2020
DOI: 10.1021/acsami.0c11979
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NIR-vis-Induced pH-Sensitive TiO2 Immobilized Carbon Dot for Controllable Membrane-Nuclei Targeting and Photothermal Therapy of Cancer Cells

Abstract: This study investigated a selective and sensitive theragnosis system for the specific targeting of the membrane and nuclei based on visible-light and pH-responsive TiO2-integrated cross-linked carbon dot (C-CD/TiO2) for tumor detection and controllable photothermal therapy. The cross-linking system was formed by boronate ester linkages between the TiO2-immobilized Dopa-decyl (D-CD) and zwitterionic-formed CD (Z-CD) for nuclear targeting, which showed fluorescence “off” at physiological pH. The fluorescence rec… Show more

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Cited by 40 publications
(26 citation statements)
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“…In addition to the charge interaction, pH-responsive interaction was indicated another factor to increase the cellular uptake selectivity of free CDs. For example, Phuong et al developed a selective and sensitive nanotheranostic nanoplatform based on the pH-responsive TiO 2 -integrated cross-linked CDs (C-CD/TiO 2 ) for tumor diagnosis by the specific targeted capability of the tumor cell membrane and nuclei (Figure 5 D) 139 . In their work, researchers designed the zwitterionic-formed CD (Z-CD) which could target the nucleus and the hydrophobic Dopa-decyl (D-CD) which could penetrate the hydrophobic sites of cell membrane.…”
Section: Targeted Bioimagingmentioning
confidence: 99%
See 1 more Smart Citation
“…In addition to the charge interaction, pH-responsive interaction was indicated another factor to increase the cellular uptake selectivity of free CDs. For example, Phuong et al developed a selective and sensitive nanotheranostic nanoplatform based on the pH-responsive TiO 2 -integrated cross-linked CDs (C-CD/TiO 2 ) for tumor diagnosis by the specific targeted capability of the tumor cell membrane and nuclei (Figure 5 D) 139 . In their work, researchers designed the zwitterionic-formed CD (Z-CD) which could target the nucleus and the hydrophobic Dopa-decyl (D-CD) which could penetrate the hydrophobic sites of cell membrane.…”
Section: Targeted Bioimagingmentioning
confidence: 99%
“…Adapted with permission from 190 , copyright 2019 John Wiley & Sons Ltd. (D) Scheme of the design and application of pH-responsive C-CD/TiO 2 for targeted bioimaging via cellular membrane-nucleus translocation in response to visible-light irradiation. Adapted with permission from 139 , copyright 2020 American Chemical Society.…”
Section: Figurementioning
confidence: 99%
“…In addition, the unique properties of the drug carrier surface can help the vectors straightly go through the cell membrane. For example, the hydrophobicity of TiO 2 -immobilized dopa-decyl that can penetrate cell membrane [ 54 ] and nucleolin’s active transport property of aptamer on liposome surface [ 55 ]. From the cell membrane to the nucleus, active nuclear targeting is needed to avoid being swallowed by lysosomes that may digest the drug.…”
Section: Nuclear Targetingmentioning
confidence: 99%
“…The pH values are different between normal tissue and tumor microenvironment. Normal tissue’s pH is about 7.4, while tumor cell tissue’s pH is around 6.8 [ 54 ]. Meanwhile, the intracellular pH values are different between cytosol and the nucleus.…”
Section: Nuclear Targetingmentioning
confidence: 99%
“…Among the various application fields of CDs introduced above, bioimaging has been attracting the most attention due to the significance for the study on live organisms, 12,13 since CDs have much lower toxicity and better biocompatibility compared with traditional fluorescent materials 14,15 . For instance, bioimaging based on CDs has been developed for the study on the diagnostics of tumors that highly affect people's health and life span 16,17 .…”
Section: Introductionmentioning
confidence: 99%