with different topological structures, not only applicable to PPI but also to other types of polymers.

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Chen-Yang Qiao

High-Efficiency Cell-Penetrating Helical Poly(phenyl isocyanide) Chains Modified Cellular Tracer and Nanovectors with Thiol Ratiometric Fluorescence Imaging Performance

Synthesis of Unimolecular Micelles with Incorporated Hyperbranched Boltorn H30 Polyester modified with Hyperbranched Helical Poly(phenyl isocyanide) Chains and their Enantioselective Crystallization Performance

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