Single-Cell Quantification of Cytosine Modifications by Hyperspectral Dark-Field Imaging

Wang, Xiaolei; Cui, Yi; Irudayaraj, Joseph

doi:10.1021/acsnano.5b04451

Cited by 56 publications

(59 citation statements)

References 45 publications

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“…Dark-field imaging of the cryosectioned tissues were performed using a previously published protocol 29 . Briefly, a home-built hyperspectral dark-field microscope (HSDFM) was used for imaging the tissue sections 54 – 56 . The samples were illuminated using a tungsten halogen source (3900, Illumination technologies Inc.) and a CytoViva dark-field condenser (NA 1.2–1.4) with a fiber optic light guide.…”

Section: Methodsmentioning

confidence: 99%

Ultrasound beam steering of oxygen nanobubbles for enhanced bladder cancer therapy

Bhandari

Novikova

Goergen

et al. 2018

Sci Rep

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New intravesical treatment approaches for bladder cancer are needed as currently approved treatments show several side effects and high tumor recurrence rate. Our study used MB49 murine urothelial carcinoma model to evaluate oxygen encapsulated cellulosic nanobubbles as a novel agent for imaging and ultrasound guided drug delivery. In this study, we show that oxygen nanobubbles (ONB) can be propelled (up to 40 mm/s) and precisely guided in vivo to the tumor by an ultrasound beam. Nanobubble velocity can be controlled by altering the power of the ultrasound Doppler beam, while nanobubble direction can be adjusted to different desired angles by altering the angle of the beam. Precise ultrasound beam steering of oxygen nanobubbles was shown to enhance the efficacy of mitomycin-C, resulting in significantly lower tumor progression rates while using a 50% lower concentration of chemotherapeutic drug. Further, dark field imaging was utilized to visualize and quantify the ONB ex vivo. ONBs were found to localize up to 500 µm inside the tumor using beam steering. These results demonstrate the potential of an oxygen nanobubble drug encapsulated system to become a promising strategy for targeted drug delivery because of its multimodal (imaging and oxygen delivery) and multifunctional (targeting and hypoxia programming) properties.

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Section: Methodsmentioning

confidence: 99%

Ultrasound beam steering of oxygen nanobubbles for enhanced bladder cancer therapy

Bhandari

Novikova

Goergen

et al. 2018

Sci Rep

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“…It will occur when the natural frequency of the oscillating conduction electrons of the conductive metal nanoparticles matches the incident light frequency, causing resonant oscillations of electrons [23,26,27]. Currently, LSPR-based biosensors utilize the biomolecular interactions that lead to the change of the refractive index (RI) in the vicinity of the sensing surface to conduct the spontaneous detection, which is proved highly significant for diagnostic and point-of-care testing (POCT) purposes [21,28]. Especially for detecting the antibody-antigen interactions, any changes of RI could result in a sensitive response in the LSPR-induced light absorption spectrum, which is beneficial for quantitative analysis.…”

Section: Of 10mentioning

confidence: 99%

Real-Time Monitoring and Detection of Single-Cell Level Cytokine Secretion Using LSPR Technology

et al. 2020

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Cytokine secretion researches have been a main focus of studies among the scientists in the recent decades for its outstanding contribution to clinical diagnostics. Localized surface plasmon resonance (LSPR) technology is one of the conventional methods utilized to analyze these issues, as it could provide fast, label-free and real-time monitoring of biomolecule binding events. However, numerous LSPR-based biosensors in the past are usually utilized to monitor the average performance of cell groups rather than single cells. Meanwhile, the complicated sensor structures will lead to the fabrication and economic budget problems. Thus, in this paper, we report a simple synergistic integration of the cell trapping of microwell chip and gold-capped nanopillar-structured cyclo-olefin-polymer (COP) film for single cell level Interleukin 6 (IL-6) detection. Here, in-situ cytokine secreted from the trapped cell can be directly observed and analyzed through the peak red-shift in the transmittance spectrum. The fabricated device also shows the potential to conduct the real-time monitoring which would greatly help us identify the viability and biological variation of the tested single cell.

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“…on the left represent Hyperspectral dark-field imaging (HSDFI) of 5caC distribution, while the corresponding figs. on the right demonstrate reconstructed spectral maps of 5caC (scale bar = 5 μm) Reprinted with permission from [ 65 ] Copyright (2015) American Chemical Society …”

Section: Undertaking the Expedition: Tools For Quantifying Dna Methylmentioning

confidence: 99%

Technical advances in global DNA methylation analysis in human cancers

2017

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Prototypical abnormalities of genome-wide DNA methylation constitute the most widely investigated epigenetic mechanism in human cancers. Errors in the cellular machinery to faithfully replicate the global 5-methylcytosine (5mC) patterns, commonly observed during tumorigenesis, give rise to misregulated biological pathways beneficial to the rapidly propagating tumor mass but deleterious to the healthy tissues of the affected individual. A growing body of evidence suggests that the global DNA methylation levels could serve as utilitarian biomarkers in certain cancer types. Important breakthroughs in the recent years have uncovered further oxidized derivatives of 5mC - 5-hydroxymethylcytosine (5hmC), 5-formylcytosine (5fC) and 5-carboxylcytosine (5caC), thereby expanding our understanding of the DNA methylation dynamics. While the biological roles of these epigenetic derivatives are being extensively characterized, this review presents a perspective on the opportunity of innovation in the global methylation analysis platforms. While multiple methods for global analysis of 5mC in clinical samples exist and have been reviewed elsewhere, two of the established methods - Liquid Chromatography coupled with mass spectrometry (LC-MS/MS) and Immunoquantification have successfully evolved to include the quantitation of 5hmC, 5fC and 5caC. Although the analytical performance of LC-MS/MS is superior, the simplicity afforded by the experimental procedure of immunoquantitation ensures it’s near ubiquity in clinical applications. Recent developments in spectroscopy, nanotechnology and sequencing also provide immense promise for future evaluations and are discussed briefly. Finally, we provide a perspective on the current scenario of global DNA methylation analysis tools and present suggestions to develop the next generation toolset.

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Single-Cell Quantification of Cytosine Modifications by Hyperspectral Dark-Field Imaging

Cited by 56 publications

References 45 publications

Ultrasound beam steering of oxygen nanobubbles for enhanced bladder cancer therapy

Ultrasound beam steering of oxygen nanobubbles for enhanced bladder cancer therapy

Real-Time Monitoring and Detection of Single-Cell Level Cytokine Secretion Using LSPR Technology

Technical advances in global DNA methylation analysis in human cancers

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