Water‐Responsive Hybrid Nanoparticles Codelivering ICG and DOX Effectively Treat Breast Cancer via Hyperthermia‐aided DOX Functionality and Drug Penetration

Liu, Xuerong; Wang, Cheng; Ma, Huisong; Yu, Fangying; Hu, Fuqiang; Yuan, Hong

doi:10.1002/adhm.201801486

Cited by 77 publications

(67 citation statements)

References 41 publications

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“…The in vivo anticancer study was performed according to a previous report [24]. In brief, 2 × 10 6 A549 cells were injected to the flank of mice (4–5 weeks, 20 g).…”

Section: Methodsmentioning

confidence: 99%

Facile preparation of cancer cell membrane vehicle loaded with indocyanine green for effective photothermal therapy of cancer

Sun

Jiang

Zhao

et al. 2020

Micro & Nano Letters

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“…The in vivo anticancer study was performed according to a previous report [24]. In brief, 2 × 10 6 A549 cells were injected to the flank of mice (4–5 weeks, 20 g).…”

Section: Methodsmentioning

confidence: 99%

Facile preparation of cancer cell membrane vehicle loaded with indocyanine green for effective photothermal therapy of cancer

Sun

Jiang

Zhao

et al. 2020

Micro & Nano Letters

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“…Cell migration and invasion assays in MDA-MB-231 cells were performed using a 24-well Transwell chamber as described previously [36]. The upper and lower sides of the Transwell membrane (8 µm pores) were pre-coated with 0.1% collagen in the cell migration assay.…”

Section: Transwell Migration and Invasion Assaymentioning

confidence: 99%

Novel CD44-Targeting and pH/redox Dual-Stimuli Responsive Core-Shell Nanoparticles Loading Triptolide to Combat Breast Cancer Growth and Lung Metastasis

Shi

Ren

et al. 2021

Preprint

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BackgroundThe toxicity and inefficient delivery of triptolide (TPL) in tumor therapy have greatly limited its clinical application. Therefore, we fabricated a CD44-targeting and tumor-microenvironment pH/redox sensitive nanosystem, composed by hyaluronic acid-Vitamin E succinate (HA-VE) and Poly (β-Amino Esters) (PBAEss) polymers, to enhance the suppression of breast cancer proliferation and lung metastasis of TPL. ResultsThe generated TPL/NPs had the high drug loading efficiency (94.93 ± 2.1%) and a desirable average size (191 nm). Mediated by PBAEss core, TPL/NPs displayed a pH/redox dual stimuli drug release profile in vitro. Based on HA coating, TPL/NPs exhibited selective tumor-cellular uptake and high tumor-tissue accumulation capacity via targeting CD44. As a consequence, TPL/NPs showed higher cell proliferation suppression, pro-apoptosis and cell cycle arrest activities, and stronger inhibitory effects on cell migration and invasion than free TPL in MCF-7 and MDA-MB-231 cells. Importantly, TPL/NPs also showed higher efficacy in shrinking tumor size and block lung metastasis in a 4T1 breast cancer mice model at equivalent or lower TPL dosage compared to free TPL, with the decreased systemic toxicity. Histological immunofluorescence and immunohistochemical analyses in tumor and lung tissue revealed that TPL/NPs induced a high level of apoptosis, suppressed expression of matrix metalloproteinases, which all these contributed to inhibit tumor growth and pulmonary metastasis. ConclusionCollectively, our results demonstrate that TPL/NPs, which integrates tumor active-targeting and pH/redox responsive drug release, pro-apoptosis, and anti-mobility, represent a promising candidate in halting breast cancer progression and metastasis while minimizing systemic toxicity.

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“…Recently, the development of multifunctional ICG-NPs, offering both diagnostic and therapeutic solutions in cancer, has captured the attention of researchers (Han et al, 2018 ). To overcome the limitations previously discussed, several ICG-NPs have been proposed and tested, both in vitro and in vivo (Liu et al, 2019b ; ZhuGe et al, 2019 ), displaying increased circulation time and improved ICG optical properties and achieving tumor-specific accumulation. Many advantages derive from their use: combining or encapsulating it to/into NPs results in the extension of ICG half-life.…”

Section: Icg-nps and Cancer: Preclinical Studiesmentioning

confidence: 99%

“…Doxorubicin has been exploited in superparamagnetic iron oxide NPs with ICG displaying good imaging ability, showing accumulation in the tumor site and high antitumor efficacy with few side effects in glioma-bearing rats (Shen et al, 2018 ). Phospholipid-calcium-carbonate NPs loaded with doxorubicin and ICG demonstrate strong tumor-homing properties and a synergistic effect in terms of tumor growth reduction (Liu et al, 2019b ). Regarding cancer immunotherapy, the photothermal ablation of tumors with immune-adjuvant ICG-NPs, seems promising in activating immune responses potentially applicable for metastasis treatment (Chen et al, 2016 ).…”

Section: Icg-nps and Cancer: Preclinical Studiesmentioning

confidence: 99%

Indocyanine Green Nanoparticles: Are They Compelling for Cancer Treatment?

et al. 2020

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Indocyanine green (ICG) is a Food and Drug Administration-approved near-infrared fluorescent dye, employed as an imaging agent for different clinical applications due to its attractive physicochemical properties, high sensitivity, and safety. However, free ICG suffers from some drawbacks, such as relatively short circulation half-life, concentration-dependent aggregation, and rapid clearance from the body, which would confine its feasible application in oncology. Here, we aim to discuss encapsulation of ICG within a nanoparticle formulation as a strategy to overcome some of its current limitations and to enlarge its possible applications in cancer diagnosis and treatment. Our purpose is to provide a short but exhaustive overview of clinical outcomes that these nanocomposites would provide, discussing opportunities, limitations, and possible impacts with regard to the main clinical needs in oncology.

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Water‐Responsive Hybrid Nanoparticles Codelivering ICG and DOX Effectively Treat Breast Cancer via Hyperthermia‐aided DOX Functionality and Drug Penetration

Cited by 77 publications

References 41 publications

Facile preparation of cancer cell membrane vehicle loaded with indocyanine green for effective photothermal therapy of cancer

Facile preparation of cancer cell membrane vehicle loaded with indocyanine green for effective photothermal therapy of cancer

Novel CD44-Targeting and pH/redox Dual-Stimuli Responsive Core-Shell Nanoparticles Loading Triptolide to Combat Breast Cancer Growth and Lung Metastasis

Indocyanine Green Nanoparticles: Are They Compelling for Cancer Treatment?

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