Your search keyword '"Wenqiong Su"' showing total 5 results

1. SETD2 deficiency accelerates sphingomyelin accumulation and promotes the development of renal cancer

Author

Hanyu Rao, Changwei Liu, Aiting Wang, Chunxiao Ma, Yue Xu, Tianbao Ye, Wenqiong Su, Peijun Zhou, Wei-Qiang Gao, Li Li, and Xianting Ding

Subjects

Science

Abstract

Abstract Patients with polycystic kidney disease (PKD) encounter a high risk of clear cell renal cell carcinoma (ccRCC), a malignant tumor with dysregulated lipid metabolism. SET domain–containing 2 (SETD2) has been identified as an important tumor suppressor and an immunosuppressor in ccRCC. However, the role of SETD2 in ccRCC generation in PKD remains largely unexplored. Herein, we perform metabolomics, lipidomics, transcriptomics and proteomics within SETD2 loss induced PKD-ccRCC transition mouse model. Our analyses show that SETD2 loss causes extensive metabolic reprogramming events that eventually results in enhanced sphingomyelin biosynthesis and tumorigenesis. Clinical ccRCC patient specimens further confirm the abnormal metabolic reprogramming and sphingomyelin accumulation. Tumor symptom caused by Setd2 knockout is relieved by myriocin, a selective inhibitor of serine-palmitoyl-transferase and sphingomyelin biosynthesis. Our results reveal that SETD2 deficiency promotes large-scale metabolic reprogramming and sphingomyelin biosynthesis during PKD-ccRCC transition. This study introduces high-quality multi-omics resources and uncovers a regulatory mechanism of SETD2 on lipid metabolism during tumorigenesis.

Published

2023

2. Identification and Characterization of CD8+CD27+CXCR3− T Cell Dysregulation and Progression‐Associated Biomarkers in Systemic Lupus Erythematosus

Author

Lulu Zhang, Fang Du, Qiqi Jin, Li Sun, Boqian Wang, Ziyang Tan, Xinyu Meng, Baozhen Huang, Yifan Zhan, Wenqiong Su, Rui Song, Chunmei Wu, Luonan Chen, Xiaoxiang Chen, and Xianting Ding

Subjects

dynamic network biomarker, mass cytometry, single‐cell RNA sequencing, systemic lupus erythematosus, Science

Abstract

Abstract Systemic Lupus Erythematosus (SLE) etiopathogenesis highlights the contributions of overproduction of CD4+ T cells and loss of immune tolerance. However, the involvement of CD8+ T cells in SLE pathology and disease progression remains unclear. Here, the comprehensive immune cell dysregulation in total 263 clinical peripheral blood samples composed of active SLE (aSLE), remission SLE (rSLE) and healthy controls (HCs) is investigated via mass cytometry, flow cytometry and single‐cell RNA sequencing. This is observed that CD8+CD27+CXCR3− T cells are increased in rSLE compare to aSLE. Meanwhile, the effector function of CD8+CD27+CXCR3− T cells are overactive in aSLE compare to HCs and rSLE, and are positively associated with clinical SLE activity. In addition, the response of peripheral blood mononuclear cells (PBMCs) is monitored to interleukin‐2 stimulation in aSLE and rSLE to construct dynamic network biomarker (DNB) model. It is demonstrated that DNB score‐related parameters can faithfully predict the remission of aSLE and the flares of rSLE. The abundance and functional dysregulation of CD8+CD27+CXCR3− T cells can be potential biomarkers for SLE prognosis and concomitant diagnosis. The DNB score with accurate prediction to SLE disease progression can provide clinical treatment suggestions especially for drug dosage determination.

Published

2023

3. Highly sensitive and portable mRNA detection platform for early cancer detection

Author

Hongxia Li, Antony R. Warden, Wenqiong Su, Jie He, Xiao Zhi, Kan Wang, Laikuan Zhu, Guangxia Shen, and Xianting Ding

Subjects

Early-stage cancer detection, mRNA, Lateral flow assay, Point-of-care testing, Glypican-1, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Pancreatic cancer, at unresectable advanced stages, presents poor prognoses, which could be prevented by early pancreatic cancer diagnosis methods. Recently, a promising early-stage pancreatic cancer biomarker, extracellular vesicles (EVs) related glypican-1 (GPC1) mRNA, is found to overexpress in pancreatic cancer cells. Current mRNA detection methods usually require expensive machinery, strict preservation environments, and time-consuming processes to guarantee detection sensitivity, specificity, and stability. Herein, we propose a novel two-step amplification method (CHAGE) via the target triggered Catalytic Hairpin Assembly strategy combined with Gold-Enhanced point-of-care-testing (POCT) technology for sensitive visual detection of pancreatic cancer biomarker. First, utilizing the catalyzed hairpin DNA circuit, low expression of the GPC1 mRNA was changed into amplification product 1 (AP1, a DNA duplex) as the next detection targets of the paper strips. Second, the AP1 was loaded onto a lateral flow assay and captured with the gold signal nanoparticles to visualize results. Finally, the detected results can be further enhanced by depositing gold to re-enlarge the sizes of gold nanoparticles in detection zones. As a result, the CHAGE methodology lowers the detection limit of mRNA to 100 fM and provides results within 2 h at 37 °C. Furthermore, we demonstrate the successful application in discriminating pancreatic cancer cells by analyzing EVs’ GPC1 mRNA expression levels. Hence, the CHAGE methodology proposed here provides a rapid and convenient POCT platform for sensitive detection of mRNAs through unique probes designs (COVID, HPV, etc.).

Published

2021

4. Single-Cell Microwell Platform Reveals Circulating Neural Cells as a Clinical Indicator for Patients with Blood-Brain Barrier Breakdown

Author

Yu Zhang, Antony R. Warden, Khan Zara Ahmad, Yanlei Liu, Xijun He, Minqiao Zheng, Xinlong Huo, Xiao Zhi, Yuqing Ke, Hongxia Li, Sijia Yan, Wenqiong Su, Deng Cai, and Xianting Ding

Subjects

Science

Abstract

Central nervous system diseases commonly occur with the destruction of the blood-brain barrier. As a primary cause of morbidity and mortality, stroke remains unpredictable and lacks cellular biomarkers that accurately quantify its occurrence and development. Here, we identify NeuN+/CD45−/DAPI+ phenotype nonblood cells in the peripheral blood of mice subjected to middle cerebral artery occlusion (MCAO) and stroke patients. Since NeuN is a specific marker of neural cells, we term these newly identified cells as circulating neural cells (CNCs). We find that the enumeration of CNCs in the blood is significantly associated with the severity of brain damage in MCAO mice (p

Published

2021

5. A Review on Microfluidic Paper-Based Analytical Devices for Glucose Detection

Author

Shuopeng Liu, Wenqiong Su, and Xianting Ding

Subjects

microfluidic paper-based analytical devices (μPAD), glucose, colorimetric detection, electrochemical detection, Chemical technology, TP1-1185

Abstract

Glucose, as an essential substance directly involved in metabolic processes, is closely related to the occurrence of various diseases such as glucose metabolism disorders and islet cell carcinoma. Therefore, it is crucial to develop sensitive, accurate, rapid, and cost effective methods for frequent and convenient detections of glucose. Microfluidic Paper-based Analytical Devices (μPADs) not only satisfying the above requirements but also occupying the advantages of portability and minimal sample consumption, have exhibited great potential in the field of glucose detection. This article reviews and summarizes the most recent improvements in glucose detection in two aspects of colorimetric and electrochemical μPADs. The progressive techniques for fabricating channels on μPADs are also emphasized in this article. With the growth of diabetes and other glucose indication diseases in the underdeveloped and developing countries, low-cost and reliably commercial μPADs for glucose detection will be in unprecedentedly demand.

Published

2016