Your search keyword '"Zuyu Liang"' showing total 4 results

1. Correction to: KIF5B-RET fusion kinase promotes cell growth by multilevel activation of STAT3 in lung cancer

Author

Yingying Qian, Shoujie Chai, Zuyu Liang, Yongfang Wang, You Zhou, Xia Xu, Chenchen Zhang, Min Zhang, Jingxing Si, Feiteng Huang, Zhangdan Huang, Wei Hong, and Kai Wang

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

After the publication of this work [1],

Published

2019

2. Correction to: KIF5B-RET fusion kinase promotes cell growth by multilevel activation of STAT3 in lung cancer

Author

You Zhou, Min Zhang, Zuyu Liang, Xia Xu, Shoujie Chai, Kai Wang, Yongfang Wang, Chenchen Zhang, Zhangdan Huang, Wei Hong, Yingying Qian, Feiteng Huang, and Jingxing Si

Subjects

STAT3 Transcription Factor, Cancer Research, Oncogene Proteins, Fusion, Biology, lcsh:RC254-282, Translocation, Genetic, Mice, Text mining, Carcinoma, Non-Small-Cell Lung, medicine, Animals, Humans, Lung cancer, STAT3, Cell Proliferation, Cell growth, Kinase, business.industry, Proto-Oncogene Proteins c-ret, Correction, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, Xenograft Model Antitumor Assays, Cell Transformation, Neoplastic, Oncology, Cancer research, biology.protein, Molecular Medicine, RET Fusion, business

Abstract

Lung cancer in nonsmokers tends to be driven by a single somatic mutation or a gene fusion. KIF5B-RET fusion is an oncogene identified in non-small cell lung cancers. In this study, we verified the oncogenic activity of KIF5B-RET fusion and investigated how KIF5B-RET activates the specific signaling pathways for cellular transformation. We aimed to provide a basis for the further development of the therapy for KIF5B-RET positive lung cancer patients.RT-PCR was used to screen for KIF5B-RET fusions in Chinese lung cancer patients. To verify the oncogenic activity of KIF5B-RET kinase in lung cancer cells, we manipulated its expression genetically followed by colony formation and tumor formation assays. The mechanism by which KIF5B-RET kinase induces proliferation was investigated by western blot, coimmunoprecipitation, and administration of RET, MAPK and STAT3 inhibitors.Our study identified a KIF5B-RET fusion in Chinese NSCLC patients and demonstrated that KIF5B-RET transfected cells showed a significantly increased proliferation rate and colony-forming ability. Furthermore, we found that KIF5B-RET fusion kinase induced multilevel activation of STAT3 at both Tyr705 and Ser727, and KIF5B-RET-STAT3 signaling related inhibitors repressed the proliferation and tumorigenicity of lung cancer cells significantly.Our data suggest that KIF5B-RET promotes the cell growth and tumorigenicity of non-small cell lung cancers through multilevel activation of STAT3 signaling, providing possible strategies for the treatment of KIF5B-RET positive lung cancers.

Published

2019

3. KIF5B-RET fusion kinase promotes cell growth by multilevel activation of STAT3 in lung cancer

Author

You Zhou, Zuyu Liang, Xia Xu, Yongfang Wang, Chenchen Zhang, Jingxing Si, Zhangdan Huang, Feiteng Huang, Yingying Qian, Shoujie Chai, Wei Hong, Min Zhang, and Kai Wang

Subjects

MAPK/ERK pathway, Cancer Research, congenital, hereditary, and neonatal diseases and abnormalities, endocrine system, Oncogene, endocrine system diseases, Cell growth, Kinase, Research, Cell, STAT3 pathway, Transfection, Biology, medicine.disease, medicine.anatomical_structure, KIF5B-RET, Oncology, medicine, Cancer research, Molecular Medicine, Signal transduction, Lung cancer, neoplasms

Abstract

Background Lung cancer in nonsmokers tends to be driven by a single somatic mutation or a gene fusion. KIF5B-RET fusion is an oncogene identified in non-small cell lung cancers. In this study, we verified the oncogenic activity of KIF5B-RET fusion and investigated how KIF5B-RET activates the specific signaling pathways for cellular transformation. We aimed to provide a basis for the further development of the therapy for KIF5B-RET positive lung cancer patients. Methods RT-PCR was used to screen for KIF5B-RET fusions in Chinese lung cancer patients. To verify the oncogenic activity of KIF5B-RET kinase in lung cancer cells, we manipulated its expression genetically followed by colony formation and tumor formation assays. The mechanism by which KIF5B-RET kinase induces proliferation was investigated by western blot, coimmunoprecipitation, and administration of RET, MAPK and STAT3 inhibitors. Results Our study identified a KIF5B-RET fusion in Chinese NSCLC patients and demonstrated that KIF5B-RET transfected cells showed a significantly increased proliferation rate and colony-forming ability. Furthermore, we found that KIF5B-RET fusion kinase induced multilevel activation of STAT3 at both Tyr705 and Ser727, and KIF5B-RET-STAT3 signaling related inhibitors repressed the proliferation and tumorigenicity of lung cancer cells significantly. Conclusions Our data suggest that KIF5B-RET promotes the cell growth and tumorigenicity of non-small cell lung cancers through multilevel activation of STAT3 signaling, providing possible strategies for the treatment of KIF5B-RET positive lung cancers.

Published

2014

4. KIF5B-RET fusion kinase promotes cell growth by multilevel activation of STAT3 in lung cancer.

Author

YingYing Qian, Shoujie Chai, Zuyu Liang, Yongfang Wang, You Zhou, Xia Xu, Chenchen Zhang, Min Zhang, Jingxing Si, Feiteng Huang, Zhangdan Huang, Wei Hong, and Kai Wang

Abstract

Background: Lung cancer in nonsmokers tends to be driven by a single somatic mutation or a gene fusion. KIF5B-RET fusion is an oncogene identified in non-small cell lung cancers. In this study, we verified the oncogenic activity of KIF5B-RET fusion and investigated how KIF5B-RET activates the specific signaling pathways for cellular transformation. We aimed to provide a basis for the further development of the therapy for KIF5B-RET positive lung cancer patients. Methods: RT-PCR was used to screen for KIF5B-RET fusions in Chinese lung cancer patients. To verify the oncogenic activity of KIF5B-RET kinase in lung cancer cells, we manipulated its expression genetically followed by colony formation and tumor formation assays. The mechanism by which KIF5B-RET kinase induces proliferation was investigated by western blot, coimmunoprecipitation, and administration of RET, MAPK and STAT3 inhibitors. Results: Our study identified a KIF5B-RET fusion in Chinese NSCLC patients and demonstrated that KIF5B-RET transfected cells showed a significantly increased proliferation rate and colony-forming ability. Furthermore, we found that KIF5B-RET fusion kinase induced multilevel activation of STAT3 at both Tyr705 and Ser727, and KIF5B-RET-STAT3 signaling related inhibitors repressed the proliferation and tumorigenicity of lung cancer cells significantly. Conclusions: Our data suggest that KIF5B-RET promotes the cell growth and tumorigenicity of non-small cell lung cancers through multilevel activation of STAT3 signaling, providing possible strategies for the treatment of KIF5B-RET positive lung cancers. [ABSTRACT FROM AUTHOR]

Published

2014