Meng Yang scite author profile

Anisotropic colloidal hybrid nanoparticles exhibit superior optical and physical properties compared to their counterparts with regular architectures. We herein developed a controlled, stepwise strategy to build novel, anisotropic, branched, gold nanoarchitectures (Au-tripods) with predetermined composition and morphology for bioimaging. The resultant Au-tripods with size less than 20 nm showed great promise as contrast agents for in vivo photoacoustic imaging (PAI). We further identified Au-tripods with two possible configurations as high-absorbance nanomaterials from various gold multipods using a numerical simulation analysis. The PAI signals were linearly correlated with their concentrations after subcutaneous injection. The in vivo biodistribution of Au-tripods favorable for molecular imaging was confirmed using small animal positron emission tomography (PET). Intravenous administration of cyclic Arg-Gly-Asp-d-Phe-Cys (RGDfC) peptide conjugated Au-tripods (RGD-Au-tripods) to U87MG tumor-bearing mice showed PAI contrasts in tumors almost 3-fold higher than for the blocking group. PAI results correlated well with the corresponding PET images. Quantitative biodistribution data revealed that 7.9% ID/g of RGD-Au-tripods had accumulated in the U87MG tumor after 24 h post-injection. A pilot mouse toxicology study confirmed that no evidence of significant acute or systemic toxicity was observed in histopathological examination. Our study suggests that Au-tripods can be reliably synthesized through stringently controlled chemical synthesis and could serve as a new generation of platform with high selectivity and sensitivity for multimodality molecular imaging.

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Identification of an aptamer targeting hnRNP A1 by tissue slide‐based SELEX

Li¹,

Xu²,

Ding³

et al. 2009

The Journal of Pathology

141

122

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We report a new in situ tissue slide-based SELEX strategy targeting neoplastic tissues from breast cancer patients. The methodology, using the molecular differences between clinical specimens, can evolve aptamers to all fractions of tissue. The aptamers may be used as new molecular probes for pathological diagnosis and tumour imaging, and also to reveal the molecular differences that are responsible for the diseases. The specific aptamers were enriched by unequal length strand PCR employing a structured (-) strand primer. After 12 rounds of selection, using the paraffin tissue sections from infiltrating ductal carcinomas as targets, and using the adjacent normal tissue from the same case as controls, one of the enriched ssDNA aptamers, BC15, was selected from a nucleic acid library and characterized as recognizing breast cancer cells either within the tissue sections or from the culture medium, but only weakly binding to adjacent normal cells or immortalized breast cell line MCF10A. The calculated equilibrium dissociation constants (K(d)) of BC15 bound to MCF7 cells was 111.0 +/- 36.9 nM. Through streptavidin magnetic beads mediated affinity purification assay followed by mass spectrometry identification and western blot confirmation, the target of BC15 was characterized to be hnRNP A1, which was further verified to be specifically and highly expressed in cancerous tissues of breast by hnRNP A1 antibody immunostaining as well as western blot. BC15 aptamer was also used to probe cancer cells in tissues from other pathological types of breast cancers including lobular carcinoma, ductal carcinoma complicated with lobular carcinoma, comedo carcinoma, and lymph node metastasis of breast ductal carcinoma origin or breast lobular carcinoma origin. Therefore, tissue slide-based SELEX holds promise in identifying tumour markers and developing specific molecular probes for cancer diagnosis.

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Synthesis, Characterization, and Biomedical Applications of a Targeted Dual-Modal Near-Infrared-II Fluorescence and Photoacoustic Imaging Nanoprobe

et al. 2017

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Our development of multifunctional dual-modal imaging probes aims to integrate the benefits from both second near-infrared (NIR-II) fluorescence (1000-1700 nm) and photoacoustic imaging with an ultimate goal of improving overall cancer diagnosis efficacy. Herein we designed a donor-acceptor chromophore based nanoparticle (DAP) as a dual-modal image contrast agent has strong absorption in the NIR-I window and a strong fluorescence emission peak in the NIR-II region. The dual-modal DAPs composed of D-π-A-π-D-type chromophores were PEGylated through nanoprecipitation. The multifunctional DAP surface was thus available for subsequent bioconjugation of EGFR Affibody (Ac-Cys-Z) to target EGFR-positive cancers. The Affibody-conjugated DAPs appeared as highly monodisperse nanoparticles (∼30 nm) with strong absorption in the NIR-I window (at ca. 680 nm) and an extremely high fluorescence in the NIR-II region (maximum peak at 1000 nm). Consequently, the Affibody-DAPs show significantly enhanced photoacoustic and NIR-II fluorescence contrast effects in both in vitro and in vivo experiments. Moreover, the Affibody-DAPs have the capability to selectively target EGFR-positive tumors in an FTC-133 subcutaneous mouse model with relatively high photoacoustic and fluorescent signals. By taking advantage of high spatial resolution and excellent temporal resolution, photoacoustic/NIR-II fluorescence imaging with targeted dual-modal contrast agents allows us to specifically image and detect various cancers and diseases in an accurate manner.

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High-fat diet fuels prostate cancer progression by rewiring the metabolome and amplifying the MYC program

et al. 2019

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Systemic metabolic alterations associated with increased consumption of saturated fat and obesity are linked with increased risk of prostate cancer progression and mortality, but the molecular underpinnings of this association are poorly understood. Here, we demonstrate in a murine prostate cancer model, that high-fat diet (HFD) enhances the MYC transcriptional program through metabolic alterations that favour histone H4K20 hypomethylation at the promoter regions of MYC regulated genes, leading to increased cellular proliferation and tumour burden. Saturated fat intake (SFI) is also associated with an enhanced MYC transcriptional signature in prostate cancer patients. The SFI-induced MYC signature independently predicts prostate cancer progression and death. Finally, switching from a high-fat to a low-fat diet, attenuates the MYC transcriptional program in mice. Our findings suggest that in primary prostate cancer, dietary SFI contributes to tumour progression by mimicking MYC over expression, setting the stage for therapeutic approaches involving changes to the diet.

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Food Matrix Affecting Anthocyanin Bioavailability: Review

Yang

Koo

Song

et al. 2011

CMC

140

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Anthocyanins, abundant in deep-colored fruits and vegetables, have received considerable attention due to their potential health benefits. However, the bioavailability of anthocyanins is relatively low compared to that of other flavonoids. While previous reviews focused on the absorption, metabolism and excretion of anthocyanins, little information is available on the effects of food matrix on anthocyanin bioavailability, particularly food matrices of the usual diet. The present review includes the recent studies on interactive effects of anthocyanins and certain food components. Evidence suggests that the bioavailability of anthocyanins varies markedly depending on food matrices, including other antioxidants and macronutrients present in foods consumed, which consequently affects the absorption and antioxidant capacity of anthocyanins. Further studies are needed to gain insight into the mechanisms underlying the interactive effects of anthocyanins and food components in their bioavailability and antioxidant capacity of anthocyanins at the physiological level.

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Long noncoding RNA CCHE1 promotes cervical cancer cell proliferation via upregulating PCNA

Yang

Xia

et al. 2015

Tumor Biol.

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Long noncoding RNAs (lncRNAs) have been shown to play important roles in carcinogenesis and progression. However, the roles and functional mechanisms of lncRNAs in cervical cancer remain largely unknown. In this study, we found that cervical carcinoma high-expressed lncRNA 1 (lncRNA-CCHE1) was significantly upregulated in cervical cancer tissues. The higher expression of CCHE1 was significantly correlated with large tumor size, advanced Federation of Gynecology and Obstetrics stage, uterine corpus invasion, and poor survival. Gain-of-function and loss-of-function experiments demonstrated that CCHE1 overexpression promotes the proliferation of cervical cancer cell. By contrast, the depletion of CCHE1 inhibits the proliferation of cervical cancer cells. RNA pull-down assays confirmed that CCHE1 physically associates with proliferating cell nuclear antigen (PCNA) messenger RNA, consequently enhances the expression of PCNA. The expression of CCHE1 and PCNA is significantly correlated in cervical cancer tissues. The depletion of PCNA abolishes the effects of CCHE1 on the proliferation of cervical cancer cells. Taken together, these findings indicate that CCHE1 plays a pivotal role in cervical cancer cell proliferation via increasing PCNA expression and serves as a potential prognostic biomarker and therapeutic target in human cervical cancer.

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Affibody modified and radiolabeled gold–Iron oxide hetero-nanostructures for tumor PET, optical and MR imaging

et al. 2013

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A highly monodispersed hetero-nanostructure with two different functional nanomaterials (gold (Au) and iron oxide (Fe3O4, IO)) within one structure was successfully developed as Affibody based trimodality nanoprobe (positron emission tomography, PET; optical imaging; and magnetic resonance imaging, MRI) for imaging of epidermal growth factor receptor (EGFR) positive tumors. Unlike other regular nanostructures with a single component, the Au-IO hetero-nanostructures (Au-IONPs) with unique chemical and physical properties have capability to combine several imaging modalities together to provide complementary information. The IO component within hetero-nanostructures serve as a T2 reporter for MRI; and gold component serve as both optical and PET reporters. Moreover, such hetero-nanoprobes could provide a robust nano-platform for surface-specific modification with both targeting molecules (anti-EGFR Affibody protein) and PET imaging reporters (radiometal 64Cu chelators) in highly efficient and reliable manner. In vitro and in vivo study showed that the resultant nanoprobe provided high specificity, sensitivity, and excellent tumor contrast for both PET and MRI imaging in the human EGFR-expressing cells and tumors. Our study data also highlighted the EGFR targeting efficiency of hetero-nanoparticles and the feasibility for their further theranostic applications.

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Meng Yang

Novel benzo-bis(1,2,5-thiadiazole) fluorophores for in vivo NIR-II imaging of cancer

Construction and Validation of Nano Gold Tripods for Molecular Imaging of Living Subjects

Identification of an aptamer targeting hnRNP A1 by tissue slide‐based SELEX

Synthesis, Characterization, and Biomedical Applications of a Targeted Dual-Modal Near-Infrared-II Fluorescence and Photoacoustic Imaging Nanoprobe

High-fat diet fuels prostate cancer progression by rewiring the metabolome and amplifying the MYC program

Food Matrix Affecting Anthocyanin Bioavailability: Review

Long noncoding RNA CCHE1 promotes cervical cancer cell proliferation via upregulating PCNA

Affibody modified and radiolabeled gold–Iron oxide hetero-nanostructures for tumor PET, optical and MR imaging

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