Your search keyword '"Chai, Dandan"' showing total 8 results

1. β2-microglobulin induced apoptosis of tumor cells via the ERK signaling pathway by directly interacting with HFE in HER2-overexpressing breast cancer

Author

Li, Kesheng, Chai, Dandan, Ren, Shiyang, Lian, Xiaowen, Shi, Xiaoling, Xu, Yang, Bao, Lie, Yang, Suisheng, Liang, Yurong, Li, Xiaoqin, and Du, Huifen

Published

2024

2. β2-microglobulin has a different regulatory molecular mechanism between ER+ and ER− breast cancer with HER2−

Author

Chai, Dandan, Li, Kesheng, Du, Huifen, Yang, Suisheng, Yang, Rong, Xu, Yang, and Lian, Xiaowen

Published

2019

3. Expression of Reg IV and SOX9 and their correlation in human gastric cancer

Author

Zhang, Na, Chai, Dandan, Du, Huifen, Li, Kesheng, Xie, Wenguang, Li, Xingwen, Yang, Rong, Lian, Xiaowen, and Xu, Yang

Published

2018

4. β2-microglobulin has a different regulatory molecular mechanism between ER+ and ER- breast cancer with HER2.

Author

Chai, Dandan, Li, Kesheng, Du, Huifen, Yang, Suisheng, Yang, Rong, Xu, Yang, and Lian, Xiaowen

Subjects

*BREAST cancer, *PROTEIN metabolism, *BLOOD proteins, *BREAST tumors, *CELL lines, *CELL receptors, *GLOBULINS, *PROTEINS

Abstract

Background: Previous studies have demonstrated that β2-microglobulin (β2M) promotes the growth and survival of a variety of cancer cells and has different regulatory effects on the expression of Bcl-2 and HER2 in HER2- breast cancer cells. However, β2M-mediated signaling in ER+ and ER- breast cancer with HER2- remains unclear.Methods: β2M expression vector and siRNA were transfected into two types of HER2- breast cancer cells, and the possible relevant signaling molecules were subsequently analyzed by real-time PCR and western blotting. These signaling molecules were also analyzed by real-time PCR and immunohistochemistry (IHC) in two types of HER2- breast cancer tissues, and the associations between β2M and these signaling molecules were assessed using Spearman's correlation analysis.Results: β2M silencing downregulated p-SGK1/SGK1 levels and Bcl-2 expression, and β2M overexpression downregulated p-CREB/CREB and significantly upregulated p-SGK1/SGK1 levels and Bcl-2 expression, and both resulting processes did not affect HER2, HIF-1α, VEGF, and ERK signaling in ER+ breast cancer cells with HER2-. β2M silencing upregulated p-CREB/CREB and VEGF protein and significantly downregulated p-ERK/ERK levels, and β2M overexpression downregulated p-CREB/CREB and VEGF, significantly upregulated p-ERK/ERK levels, and both resulting processes did not affect HIF-1α and SGK1 signaling in ER- breast cancer cells with HER2-. β2M expression was positively correlated with p-CREB, p-SGK1, and Bcl-2 expression and had no correlation with HIF-1α, VEGF, and p-ERK1/2, whereas p-SGK1 exhibited a significantly positive correlation with Bcl-2 expression in cancer tissues of patients with luminal A breast cancer, which coincide with the results obtained from the same molecular types of breast cancer cells except CREB signaling. However, β2M expression did not show a significant correlation with HIF-1α, p-CREB, VEGF, p-SGK1, p-ERK1/2, and Bcl-2 expression in cancer tissues of patients with basal-like breast cancer, which was discordant with the results obtained from the same molecular types of breast cancer cells.Conclusions: β2M has a different molecular regulatory mechanism between ER+ and ER- breast cancer with HER2-, and it may promote tumor survival through the SGK1/Bcl-2 signaling pathway in ER+ breast cancer with HER2- and has no regulatory effects on ER- breast cancer with HER2-. [ABSTRACT FROM AUTHOR]

Published

2019

5. β2-microglobulin has a different regulatory molecular mechanism between ER+ and ER- breast cancer with HER2.

Author

Chai, Dandan, Li, Kesheng, Du, Huifen, Yang, Suisheng, Yang, Rong, Xu, Yang, and Lian, Xiaowen

Subjects

BREAST cancer, PROTEIN metabolism, BLOOD proteins, BREAST tumors, CELL lines, CELL receptors, GLOBULINS, PROTEINS

Abstract

Background: Previous studies have demonstrated that β2-microglobulin (β2M) promotes the growth and survival of a variety of cancer cells and has different regulatory effects on the expression of Bcl-2 and HER2 in HER2- breast cancer cells. However, β2M-mediated signaling in ER+ and ER- breast cancer with HER2- remains unclear.Methods: β2M expression vector and siRNA were transfected into two types of HER2- breast cancer cells, and the possible relevant signaling molecules were subsequently analyzed by real-time PCR and western blotting. These signaling molecules were also analyzed by real-time PCR and immunohistochemistry (IHC) in two types of HER2- breast cancer tissues, and the associations between β2M and these signaling molecules were assessed using Spearman's correlation analysis.Results: β2M silencing downregulated p-SGK1/SGK1 levels and Bcl-2 expression, and β2M overexpression downregulated p-CREB/CREB and significantly upregulated p-SGK1/SGK1 levels and Bcl-2 expression, and both resulting processes did not affect HER2, HIF-1α, VEGF, and ERK signaling in ER+ breast cancer cells with HER2-. β2M silencing upregulated p-CREB/CREB and VEGF protein and significantly downregulated p-ERK/ERK levels, and β2M overexpression downregulated p-CREB/CREB and VEGF, significantly upregulated p-ERK/ERK levels, and both resulting processes did not affect HIF-1α and SGK1 signaling in ER- breast cancer cells with HER2-. β2M expression was positively correlated with p-CREB, p-SGK1, and Bcl-2 expression and had no correlation with HIF-1α, VEGF, and p-ERK1/2, whereas p-SGK1 exhibited a significantly positive correlation with Bcl-2 expression in cancer tissues of patients with luminal A breast cancer, which coincide with the results obtained from the same molecular types of breast cancer cells except CREB signaling. However, β2M expression did not show a significant correlation with HIF-1α, p-CREB, VEGF, p-SGK1, p-ERK1/2, and Bcl-2 expression in cancer tissues of patients with basal-like breast cancer, which was discordant with the results obtained from the same molecular types of breast cancer cells.Conclusions: β2M has a different molecular regulatory mechanism between ER+ and ER- breast cancer with HER2-, and it may promote tumor survival through the SGK1/Bcl-2 signaling pathway in ER+ breast cancer with HER2- and has no regulatory effects on ER- breast cancer with HER2-. [ABSTRACT FROM AUTHOR]

Published

2019

6. Establishment and characterization of a metastasis model of human gastric cancer in nude mice

Author

Li, Kesheng, primary, Du, Huifen, additional, Lian, Xiaowen, additional, Chai, Dandan, additional, Li, Xinwen, additional, Yang, Rong, additional, and Wang, Chunya, additional

Published

2016

7. Characterization of β2-microglobulin expression in different types of breast cancer

Author

Li, Kesheng, primary, Du, Huifen, additional, Lian, Xiaowen, additional, Yang, Suisheng, additional, Chai, Dandan, additional, Wang, Chunya, additional, Yang, Rong, additional, and Chen, Xuezhong, additional

Published

2014

8. Establishment and characterization of a metastasis model of human gastric cancer in nude mice.

Author

Li, Kesheng, Du, Huifen, Lian, Xiaowen, Chai, Dandan, Li, Xinwen, Yang, Rong, and Wang, Chunya

Subjects

ANIMAL experimentation, ANIMALS, ANTIGENS, BIOLOGICAL models, CELL lines, GENES, GLYCOPROTEINS, METASTASIS, MICE, PROTEINS, STOMACH tumors

Abstract

Background: A mouse model of metastasis of human gastric cancer is one of the most important tools for studying the biological mechanisms underlying human gastric cancer metastasis. In this paper, we established a mouse model of metastatic human gastric cancer in nude mice that has a higher rate of tumor formation and metastasis than existing models.Methods: To generate the mouse model of metastatic human gastric cancer, fresh tumor tissues from patients that have undergone surgery for gastric cancer were subcutaneously implanted in the right and left groins of nude mice. When the implanted tissue grew to 1 cubic centimeter, the mice were killed, and the tumor tissues were examined and resected. The tumor tissues were implanted into nude mice and subjected to pathological examination, immunohistochemical staining, and real-time PCR for cytokeratin 8/18 (CK8/18), E-cadherin, vascular cell adhesion molecule-1 (VCAM-1) and intercellular adhesion molecule-1 (ICAM-1). The mice were also analyzed for metastasis in their peritoneum, abdominal cavity, and internal organs by histopathological examination. Tissues collected from these organs were examined for pathology.Results: After ten generations of implantation, all mice developed tumor growth at the implanted position, 94% of the mice developed metastasis to the retroperitoneum and viscera. The implanted and metastatic tumor maintained the same histological features across all generations, and metastasis was observed in the esophagus, stomach, spleen, liver, kidney, adrenal, intestine, and pancreas. These metastatic tumors revealed no detectable expression of CK8/18, E-cadherin, VCAM-1, and ICAM-1.Conclusions: This model will serve as valuable tool for understanding the metastatic process of human gastric cancer. [ABSTRACT FROM AUTHOR]

Published

2015