Wing‐Leung Wong scite author profile

Photothermal therapy (PTT) is recognized as a promising approach for cancer theranostics via the nonradiative conversion of light into heat energy. PTT treatment is able to reduce the adverse side effects of traditional chemotherapy. Some nanomaterials functionalized with unique physical and chemical properties have been integrated with multiple imaging modalities and a therapeutic function for applications. In the past decade, various nanomaterials for PTT applications have been reviewed, but a comprehensive survey of all classes of photothermal nanomaterials developed in recent years has not been done. A comprehensive discussion of PTT mechanisms using different nanomaterials and their application in combination therapy is useful for providing insights for PTT material development for disease treatment in the future. In this review, the recent advancement of functionalized nanomaterials for PTT and the excellence of PTT combined therapies in the field of anticancer are discussed. The momentous property of nanomaterials tailored for advancing the noninvasive therapeutic approach of PTT is also highlighted. Because a great deal of PTT nanomaterials have been developed in the past decades and reviewed in recent years, in this review, we only include the latest results reported in the past 5 years for discussion and comparison.

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A molecular fluorescent dye for specific staining and imaging of RNA in live cells: a novel ligand integration from classical thiazole orange and styryl compounds

Deng

et al. 2015

Chem. Commun.

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Molecular Engineering of Thiazole Orange Dye: Change of Fluorescent Signaling from Universal to Specific upon Binding with Nucleic Acids in Bioassay

Deng

Hou³

et al. 2016

ACS Chem. Biol.

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The universal fluorescent staining property of thiazole orange (TO) dye was adapted in order to be specific for G-quadruplex DNA structures, through the introduction of a styrene-like substituent at the ortho-position of the TO scaffold. This extraordinary outcome was determined from experimental studies and further explored through molecular docking studies. The molecular docking studies help understand how such a small substituent leads to remarkable fluorescent signal discrimination between G-quadruplex DNA and other types of nucleic acids. The results reveal that the modified dyes bind to the G-quadruplex or duplex DNA in a similar fashion as TO, but exhibit either enhanced or quenched fluorescent signal, which is determined by the spatial length and orientation of the substituent and has never been known. The new fluorescent dye modified with a p-(dimethylamino)styryl substituent offers 10-fold more selectivity toward telomeric G-quadruplexes than double-stranded DNA substrates. In addition, native PAGE experiments, FRET, CD analysis, and live cell imaging were also studied and demonstrated the potential applications of this class of thiazole-orange-based fluorescent probes in bioassays and cell imaging.

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Wing‐Leung Wong

Chiral pyridine-containing ligands in asymmetric catalysis

Review of Functionalized Nanomaterials for Photothermal Therapy of Cancers

A molecular fluorescent dye for specific staining and imaging of RNA in live cells: a novel ligand integration from classical thiazole orange and styryl compounds

Molecular Engineering of Thiazole Orange Dye: Change of Fluorescent Signaling from Universal to Specific upon Binding with Nucleic Acids in Bioassay

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