Assembly of Multicomponent Nano-Bioconjugates Composed of Mesoporous Silica Nanoparticles, Proteins, and Gold Nanoparticles

Delpiano, Giulia Rossella; Ricci, Pier Carlo; Piludu, Marco; Corpino, Riccardo; Ricci, Pier Carlo; Vallet‐Regí, María; Sanjust, Enrico; Monduzzi, Maura; Salis, Andrea

doi:10.1021/acsomega.9b01240

Cited by 14 publications

(11 citation statements)

References 70 publications

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“…Due to the facile surface chemistry properties, functional groups can combined with gold nanomaterials through weak interactions and the stable covalent anchors (Kou et al, 2009; Moraes Silva et al, 2016; Zou et al, 2016; Wang K. et al, 2017). So far, many modification approaches have been introduced by covering and ligand exchange, so gold nanoparticles can be modified with biopolymer (e.g., polyethylene glycol (PEG), oligonucleotides, antibodies, peptides) (Loh et al, 2016; Chen Y. et al, 2017; Anantha-Iyengar et al, 2019; Delpiano et al, 2019), hydrophobic drug molecules (e.g., paclitaxel, cisplatin, tamoxifen, doxorubicin) (Avitabile et al, 2018; Ma et al, 2018), biofunctional molecules (chitosan, silica, folic acid, polyunsaturated fatty acids, and hyaluronic acid, etc.) (Vigderman and Zubarev, 2013; Sztandera et al, 2019) and other amphiphilic ligands through functional bridges, such as thiol ligands (e.g., thiolate, dithiolate, thioctic acid), amino, and carboxyl moieties (Figure 1) (Daraee et al, 2014; Kong et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Gold Nanomaterials for Imaging-Guided Near-Infrared in vivo Cancer Therapy

Tian

Sheng

Wang

2019

Front. Bioeng. Biotechnol.

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In recent years, tremendous efforts have been devoted into the fields of valuable diagnosis and anticancer treatment, such as real-time imaging, photothermal, and photodynamic therapy, and drug delivery. As promising nanocarriers, gold nanomaterials have attracted widespread attention during the last two decades for cancer diagnosis and therapy due to their prominent properties. With the development of nanoscience and nanotechnology, the fascinating bio-applications of functionalized gold nanomaterials have been gradually developed from in vitro to in vivo. This mini-review emphasizes some recent advances of photothermal imaging (PTI), surface-enhanced Raman scattering (SERS) imaging, and photoacoustic imaging (PAI)-guided based on gold nanomaterials in vivo therapy in near infrared region (>800 nm). We focus on the fundamental strategies, characteristics of bio-imaging modalities involving the advantages of multiples imaging modalities for cancer treatment, and then highlight a few examples of each techniques. Finally, we discuss the perspectives and challenges in gold nanomaterial-based cancer therapy.

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Section: Introductionmentioning

confidence: 99%

Gold Nanomaterials for Imaging-Guided Near-Infrared in vivo Cancer Therapy

Tian

Sheng

Wang

2019

Front. Bioeng. Biotechnol.

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“…With the development of the research, a mesoporous silica-gold nanorods system has been developed, which is a multilayered structure by layer-by-layer assembly with rotational diffusion and adjustable size [47]. When assembled with proteins, the system with high porosity and biocompatibility can function as both the targeted drug carrier and medical imaging contrast agent [48]. What's even more exciting is that the surface encapsulation of silica gel shell could inhibit the cytotoxicity of GNPs used in cells [49].…”

Section: Core-shell Structurementioning

confidence: 99%

Advances in the application of gold nanoparticles in bone tissue engineering

Xia

et al. 2020

J Biol Eng

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The materials used in bone tissue engineering (BTE) have been advancing with each passing day. With the continuous development of nanomedicine, gold nanoparticles (GNPs), which are easy to be synthesized and functionalized, have attracted increasing attention. Recent years have witnessed this amazing material, i.e., GNPs characterized with large surface area to volume ratio, biocompatibility, medical imaging property, hypotoxicity, translocation into the cells, high reactivity, and other properties, perform distinct functions in BTE. However, the low stability of GNPs in the biotic environment makes them in the requirements of modification or recombination before being used. After being combined with the advantages of other materials, the structures of GNPs have exhibited great potential in stem cells, scaffolds, delivery systems, medical imaging, and other aspects. This review will focus on the advances in the application of GNPs after modification or recombination with other materials to BTE.

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“…GNPs are indeed characterized by a surface plasmon frequency in the visible range, which makes them suitable for therapeutic treatments (i.e., photothermal therapy [ 62 ] or, more interestingly, for “theranostics” that is the combination between therapy and diagnostics [ 63 ]. In a very recent work [ 64 ], we assembled multicomponent nano-bioconjugates based on mesoporous silica nanoparticles (MSNs), proteins (BSA or lysozyme), and gold nanoparticles ( Figure 10 ). The purpose of the realization of such nano-bioconjugates was for a possible application in nanomedicine as theranostic devices.…”

Section: Toward the Realization Of Theranostic Nanobioconjugatesmentioning

confidence: 99%

Gold Nanoparticles: A Powerful Tool to Visualize Proteins on Ordered Mesoporous Silica and for the Realization of Theranostic Nanobioconjugates

Piludu

Medda

Monduzzi

et al. 2018

IJMS

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Ordered mesoporous silica (OMS) is a very interesting nanostructured material for the design and engineering of new target and controlled drug-delivery systems. Particularly relevant is the interaction between OMS and proteins. Large pores (6–9 nm) micrometric particles can be used for the realization of a drug depot system where therapeutic proteins are adsorbed either inside the mesopores or on the external surface. Small pores (1–2 nm) mesoporous silica nanoparticles (MSNs), can be injected in the blood stream. In the latter case, therapeutic proteins are mainly adsorbed on the MSNs’ external surface. Whenever a protein-OMS conjugate is prepared, a diagnostic method to locate the protein either on the internal or the external silica surface is of utmost importance. To visualize the fine localization of proteins adsorbed in mesoporous silica micro- and nanoparticles, we have employed specific transmission electron microscopy (TEM) analytical strategies based on the use of gold nanoparticles (GNPs) conjugates. GNPs are gaining in popularity, representing a fundamental tool to design future applications of MSNs in nanomedicine by realizing theranostic nanobioconjugates. It may be pointed out that we are at the very beginning of a new age of the nanomaterial science: the “mesoporous golden age”.

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Assembly of Multicomponent Nano-Bioconjugates Composed of Mesoporous Silica Nanoparticles, Proteins, and Gold Nanoparticles

Cited by 14 publications

References 70 publications

Gold Nanomaterials for Imaging-Guided Near-Infrared in vivo Cancer Therapy

Gold Nanomaterials for Imaging-Guided Near-Infrared in vivo Cancer Therapy

Advances in the application of gold nanoparticles in bone tissue engineering

Gold Nanoparticles: A Powerful Tool to Visualize Proteins on Ordered Mesoporous Silica and for the Realization of Theranostic Nanobioconjugates

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