Xianfeng Zhou scite author profile

We describe the synthesis, properties, and application of a new fluorescent potassium chemosensor, KS2, for K+ sensing and imaging in live cells. By virtue of a strong electron-withdrawing group, 2-dicyanomethylene-3-cyano-4,5,5-trimethyl-2,5-dihydrofuran (TCF), with a triazacryptand (TAC) ligand, the new sensor can respond to K+ up to 1.6 M. This is the first highly selective intracellular sensor suitable for sensing K+ over a broad and high concentration range. Confocal fluorescence microscopy has established the utility of KS2 for live-cell K+ detection. Application of KS2 combined with other sensors will be of great benefit for investigating cellular metabolism, detecting and diagnosing diseases including cancer, and monitoring responses to therapy.

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A series of naphthalimide derivatives as intra and extracellular pH sensors

Tian

Weber

et al. 2010

Biomaterials

108

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A series of new naphthalimide derivatives were synthesized and studied. Three of the materials (SM1, SM2, and SM3) possess methacrylate(s) moieties as pH sensor monomers, enabling these compounds to be polymerized with other monomers for thin film preparation for extracellular pH sensing. Herein, poly(2-hydroxyethyl methacrylate)-co-poly(acrylamide) (PHEMA-co-PAM) was chosen as the polymer matrix. Structure influences on pH responses and pKa values were studied. The film P3 composed of the sensing moiety SM3 has a pKa close to the usual biological environmental pH of ~7. It was used as an extracellular pH sensor to monitor pH change during the metabolism of prokaryotic Escherichia coli (E. coil). On the other hand, the three sensor monomers are new intracellular biomarkers to sense lysosomes of eukaryotic cells since (1) their pKa values are in a range of 5.9 to 6.8; (2) their emission intensities at acidic conditions (such as at pH 5) are much stronger than those at a neutral condition of pH 7; (3) lysosomes range in size from 0.1 to 1.2 μm in diameter with pH ranging from 4.5 to 5.0, which is much more acidic than the pH value of the cytoplasm (usually with a pH value of ~7.2); and (4) the acidity of lysosomes enables a protonation of the amino groups of the pH probes making the sensors emit brightly in acidic organelles by inhibiting the photo-induced electron transfer from the amino groups to the fluorophores. Lysosome sensing was demonstrated using live human brain glioblastoma U87MG cell line, human cervical cancer HeLa cell line, and human esophagus premalignant CP-A and CP-D cell lines by observations of small acidic spherical organelles (lysosomes) and significant colocalizations (82 ~ 95%) of the sensors with a commercially available lysosome-selective staining probe LysoTracker Red® under confocal fluorescence microscopy.

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An FRET-based ratiometric chemosensor for in vitro cellular fluorescence analyses of pH

Zhou

et al. 2012

Biomaterials

159

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Ratiometric fluorescence sensing is an important technique for precise and quantitative analysis of biological events occurring under complex conditions by simultaneously recording fluorescence intensities at two wavelengths and calculating their ratios. Herein, we design a ratiometric chemosensor for pH that is based on photo-induced electron transfer (PET) and binding-induced modulation of fluorescence resonance energy transfer (FRET) mechanisms. This ratiometric chemosensor was constructed by introduction of a pH-insensitive coumarin fluorophore as a FRET donor into a pH-sensitive amino-naphthalimide derivative as the FRET acceptor. The sensor exhibited clear dual-mission signal changes in blue and green spectral windows upon pH changes. The pH sensor was applied for not only measuring cellular pH, but also for visualizing stimulus-responsive changes of intracellular pH values.

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The effect of conjugation to gold nanoparticles on the ability of low molecular weight chitosan to transfer DNA vaccine

Zhou¹,

Zhang²,

Yu³

et al. 2008

Biomaterials

113

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Supramolecular Nanodiscs Self‐Assembled from Non‐Ionic Heptamethine Cyanine for Imaging‐Guided Cancer Photothermal Therapy

et al. 2019

Advanced Materials

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Supramolecular nanomedicines, which use supramolecular design to improve the precision and effectiveness of pharmaceutical practice and optimize pharmacokinetic profiles, have gathered momentum to battle cancer and other incurable diseases, for which traditional small‐molecular and macromolecular drugs are less effective. However, the lack of clinical approval of supramolecular assembly‐based medicine underscores the challenges facing this field. A 2D nanodisc‐based supramolecular structure is formed by a non‐ionic heptamethine cyanine (Cy7) dye, which generates fluorescence self‐quenching but unique photothermal and photoacoustic properties. These Cy7‐based supramolecular nanodiscs exhibit passive tumor‐targeting properties to not only visualize the tumor by near‐infrared fluorescence imaging and photoacoustic tomography but also induce photothermal tumor ablation under irradiation. Due to the nature of organic small molecule, they induce undetectable acute toxicity in mice and can be eliminated by the liver without extrahepatic metabolism. These findings suggest that the self‐assembling cyanine discs represent a new paradigm in drug delivery as single‐component supramolecular nanomedicines that are self‐delivering and self‐formulating, and provide a platform technology for synergistic clinical cancer imaging and therapy.

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A series of poly[N‐(2‐hydroxypropyl)methacrylamide] copolymers with anthracene‐derived fluorophores showing aggregation‐induced emission properties for bioimaging

Mei

et al. 2011

J. Polym. Sci. A Polym. Chem.

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A series of new poly[N-(2-hydroxypropyl)methacrylamide]-based amphiphilic copolymers were synthesized through a radical copolymerization of a monomeric/hydrophobic fluorophore possessing aggregation-induced emission (AIE) property with N-(2-hydroxypropyl)methacrylamide. Photophysical properties were investigated using UV-Vis absorbance and fluorescence spectrophotometry. Influences of the polymer structures with different molar ratios of the AIE fluorophores on their photophysical properties were studied. Results show that the AIE fluorophores aggregate in the cores of the micelles formed from the amphiphilic random copolymers and polymers with more hydrophobic AIE fluorophores facilitate stronger aggregations of the AIE segments to obtain higher quantum efficiencies. The polymers reported herein have good water solubility, enabling the application of hydrophobic AIE materials in biological conditions. The polymers were endocytosed by two experimental cell lines, human brain glioblastoma U87MG cells and human esophagus premalignant CP-A, with a distribution into the cytoplasm. The polymers are non-cytotoxic to the two cell lines at a polymer concentration of 1 mg/mL.

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Controlled release of PEI/DNA complexes from mannose-bearing chitosan microspheres as a potent delivery system to enhance immune response to HBV DNA vaccine

Zhou

Liu

et al. 2007

Journal of Controlled Release

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A novel approach involving the preparation of mannose-bearing chitosan microspheres with entrapping complexes of HBV DNA and PEI was developed to improve the delivery of DNA into antigen-presenting cells (APCs) after intramuscular (i.m.) injection. Compared with the traditional chitosan microspheres, the microspheres could quickly release intact and penetrative PEI/DNA complexes. What's more, chitosan was modified with mannose to target the primary APCs such as dendritic cells (DCs) owing to the high density of mannose receptors expressing on the surface of immature DCs. After i.m. immunization, the microspheres induced significantly enhanced serum antibody and cytotoxic T lymphocyte (CTL) responses in comparison to naked DNA.

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Intriguing H-Aggregates of Heptamethine Cyanine for Imaging-Guided Photothermal Cancer Therapy

et al. 2020

ACS Appl. Mater. Interfaces

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Organic small-molecule-based photothermal agents such as cyanine dyes have received increasing attention in developing novel cancer therapies with potential clinical utility but suffer from poor stability, low photothermal efficiency, and limited accumulation at tumor sites in molecular forms. Self-assembly of small-molecule dyes into supramolecular assemblies may address these concerns by controlling the molecular organization of dye monomers to form structures of a higher order. Among them, H-aggregates of dyes favor face-to-face contacts with strongly overlapping areas, which always have a negative connotation to exhibit low or no fluorescence in most cases but may emanate energy in nonradiative forms such as heat for photothermal cancer therapy applications. Here, the synergistic self-assembly of cyanine dyes into H-aggregates is developed as a new supramolecular strategy to fabricate small-molecule-based photothermal nanomaterials. Compared to the free cyanine dyes, the H-aggregates assembled from pyrene or tetraphenylethene (TPE) conjugating cyanine exhibit the expected absorption spectral blue shift and fluorescence self-quenching but unique photothermal properties. Remarkably, the obtained H-aggregates are saucer-shaped nanoparticles that exhibit passive tumor-targeting properties to induce imaging-guided photothermal tumor ablation under irradiation. This supramolecular strategy presented herein may open up new opportunities for constructing next-generation small-molecule-based self-assembly nanomaterials for PTT cancer therapy in clinics.

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Xianfeng Zhou

A New Highly Selective Fluorescent K⁺ Sensor

A series of naphthalimide derivatives as intra and extracellular pH sensors

An FRET-based ratiometric chemosensor for in vitro cellular fluorescence analyses of pH

The effect of conjugation to gold nanoparticles on the ability of low molecular weight chitosan to transfer DNA vaccine

Supramolecular Nanodiscs Self‐Assembled from Non‐Ionic Heptamethine Cyanine for Imaging‐Guided Cancer Photothermal Therapy

A series of poly[N‐(2‐hydroxypropyl)methacrylamide] copolymers with anthracene‐derived fluorophores showing aggregation‐induced emission properties for bioimaging

Controlled release of PEI/DNA complexes from mannose-bearing chitosan microspheres as a potent delivery system to enhance immune response to HBV DNA vaccine

Intriguing H-Aggregates of Heptamethine Cyanine for Imaging-Guided Photothermal Cancer Therapy

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Product

Resources

About

Xianfeng Zhou

A New Highly Selective Fluorescent K+ Sensor

A series of naphthalimide derivatives as intra and extracellular pH sensors

An FRET-based ratiometric chemosensor for in vitro cellular fluorescence analyses of pH

The effect of conjugation to gold nanoparticles on the ability of low molecular weight chitosan to transfer DNA vaccine

Supramolecular Nanodiscs Self‐Assembled from Non‐Ionic Heptamethine Cyanine for Imaging‐Guided Cancer Photothermal Therapy

A series of poly[N‐(2‐hydroxypropyl)methacrylamide] copolymers with anthracene‐derived fluorophores showing aggregation‐induced emission properties for bioimaging

Controlled release of PEI/DNA complexes from mannose-bearing chitosan microspheres as a potent delivery system to enhance immune response to HBV DNA vaccine

Intriguing H-Aggregates of Heptamethine Cyanine for Imaging-Guided Photothermal Cancer Therapy

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Product

Resources

About

A New Highly Selective Fluorescent K⁺ Sensor