A multimodal imaging-guided nanoreactor for cooperative combination of tumor starvation and multiple mechanism-enhanced mild temperature phototherapy

Cao, Jin; Qiao, Bin; Luo, Yuanli; Cheng, Chuan; Yang, Anyu; Wang, Mengzhu; Yuan, Xun; Fan, Kui; Li, Maoping; Wang, Zhigang

doi:10.1039/d0bm01350a

Cited by 30 publications

(20 citation statements)

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“…1,2 With the emergence of the innovative concept of oncolytic nanoreactors, PTT has gained renewed attention in the last three years, as it can be synergistically combined in cascade reactions with other therapeutic modalities as starvation, oxygenation and/or chemodynamic therapies. [3][4][5][6] Near-infrared (NIR) irradiation with wavelengths in the range of 700-1100 nm, are usually used in PTT to achieve high tissue penetration because living tissues display negligible absorbance and autofluorescence in this NIR region. 7 Among the many NIR photothermal agents available, noblemetal-based nanostructures, 8,9 carbon nanomaterials, [10][11][12] and semiconductor 13,14 nanoparticles have been extensively studied in cancer therapy.…”

Section: Introductionmentioning

confidence: 99%

Exploiting cyanine dye J-aggregates/monomer equilibrium in hydrophobic protein pockets for efficient multi-step phototherapy: an innovative concept for smart nanotheranostics

et al. 2021

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Section: Introductionmentioning

confidence: 99%

Exploiting cyanine dye J-aggregates/monomer equilibrium in hydrophobic protein pockets for efficient multi-step phototherapy: an innovative concept for smart nanotheranostics

et al. 2021

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“…[ 2 ] PDT employs photosensitizers and suitable excitation light to produce reactive oxygen species (ROS) to kill tumor cells, while PTT works by converting light energy into heat for localized tumor ablation through photothermal agents. [ 3 ] Extensive researches have been devoted to the development of PDT/PTT dual phototherapy strategy. [ 4 ] However, the lack of tissue penetration depth of light, especially to some deep tumor tissues, has greatly limited the development of dual phototherapy.…”

Section: Methodsmentioning

confidence: 99%

A Photoresponsive Nanozyme for Synergistic Catalytic Therapy and Dual Phototherapy

Yang

et al. 2021

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Dual phototherapy, including photodynamic therapy (PDT) and photothermal therapy (PTT), has shown a great prospect in cancer treatment. However, its therapeutic effect is restricted by the depth of light penetration in tissue and tumor hypoxia environment. Herein, inspired by the specific response of nanozymes to the tumor microenvironment (TME), a simple and versatile nanozyme‐mediated synergistic dual phototherapy nanoplatform (denoted as FePc/HNCSs) is constructed using hollow nitrogen‐doped carbon nanospheres (HNCSs) and iron phthalocyanine (FePc). FePc/HNCSs simultaneously exhibit peroxidase (POD)‐ and catalase (CAT)‐like activities, which not only can convert endogenous hydrogen peroxide (H2O2) into highly toxic hydroxyl radicals (•OH) for catalytic therapy, but also decompose H2O2 to oxygen (O2) to enhance O2‐dependent PDT. In addition, their enzyme‐like activities are significantly enhanced under light irradiation. Combining with the excellent photothermal effect, FePc/HNCSs realize a high tumor inhibition rate of 96.3%. This strategy opens a new horizon for exploring a more powerful tumor treatment nanoplatform.

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“…Moreover, glucose oxidase (GOx), which can catalyze glucose, O 2 , and H 2 O into gluconic acid and H 2 O 2 , has been widely used in cancer therapy [ 114 – 116 ]. In the past few years, due to the ability of GOx to achieve cancer starvation, some researchers utilized GOx to realize low-temperature PTT of tumor [ 32 , 117 , 118 ]. For instance, a nanoreactor was prepared by Cao et al to combine tumor starvation therapy with multiple mechanism-enhanced mild-temperature phototherapy for cancer treatment [ 117 ].…”

Section: Applications Of Low-temperature Pttmentioning

confidence: 99%

“…In the past few years, due to the ability of GOx to achieve cancer starvation, some researchers utilized GOx to realize low-temperature PTT of tumor [ 32 , 117 , 118 ]. For instance, a nanoreactor was prepared by Cao et al to combine tumor starvation therapy with multiple mechanism-enhanced mild-temperature phototherapy for cancer treatment [ 117 ]. They loaded both GOx and ICG onto the Fe-doped polydiaminopyridine (Fe-PDAP) nanozyme via electrostatic adsorption and π - π interaction to obtain the Fe-PDAP/GOx/ICG nanoreactor.…”

Section: Applications Of Low-temperature Pttmentioning

confidence: 99%

Low-Temperature Photothermal Therapy: Strategies and Applications

Duan

2021

Research

135

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Although photothermal therapy (PTT) with the assistance of nanotechnology has been considered as an indispensable strategy in the biomedical field, it still encounters some severe problems that need to be solved. Excessive heat can induce treated cells to develop thermal resistance, and thus, the efficacy of PTT may be dramatically decreased. In the meantime, the uncontrollable diffusion of heat can pose a threat to the surrounding healthy tissues. Recently, low-temperature PTT (also known as mild PTT or mild-temperature PTT) has demonstrated its remarkable capacity of conquering these obstacles and has shown excellent performance in bacterial elimination, wound healing, and cancer treatments. Herein, we summarize the recently proposed strategies for achieving low-temperature PTT based on nanomaterials and introduce the synthesis, characteristics, and applications of these nanoplatforms. Additionally, the combination of PTT and other therapeutic modalities for defeating cancers and the synergistic cancer therapeutic effect of the combined treatments are discussed. Finally, the current limitations and future directions are proposed for inspiring more researchers to make contributions to promoting low-temperature PTT toward more successful preclinical and clinical disease treatments.

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A multimodal imaging-guided nanoreactor for cooperative combination of tumor starvation and multiple mechanism-enhanced mild temperature phototherapy

Abstract: Phototherapy, including photodynamic therapy (PDT) and photothermal therapy (PTT), has shown great promise for cancer treatment in many preclinical studies. This study reports a nanoreactor designed for an enhanced mild...

Cited by 30 publications

References 56 publications

Exploiting cyanine dye J-aggregates/monomer equilibrium in hydrophobic protein pockets for efficient multi-step phototherapy: an innovative concept for smart nanotheranostics

Exploiting cyanine dye J-aggregates/monomer equilibrium in hydrophobic protein pockets for efficient multi-step phototherapy: an innovative concept for smart nanotheranostics

A Photoresponsive Nanozyme for Synergistic Catalytic Therapy and Dual Phototherapy

Low-Temperature Photothermal Therapy: Strategies and Applications

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