A dual wavelength-activatable gold nanorod complex for synergistic cancer treatment

Pacardo, Dennis B.; Neupane, Bhanu; Rikard, S. Michaela; Lü, Yue; Mo, Ran; Mishra, Sumeet R.; Tracy, Joseph B.; Wang, Gufeng; Ligler, Frances S.; Gu, Zhen

doi:10.1039/c5nr01568e

Cited by 42 publications

(17 citation statements)

References 66 publications

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“…The PTT effect of AuNR can be used not only for photosensitizer releasing but also for the cancer therapy. 43,58,59 Therefore, the cell viability after being treated with post-modified AuNR and irradiated by 808 nm laser light or by 808 and 635 nm laser lights was evaluated. The results showed that AuNR corresponding to 4 µg/mL and 8 µg/mL AuNR-AlPcS 4 inhibited the growth of cells by about 30% and 50%, respectively.…”

Section: Cytotoxicity and Anti-growth Effect Assay Of Different Drug mentioning

confidence: 99%

AlPcS4-PDT for gastric cancer therapy using gold nanorod, cationic liposome, and Pluronic® F127 nanomicellar drug carriers

Jing¹,

Wang²,

Wang³

et al. 2018

IJN

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PurposeAs a promising photodynamic therapy (PDT) agent, Al(III) phthalocyanine chloride tetrasulfonic acid (AlPcS4) provides deep penetration into tissue, high quantum yields, good photostability, and low photobleaching. However, its low delivery efficiency and high binding affinity to serum albumin cause its low penetration into cancer cells, further limiting its PDT effect on gastric cancer. In order to improve AlPcS4/PDT effect, the AlPcS4 delivery sys tems with different drug carriers were synthesized and investigated.Materials and methodsGold nanorods, cationic liposomes, and Pluronic® F127 nanomicellars were used to formulate the AlPcS4 delivery systems. The anticancer effect was evaluated by CCK-8 assay and colony formation assay. The delivery efficiency of AlPcS4 and the binding affinity to serum proteins were determined by fluorescence intensity assay. The apoptosis and necrosis ability, reactive oxygen species and singlet oxygen generation, mitochondrial transmembrane potential and ([Ca2+]i) concentration were further measured to evaluate the mechanism of cell death.ResultsThe series of synthesized AlPcS4 delivery systems with different drug carriers improve the limited PDT effect in varying degrees. In contrast, AlPcS4 complex with gold nanorods has significant anticancer effects because gold nanorods are not only suitable for AlPcS4 delivery, but also exhibit enhanced singlet oxygen generation effect and photothermal effect to induce cell death directly. Moreover, AlPcS4 complex with cationic liposomes shows the potent inhibition effect because of its optimal AlPcS4 delivery efficiency and ability to block serum albumin. In addition, AlPcS4 complex with Pluronic F127 exhibits inferior PDT effect but presents lower cytotoxicity, slower dissociation rate, and longer retention time of incorporated drugs; thus, F127–AlPcS4 is used for prolonged gastric cancer therapy.ConclusionThe described AlPcS4 drug delivery systems provide promising agents for gastric cancer therapy.

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Section: Cytotoxicity and Anti-growth Effect Assay Of Different Drug mentioning

confidence: 99%

AlPcS4-PDT for gastric cancer therapy using gold nanorod, cationic liposome, and Pluronic® F127 nanomicellar drug carriers

Jing¹,

Wang²,

Wang³

et al. 2018

IJN

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“…A quite recent study quantified the cellular uptake by GNRs in MCF-7 cells by using inductively coupled plasma mass spectrometry, and the MCF-7 cells used the micropinocytosis mechanism to internalize bare GNRs that aggregate and associate with the cell membrane [ 61 ]. Pacardo et al discovered that when functionalized with cyclodextrin, gold nanorods can encapsulate doxorubicin (DOX), and the as-formed nanocomplex showed enhanced anti-cancer efficacy [ 62 ]. Zhang et al reported DNA-conjugated gold nanorods as a multifunctional carrier, which can load and release DOX at targeted locations [ 63 ].…”

Section: Gold Nanostructures For Cancer Treatmentmentioning

confidence: 99%

Engineering Gold Nanostructures for Cancer Treatment: Spherical Nanoparticles, Nanorods, and Atomically Precise Nanoclusters

Wang¹,

Shen

et al. 2022

Nanomaterials

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Cancer is a major global health issue and is a leading cause of mortality. It has been documented that various conventional treatments can be enhanced by incorporation with nanomaterials. Thanks to their rich optical properties, excellent biocompatibility, and tunable chemical reactivities, gold nanostructures have been gaining more and more research attention for cancer treatment in recent decades. In this review, we first summarize the recent progress in employing three typical gold nanostructures, namely spherical Au nanoparticles, Au nanorods, and atomically precise Au nanoclusters, for cancer diagnostics and therapeutics. Following that, the challenges and the future perspectives of this field are discussed. Finally, a brief conclusion is summarized at the end.

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“…Gold-based (Au) nanostructures comprise another dominant class of PAI contrast agents. Gold nanostructures, such as nanorods (NRs) [ 44 , 53 , 54 , 55 ], nanocages (NCs) [ 37 , 56 , 57 , 58 ], and nanospheres (NSs) [ 59 ], have strong and tunable optical absorption due to localized surface plasmon resonance (LSPR) effect, where the free charges on the surface of the Au nanostructures oscillate with the electromagnetic field. Additionally, the absorption region can be adjusted as a result of change in resonance frequency by modulating the size and shape of the Au nanostructures [ 60 ].…”

Section: Inorganic Nanomaterials-based Photoacoustic Therapymentioning

confidence: 99%

Photoacoustic Drug Delivery

Zhang

Kahkoska

et al. 2017

Sensors

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Photoacoustic (PA) technology holds great potential in clinical translation as a new non-invasive bioimaging modality. In contrast to conventional optical imaging, PA imaging (PAI) enables higher resolution imaging with deeper imaging depth. Besides applications for diagnosis, PA has also been extended to theranostic applications. The guidance of PAI facilitates remotely controlled drug delivery. This review focuses on the recent development of PAI-mediated drug delivery systems. We provide an overview of the design of different PAI agents for drug delivery. The challenges and further opportunities regarding PA therapy are also discussed.

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A dual wavelength-activatable gold nanorod complex for synergistic cancer treatment

Cited by 42 publications

References 66 publications

AlPcS<sub>4</sub>-PDT for gastric cancer therapy using gold nanorod, cationic liposome, and Pluronic<sup>®</sup> F127 nanomicellar drug carriers

AlPcS<sub>4</sub>-PDT for gastric cancer therapy using gold nanorod, cationic liposome, and Pluronic<sup>®</sup> F127 nanomicellar drug carriers

Engineering Gold Nanostructures for Cancer Treatment: Spherical Nanoparticles, Nanorods, and Atomically Precise Nanoclusters

Photoacoustic Drug Delivery

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A dual wavelength-activatable gold nanorod complex for synergistic cancer treatment

Cited by 42 publications

References 66 publications

AlPcS<sub>4</sub>-PDT for gastric cancer therapy using gold nanorod, cationic liposome, and Pluronic<sup>&reg;</sup> F127 nanomicellar drug carriers

AlPcS<sub>4</sub>-PDT for gastric cancer therapy using gold nanorod, cationic liposome, and Pluronic<sup>&reg;</sup> F127 nanomicellar drug carriers

Engineering Gold Nanostructures for Cancer Treatment: Spherical Nanoparticles, Nanorods, and Atomically Precise Nanoclusters

Photoacoustic Drug Delivery

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AlPcS<sub>4</sub>-PDT for gastric cancer therapy using gold nanorod, cationic liposome, and Pluronic<sup>®</sup> F127 nanomicellar drug carriers

AlPcS<sub>4</sub>-PDT for gastric cancer therapy using gold nanorod, cationic liposome, and Pluronic<sup>®</sup> F127 nanomicellar drug carriers