Your search keyword '"Yan-chang Sun"' showing total 4 results

1. Effects of frequency and confining pressure on consolidation drainage behavior of soft marine clays

Author

Jie Yin, Jian-Fei Lu, Rui-Bing Li, Yong-hong Miao, Yan-Chang Sun, and Fan-Bo Zhou

Subjects

Consolidation (soil), 010505 oceanography, Harmonic load, 0211 other engineering and technologies, Ocean Engineering, 02 engineering and technology, Geotechnical Engineering and Engineering Geology, Oceanography, Overburden pressure, 01 natural sciences, Geotechnical engineering, Drainage, Geology, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences

Abstract

This article presents an experimental investigation on the dynamic consolidation (DC) drainage behavior of soft marine clays. A sinusoidal harmonic load with different frequencies was applied to si...

Published

2018

2. Diagnosis and surgical treatment of patients with solitary pulmonary nodules

Author

Zhi-fei Xu, Hua Tang, Yan-chang Sun, Li-hui Wu, Xue-wei Zhao, Jian-qiu Li, and Song-hua Lu

Subjects

medicine.medical_specialty, business.industry, medicine, General Medicine, Radiology, Surgical treatment, business

Published

2010

3. MiR-181b sensitizes glioma cells to teniposide by targeting MDM2.

Author

Yan-chang Sun, Jing Wang, Cheng-cheng Guo, Ke Sai, Jian Wang, Fu-rong Chen, Qun-ying Yang, Yin-sheng Chen, Jie Wang, Tony Shing-shun To, Zong-ping Zhang, Yong-gao Mu, and Zhong-ping Chen

Subjects

*GLIOMA treatment, *MICRORNA, *CANCER chemotherapy, *CANCER invasiveness, *DRUG resistance

Abstract

Background: Although the incidence of glioma is relatively low, it is the most malignant tumor of the central nervous system. The prognosis of high-grade glioma patient is very poor due to the difficulties in complete resection and resistance to radio-/chemotherapy. Therefore, it is worth investigating the molecular mechanisms involved in glioma drug resistance. MicroRNAs have been found to play important roles in tumor progression and drug resistance. Our previous work showed that miR-181b is involved in the regulation of temozolomide resistance. In the current study, we investigated whether miR-181b also plays a role in antagonizing the effect of teniposide. Methods: MiR-181b expression was measured in 90 glioma patient tissues and its relationship to prognosis of these patients was analyzed. Cell sensitivity to teniposide was tested in 48 primary cultured glioma samples. Then miR-181b stably overexpressed U87 cells were generated. The candidate genes of miR-181b from our previous study were reanalyzed, and the interaction between miR-181b and target gene MDM2 was confirmed by dual luciferase assay. Cell sensitivity to teniposide was detected on miR-181b over expressed and MDM2 down regulated cells. Results: Our data confirmed the low expression levels of miR-181b in high-grade glioma tissues, which is related to teniposide resistance in primary cultured glioma cells. Overexpression of miR-181b increased glioma cell sensitivity to teniposide. Through target gene prediction, we found that MDM2 is a candidate target of miR-181b. MDM2 knockdown mimicked the sensitization effect of miR-181b. Further study revealed that miR-181b binds to the 3'-UTR region of MDM2 leading to the decrease in MDM2 levels and subsequent increase in teniposide sensitivity. Partial restoration of MDM2 attenuated the sensitivity enhancement by miR-181b. Conclusions: MiR-181b is an important positive regulator on glioma cell sensitivity to teniposide. It confers glioma cell sensitivity to teniposide through binding to the 3'-UTR region of MDM2 leading to its reduced expression. Our findings not only reveal the novel mechanism involved in teniposide resistance, but also shed light on the optimization of glioma treatment in the future. [ABSTRACT FROM AUTHOR]

Published

2014

4. MiR-181b sensitizes glioma cells to teniposide by targeting MDM2

Author

Yin Sheng Chen, Ke Sai, Qun Ying Yang, Zhongping Chen, Furong Chen, Jing Wang, Jian Wang, Yan chang Sun, Jie Wang, Zong ping Zhang, Cheng cheng Guo, Yong Gao Mu, and Tony Shing Shun To

Subjects

Cancer Research, miR-181b, Mouse double minute 2 homolog (MDM2), Cell Line, Tumor, Glioma, microRNA, Biomarkers, Tumor, Tumor Cells, Cultured, medicine, Genetics, Humans, neoplasms, Teniposide, Gene knockdown, Temozolomide, biology, business.industry, Proto-Oncogene Proteins c-mdm2, Prognosis, medicine.disease, Gene Expression Regulation, Neoplastic, MicroRNAs, Oncology, Drug Resistance, Neoplasm, Tumor progression, biology.protein, Cancer research, Mdm2, Stem cell, business, Research Article, medicine.drug

Abstract

Background Although the incidence of glioma is relatively low, it is the most malignant tumor of the central nervous system. The prognosis of high-grade glioma patient is very poor due to the difficulties in complete resection and resistance to radio-/chemotherapy. Therefore, it is worth investigating the molecular mechanisms involved in glioma drug resistance. MicroRNAs have been found to play important roles in tumor progression and drug resistance. Our previous work showed that miR-181b is involved in the regulation of temozolomide resistance. In the current study, we investigated whether miR-181b also plays a role in antagonizing the effect of teniposide. Methods MiR-181b expression was measured in 90 glioma patient tissues and its relationship to prognosis of these patients was analyzed. Cell sensitivity to teniposide was tested in 48 primary cultured glioma samples. Then miR-181b stably overexpressed U87 cells were generated. The candidate genes of miR-181b from our previous study were reanalyzed, and the interaction between miR-181b and target gene MDM2 was confirmed by dual luciferase assay. Cell sensitivity to teniposide was detected on miR-181b over expressed and MDM2 down regulated cells. Results Our data confirmed the low expression levels of miR-181b in high-grade glioma tissues, which is related to teniposide resistance in primary cultured glioma cells. Overexpression of miR-181b increased glioma cell sensitivity to teniposide. Through target gene prediction, we found that MDM2 is a candidate target of miR-181b. MDM2 knockdown mimicked the sensitization effect of miR-181b. Further study revealed that miR-181b binds to the 3’-UTR region of MDM2 leading to the decrease in MDM2 levels and subsequent increase in teniposide sensitivity. Partial restoration of MDM2 attenuated the sensitivity enhancement by miR-181b. Conclusions MiR-181b is an important positive regulator on glioma cell sensitivity to teniposide. It confers glioma cell sensitivity to teniposide through binding to the 3’-UTR region of MDM2 leading to its reduced expression. Our findings not only reveal the novel mechanism involved in teniposide resistance, but also shed light on the optimization of glioma treatment in the future.