Your search keyword '"Wenwen Shao"' showing total 9 results

1. Single-cell RNA sequencing explored potential therapeutic targets by revealing the tumor microenvironment of neuroblastoma and its expression in cell death

Author

Lei Sun, Wenwen Shao, Zhiheng Lin, Jingheng Lin, Fu Zhao, and Juan Yu

Subjects

Neuroblastoma, Neuroendocrine cells, Single-cell sequencing, Important subgroups, New targets, Cell death, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Neuroblastoma (NB) is the most common extracranial solid tumor in childhood and is closely related to the early development and differentiation of neuroendocrine (NE) cells. The disease is mainly represented by high-risk NB, which has the characteristics of high mortality and difficult treatment. The survival rate of high-risk NB patients is not ideal. In this article, we not only conducted a comprehensive study of NB through single-cell RNA sequencing (scRNA-seq) but also further analyzed cuproptosis, a new cell death pathway, in order to find clinical treatment targets from a new perspective. Materials and Methods The Seurat software was employed to process the scRNA-seq data. This was followed by the utilization of GO enrichment analysis and GSEA to unveil pertinent enriched pathways. The inferCNV software package was harnessed to investigate chromosomal copy number variations. pseudotime analyses involved the use of Monocle 2, CytoTRACE, and Slingshot software. CellChat was employed to analyze the intercellular communication network for NB. Furthermore, PySCENIC was deployed to review the profile of transcription factors. Result Using scRNA-seq, we studied cells from patients with NB. NE cells exhibited superior specificity in contrast to other cell types. Among NE cells, C1 PCLAF + NE cells showed a close correlation with the genesis and advancement of NB. The key marker genes, cognate receptor pairing, developmental trajectories, metabolic pathways, transcription factors, and enrichment pathways in C1 PCLAF + NE cells, as well as the expression of cuproptosis in C1 PCLAF + NE cells, provided new ideas for exploring new therapeutic targets for NB. Conclusion The results revealed the specificity of malignant NE cells in NB, especially the key subset of C1 PCLAF + NE cells, which enhanced our understanding of the key role of the tumor microenvironment in the complexity of cancer progression. Of course, cell death played an important role in the progression of NB, which also promoted our research on new targets. The scrutiny of these findings proved advantageous in uncovering innovative therapeutic targets, thereby bolstering clinical interventions.

Published

2024

2. IGFBP7+ subpopulation and IGFBP7 risk score in astrocytoma: insights from scRNA-Seq and bulk RNA-Seq

Author

Liang Zhao, Wenwen Shao, Zhikai Xiahou, Li Ren, Chaobo Liu, Yanbing Song, Hao Xu, Zhihan Wang, and Jin Xing

Subjects

astrocytoma, scRNA-seq, bulk RNA-seq, C0 IGFBP7+ glioma cells, prognosis, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundGlioma is the predominant malignant brain tumor that lacks effective treatment options due to its shielding by the blood-brain barrier (BBB). Astrocytes play a role in the development of glioma, yet the diverse cellular composition of astrocytoma has not been thoroughly researched.MethodsWe examined the internal diversity of seven distinct astrocytoma subgroups through single-cell RNA sequencing (scRNA-seq), pinpointed crucial subgroups using CytoTRACE, monocle2 pseudotime analysis, and slingshot pseudotime analysis, employed various techniques to identify critical subgroups, and delved into cellular communication analysis. Then, we combined the clinical information of GBM patients and used bulk RNA sequencing (bulk RNA-seq) to analyze the prognostic impact of the relevant molecules on GBM patients, and we performed in vitro experiments for validation.ResultsThe analysis of the current study revealed that C0 IGFBP7+ Glioma cells were a noteworthy subpopulation of astrocytoma, influencing the differentiation and progression of astrocytoma. A predictive model was developed to categorize patients into high- and low-scoring groups based on the IGFBP7 Risk Score (IGRS), with survival analysis revealing a poorer prognosis for the high-IGRS group. Analysis of immune cell infiltration, identification of genes with differential expression, various enrichment analyses, assessment of copy number variations, and evaluation of drug susceptibility were conducted, all of which highlighted their significant influence on the prognosis of astrocytoma.ConclusionThis research enhances comprehension of the diverse cell composition of astrocytoma, delves into the various factors impacting the prognosis of astrocytoma, and offers fresh perspectives on treating glioma.

Published

2024

3. Single-cell RNA sequencing reveals that MYBL2 in malignant epithelial cells is involved in the development and progression of ovarian cancer

Author

Wenwen Shao, Zhiheng Lin, Zhikai Xiahou, Fu Zhao, Jue Xu, Xinqi Liu, and Pingping Cai

Subjects

ovarian cancer, neoadjuvant chemotherapy, omentum, epithelial cells, immune microenvironment, single-cell RNA sequencing, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundOvarian carcinoma (OC) is a prevalent gynecological malignancy associated with high recurrence rates and mortality, often diagnosed at advanced stages. Despite advances in immunotherapy, immune exhaustion remains a significant challenge in achieving optimal tumor control. However, the exploration of intratumoral heterogeneity of malignant epithelial cells and the ovarian cancer tumor microenvironment is still limited, hindering our comprehensive understanding of the disease.Materials and methodsUtilizing single-cell RNA sequencing (scRNA-seq), we comprehensively investigated the cellular composition across six ovarian cancer patients with omental metastasis. Our focus centered on analysis of the malignant epithelial cells. Employing CytoTRACE and slingshot pseudotime analyses, we identified critical subpopulations and explored associated transcription factors (TFs) influencing ovarian cancer progression. Furthermore, by integrating clinical factors from a large cohort of bulk RNA sequencing data, we have established a novel prognostic model to investigate the impact of the tumor immune microenvironment on ovarian cancer patients. Furthermore, we have investigated the condition of immunological exhaustion.ResultsOur study identified a distinct and highly proliferative subgroup of malignant epithelial cells, known as C2 TOP2A+ TCs. This subgroup primarily consisted of patients who hadn’t received neoadjuvant chemotherapy. Ovarian cancer patients with elevated TOP2A expression exhibited heightened sensitivity to neoadjuvant chemotherapy (NACT). Moreover, the transcription factor MYBL2 in this subgroup played a critical role in ovarian cancer development. Additionally, we developed an independent prognostic indicator, the TOP2A TCs Risk Score (TTRS), which revealed a correlation between the High TTRS Group and unfavorable outcomes. Furthermore, immune infiltration and drug sensitivity analyses demonstrated increased responsiveness to Paclitaxel, Cisplatin, and Gemcitabine in the Low TTRS Group.ConclusionThis research deepens our understanding of malignant epithelial cells in ovarian cancer and enhances our knowledge of the ovarian cancer immune microenvironment and immune exhaustion. We have revealed the heightened susceptibility of the C2 TOP2A+ TCs subgroup to neoadjuvant chemotherapy and emphasized the role of MYBL2 within the C2 subgroup in promoting the occurrence and progression of ovarian cancer. These insights provide valuable guidance for the management of ovarian cancer treatment.

Published

2024

4. Bioinspired Superwettable Catheters with Tunable Structural Color for Efficient Drug Release Monitoring

Author

Zhijun Jiang, Yufei Chen, Mingtian Xu, Wenwen Shao, Lihao Zhang, and Cihui Liu

Subjects

bioinspired, drug release monitoring, SLIPS, superwettability, tunable structural color, Physics, QC1-999, Technology

Abstract

Abstract Medical interventional catheters are indispensable medical devices that are continuing to reshape current practice in many specialties of clinical applications. However, there has been rapid development of catheters, it remains many challenges in antibiofilm and effective drug delivering. Inspired by natural creatures, a bioinspired superwettable catheter is developed which is constructed with inverse opal photonic crystals hydrogel. The superwettability property is achieved by creating a slippery liquid‐infused porous surface (SLIPS) where the motion state of droplets changes. The expansion and contraction of the hydrogel endow the catheter with tunable structural color and drug release properties. Thus, the catheter could not only report the variation of the drug release process via SLIPS phenomenon obviously but also quantitatively give feedback on the drug release process through visually structural color variations. The multifunctional superwettable catheter shows good antibacterial performance and can be used for drug release monitoring which has excellent prospects in biomedical applications.

Published

2023

5. Research on Artistic Design Methods for Chinese Traditional Font Elements Based on AIGC Technology.

Author

Chuhua Ma, Bingnan Pang, Wenwen Shao, and Tiantian Chen

Published

2024

6. Bioinspired conductive structural color hydrogels as a robotic knuckle rehabilitation electrical skin

Author

Wenwen Shao, Lihao Zhang, Zhijun Jiang, Mingtian Xu, Yufei Chen, Sunlong Li, and Cihui Liu

Subjects

Excipients, Wearable Electronic Devices, Robotic Surgical Procedures, Electric Conductivity, Humans, Hydrogels, General Materials Science, Robotics

Abstract

Electronic skins have attracted significant research interest in the biomedical engineering field including wearable devices, artificial prostheses, software robots, and so on. However, the integration of electronic skin for use in rehabilitation exercise remains unexplored. Here, we propose a novel, conductive structurally colored composite hydrogel for use as a robotic knuckle rehabilitation skin. It was found that the composite structure has an obvious color variation and electromechanical properties during the bending process. Therefore, this film could be used as a multi-signal response electronic skin to achieve real-time color sensing and electrical response, as well as for the human knuckle rehabilitation robot. These results indicated that the structurally colored composite hydrogels are valuable for use in many practical biomedical rehabilitation exercises where they are used as an electronic skin to give real-time color sensing and electrical response, and as well can be used in a human knuckle rehabilitation robot.

Published

2022

7. Biomimicking Integrates Peristome Surface of Nepenthes Alata Onto Biliary Stents Tips

Author

Mingtian Xu, Zhengjie Xu, Zhijun Jiang, Wenwen Shao, Lihao Zhang, Yufei Chen, Zhixia Dong, Cihui Liu, Weixing Zhang, and Xinjian Wan

Subjects

General Chemical Engineering, Environmental Chemistry, General Chemistry, Industrial and Manufacturing Engineering

Published

2022

8. Graphene-based fully integrated portable nanosensing system for on-line detection of cytokine biomarkers in saliva

Author

Wenwen Shao, Qiao Lin, Zhuang Hao, Yunlu Pan, and Xuezeng Zhao

Subjects

Saliva, Transistors, Electronic, Computer science, Population, Biomedical Engineering, Biophysics, Nanotechnology, Biosensing Techniques, 02 engineering and technology, 01 natural sciences, Signal, law.invention, Limit of Detection, law, Electrochemistry, Humans, education, education.field_of_study, Interleukin-6, Graphene, 010401 analytical chemistry, Oxides, Equipment Design, General Medicine, Aptamers, Nucleotide, 021001 nanoscience & nanotechnology, Line (electrical engineering), 0104 chemical sciences, Dielectric layer, Cytokines, Graphite, Signal processing circuits, Smartphone, 0210 nano-technology, Wireless Technology, Biomarkers, Hafnium, Biotechnology

Abstract

Saliva has been reported to contain various cytokine biomarkers which are associated with some severe diseases such as cancers. Non-invasive saliva diagnosis using wearable or portable devices may pave a new avenue for monitoring conditions of the high risk population. Here, a graphene-based fully integrated portable nanosensing system, the entire size of which is smaller than a smart-phone and can be handheld, is presented for on-line detection of cytokine biomarkers in saliva. This miniaturized system employs an aptameric graphene-based field effect transistor (GFET) using a buried-gate geometry with HfO2 as the dielectric layer and on-line signal processing circuits to realize the transduction and processing of signals which reflect cytokine concentrations. The signal can be wirelessly transmitted to a smart-phone or cloud sever through the Wi-Fi connection for visualizing the trend of the cytokine concentration change. Interleukin-6 (IL-6) is used as a representative to examine the sensing capability of the system. Experimental results demonstrate that the nanosensing system responds to the change of IL-6 concentration within 400s in saliva with a detection limit down to 12 pM. Therefore, this portable system offers the practicality to be potentially used for non-invasive saliva diagnosis of diseases at early stage.

Published

2019

9. Effect of bottom electrodes on the dielectric properties of barium strontium titanate thin films

Author

Wenwen Shao, Min Li, Chun Hui, Huichun Yu, and Ailan Xu

Subjects

Permittivity, Materials science, Annealing (metallurgy), Metals and Alloys, Analytical chemistry, Mineralogy, Surfaces and Interfaces, Dielectric, Microstructure, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, chemistry, Materials Chemistry, Strontium titanate, Dissipation factor, Thin film, Perovskite (structure)

Abstract

Barium strontium titanate (Ba0.5Sr0.5TiO3, BST) thin films were prepared on Pt/Ti/SiO2/Si and Pt/Cr/SiO2/Si substrates by sol–gel method. The effects of Pt/Ti and Pt/Cr bottom electrodes on the microstructure and dielectric properties of BST thin films were studied. The X-ray diffraction patterns show that both these films crystallize into a perovskite structure. The atomic force micrographs indicate that the films using Pt/Ti and Pt/Cr as bottom electrodes have different grain distributions and grain sizes. The dielectric constant of the films using Pt/Cr as bottom electrodes decreases significantly and the loss tangent and tunability decrease slightly. However, the figure of merit of the films using Pt/Cr as bottom electrodes still increases from 24.3 to 27.6.

Published

2005