The Multifarious Applications of Copper Nanoclusters in Biosensing and Bioimaging and Their Translational Role in Early Disease Detection

Busi, Kumar Babu; Palanivel, Mathangi; Ghosh, Krishna; Ball, Writoban Basu; Gulyás, Balázs; Padmanabhan, Parasuraman; Chakrabortty, Sabyasachi

doi:10.3390/nano12030301

Cited by 22 publications

(16 citation statements)

References 120 publications

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“…Optical imaging is one of the most important real-time imaging techniques that has been widely used for the non-invasive detection of molecular events in both living cells and in vivo tissues due to its advantages of simple operation, relatively high spatiotemporal resolution, and low cost. , To evaluate and clarify the tumor-targeted ability and biodistribution of the new targeted nanocarrier c(RGDyK)-HAase-IONP in vivo, the ICG-labeled nanocarriers were administered to the MC38 tumor-bearing mice via the tail vein. Then in vivo imaging was performed at 24 h postinjection (p.i.).…”

Section: Resultsmentioning

confidence: 99%

Targeted Nanodrugs to Destroy the Tumor Extracellular Matrix Barrier for Improving Drug Delivery and Cancer Therapeutic Efficacy

Chen

Xia

et al. 2023

Mol. Pharmaceutics

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One of the main reasons why most cancer patients do not respond well to chemotherapy is that drugs cannot accumulate in tumors at an optimal dose, eventually resulting in failure to prevent cancer cell growth. To improve drug delivery efficiency, we engineered a highly efficient tumor-targeted and stroma-breaking nanocarrier by the modification of iron oxide nanoparticles (IONPs) with a tumor-targeting peptide c(RGDyK) and a hyaluronidase (HAase) on the surface. The yielding nanocomplex, c(RGDyK)-HAase-IONP, targeted the tumor by binding integrin αvβ3 and went deeply into the tumors by the degradation of hyaluronic acid (HA), which was highly expressed in the tumor extracellular matrix (ECM). Good biostability and a low pH preferred drug release profile were characterized for c(RGDyK)-HAase-IONP carrying DOX in vitro. c(RGDyK)-HAase-IONP showed an improved tumor-targeting (2.5 times higher) effect after intravenous injection in the MC38 tumor-bearing mice model, as determined by whole-body fluorescence imaging compared to the non-targeted IONPs without HAase. After 5 systemic treatments, c(RGDyK)-HAase-IONP/DOX (5 mg/kg of equivalent dose of DOX) significantly inhibited MC38 tumor growth (22.1 ± 7.4 times relative to the non-treated group). Elevated apoptosis and reduced proliferation in the tumor cell were detected in the c(RGDyK)-HAase-IONP/DOX treated tumors compared to the control groups. Overall, the highly efficient targeted nanocarrier c(RGDyK)-HAase-IONP demonstrated tremendous potency for improving drug delivery and tumor therapy efficacy by targeted degradation of the dense HA barrier in the tumor ECM. We determined that such a tumor stroma–degrading nanosystem was capable of reducing tumor recurrence and drug resistance and could ultimately improve clinical tumor treatment responses.

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Section: Resultsmentioning

confidence: 99%

Targeted Nanodrugs to Destroy the Tumor Extracellular Matrix Barrier for Improving Drug Delivery and Cancer Therapeutic Efficacy

Chen

Xia

et al. 2023

Mol. Pharmaceutics

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“…Bioimaging and biosensing are essential technologies for visualizing biological structures and quantifying biological samples . A multitude of studies describe the application of SBBMs in biological imaging and biosensors. , These materials can utilize various imaging sources, including fluorescence, electronics, magnetic resonance imaging, Raman spectrum, X-ray, ultrasound, and others. − Recent advances have demonstrated the potential of SBBMs in these fields (Figure ). ,,, …”

Section: Biomedical Applications Of Sbbmsmentioning

confidence: 99%

“…136,149,170,171 Noble metal nanoclusters have attracted considerable attention for their unique optical properties, making them ideal for fluorescence imaging applications. 169 In particular, Gao et al utilized the one-pot method to mineralize fluorescent Ag nanoclusters (AgNCs) into the derived peptide from the C-terminus of the SF H-chain (CSH) for cellular imaging (Figure 7i). 171 After incubation of the AgNCs with murine MC3T3-E1 cells for 2 h, they exhibited significant fluorescence emission in the live cells.…”

Section: Biomedical Applications Of Sbbmsmentioning

confidence: 99%

Silk Protein-Mediated Biomineralization: From Bioinspired Strategies and Advanced Functions to Biomedical Applications

Cheng

et al. 2023

ACS Appl. Mater. Interfaces

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Biomineralization refers to the process through which minerals nucleate in a structured manner to form specific crystal structures by the regulating of biomacromolecules. Biomineralization occurs in bones and teeth within the human body, where collagen acts as a template for the nucleation of hydroxyapatite (HA) crystals. Similar to collagen, silk proteins spun by silkworms can also serve as templates for the nucleation and growth of inorganic substances at interfaces. By enabling the binding of silk proteins to inorganic minerals, the process of biomineralization enhances the properties of silk-based materials and broadens their potential applications, rendering them highly promising for use in biomedical applications. In recent years, the development of biomineralized materials using silk proteins has garnered considerable attention in the biomedical field. This comprehensive review outlines the mechanism of biomineral formation mediated by silk proteins, as well as various biomineralization methods used to prepare silk-based biomineralized materials (SBBMs). Additionally, we discuss the physicochemical properties and biological functions of SBBMs, and their potential applications in various fields such as bioimaging, cancer therapy, antibacterial treatments, tissue engineering, and drug delivery. In conclusion, this review highlights the significant role that SBBMs can play in the biomedical field.

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“…According to the World Health Organization (WHO), an estimated 19.3 million new cases of cancer were diagnosed and 10 million individuals died from this disease (∼2018), as shown in Figure . − Surgery, chemotherapy, and radiotherapy are some of the most common therapies presently. Those conventional therapies have the drawback of not being able to eradicate all cancer cells entirely and causing further damage to healthy tissues around the tumor. − Cancer-related mortality can be reduced by early detection and bioimaging of cancer because early detection of cancer indicators improves treatment success and patient survival . A number of analytical approaches have been developed in order to detect and diagnose tumors in cancer patients. − Further, predictive medical solutions for individual patients are enabling a transition from reactive to proactive approaches in medicine and healthcare.…”

Section: Introductionmentioning

confidence: 99%

“…46−48 Cancer-related mortality can be reduced by early detection and bioimaging of cancer because early detection of cancer indicators improves treatment success and patient survival. 49 A number of analytical approaches have been developed in order to detect and diagnose tumors in cancer patients. 50−52 Further, predictive medical solutions for individual patients are enabling a transition from reactive to proactive approaches in medicine and healthcare.…”

Section: Introductionmentioning

confidence: 99%

Recent Progress and Perspective of an Evolving Carbon Family From 0D to 3D: Synthesis, Biomedical Applications, and Potential Challenges

Khalid

Arshad

et al. 2023

ACS Appl. Bio Mater.

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A variety of imaging techniques are available for detecting biological processes with sufficient penetration depth and temporal resolution. However, inflammation, cardiovascular, and cancer-related disorders might be difficult to diagnose with typical bioimaging methods because of the lack of resolution in the imaging of deep tissues. Therefore, nanomaterials are the most promising candidate to overcome this hurdle. This review is on the utilization of carbon-based nanomaterials (CNMs), ranging from zero-dimension (0D) to three-dimension (3D), in the development of fluorescence (FL) imaging, photoacoustic imaging (PAI), and biosensing for the early detection of cancer. Nanoengineered CNMs, such as graphene, carbon nanotubes (CNTs), and functional carbon quantum dots (QDs), are being further studied for multimodal biometrics and targeted therapy. CNMs have many advantages over conventional dyes in FL sensing and imaging, including clear emission spectra, long photostability, low cost, and high FL intensity. Nanoprobe production, mechanical illustrations, and diagnostic therapeutic applications are the key areas of focus. The bioimaging technique has facilitated a greater understanding of the biochemical events underlying multiple disease etiologies, consequently facilitating disease diagnosis, evaluation of therapeutic efficacy, and drug development. This review may lead to the development of interdisciplinary research in bioimaging and sensing as well as possible future concerns for researchers and medical physicians.

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The Multifarious Applications of Copper Nanoclusters in Biosensing and Bioimaging and Their Translational Role in Early Disease Detection

Cited by 22 publications

References 120 publications

Targeted Nanodrugs to Destroy the Tumor Extracellular Matrix Barrier for Improving Drug Delivery and Cancer Therapeutic Efficacy

Targeted Nanodrugs to Destroy the Tumor Extracellular Matrix Barrier for Improving Drug Delivery and Cancer Therapeutic Efficacy

Silk Protein-Mediated Biomineralization: From Bioinspired Strategies and Advanced Functions to Biomedical Applications

Recent Progress and Perspective of an Evolving Carbon Family From 0D to 3D: Synthesis, Biomedical Applications, and Potential Challenges

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