Retrorsine effects on regeneration and repair of injured liver in mice undergoing partial hepatectomy

doi:10.3969/j.issn.1673-8225.2010.06.015

Chinese Journal of Tissue Engineering Research ›› 2010, Vol. 14 ›› Issue (6): 1023-1026.doi: 10.3969/j.issn.1673-8225.2010.06.015

Previous Articles Next Articles

Retrorsine effects on regeneration and repair of injured liver in mice undergoing partial hepatectomy

Liao Zhi-ling¹, Chen Jia-ling¹, Kuang Xiao-cong¹, Zhu Ming-yi¹, Huang Ying-hua¹, Cai Jie²

¹Department of Pathophysiology, ²Medical Experimental Center, Guangxi Medical University, Nanning 530021, Guangxi Zhuang Autonomous Region, China

Online:2010-02-05 Published:2010-02-05
Contact: Kuang Xiao-cong, Assoicate professor, Department of Pathophysiology, Guangxi Medical University, Nanning 530021, Guangxi Zhuang Autonomous Region, China
About author:Liao Zhi-ling, Doctor, Associate professor, Master’s supervisor, Department of Pathophysiology, Guangxi Medical University, Nanning 530021, Guangxi Zhuang Autonomous Region, China Chen Jia-ling, Master, Department of Pathophysiology, Guangxi Medical University, Nanning 530021, Guangxi Zhuang Autonomous Region, China Liao Zhi-ling and Chen Jia-ling contributed equally to the paper.
Supported by:
the Youth Foundation of Department of Science and Technology of Guangxi Zhuang Autonomous Region, No. Guikeqing 0447026*;
the Science Foundation of Returnees of Guangxi Zhuang Autonomous Region, No. Guikehui 0731016*

Abstract

Abstract:

BACKGROUND: In many studies, rats were commonly used as models of retrorsine-induced hepatic injury. Some reports have confirmed that retrorsine cannot inhibit proliferation of mouse hepatic cells. Other reports have shown that retrorsine has inhibitory effects on proliferation of mouse hepatic cells.

OBJECTIVE: To study the liver regeneration after hepatic injury by creating mouse models treated with partial hepatectomy combination with retrorsine.

METHODS: A total of 40 C57BL/6J mice were equally and randomly assigned to 2 groups. In the partial hepatectomy combined with retrorsine group, intraperitoneal injection of retrorsine 70 mg/kg was conducted, twice, within an interval of 2 weeks. Four weeks later, 2/3 hepatectomy was performed. In the partial hepatectomy group, intraperitoneal injection of saline 70 mg/kg was performed, twice, with an interval of 2 weeks. Four weeks later, 2/3 hepatectomy was performed. At 14 days after partial hepatectomy, the restoration of the livers was observed. The liver cell injury was observed at 3, 7 days with hematoxylin-eosin staining. The hepatocyte proliferation was observed at 3 days with BrdU staining. Oval cell proliferation was observed at 3, 7and 14 days with CK19 and C-kit antibody immunohistochemistry.

RESULTS AND CONCLUSION: In the partial hepatectomy group, the damaged liver nearly restored to normal at 14 days after partial hepatectomy, and the result was contrary to partial hepatectomy combined with retrorsine group. Hematoxylin-eosin staining demonstrated that significant degeneration changes in hepatic cells in the partial hepatectomy combined with retrorsine group. BrdU staining showed that hepatocyte proliferation at day 3 was significantly determined in the partial hepatectomy group, but few in the partial hepatectomy combined with retrorsine group. CK19 and C-kit immunohistochemistry demonstrated that visible oval cell proliferation was seen in mice of partial hepatectomy combined with retrorsine group. First of all, hepatic oval cells appeared in portal area and differentiated into hepatic cells and bile duct cells, and then grew into the hepatic lobule gradually. These indicated that retrorsine can obviously inhibit hepatocyte regeneration after liver injury in mice. The model of mice treated with retrorsine and partial hepatectomy could induce oval cell proliferation.

CLC Number:

R394.2

Liao Zhi-ling, Chen Jia-ling, Kuang Xiao-cong, Zhu Ming-yi, Huang Ying-hua, Cai Jie. Retrorsine effects on regeneration and repair of injured liver in mice undergoing partial hepatectomy[J]. Chinese Journal of Tissue Engineering Research, 2010, 14(6): 1023-1026.

[1]	Jiang Tao, Ma Lei, Li Zhiqiang, Shou Xi, Duan Mingjun, Wu Shuo, Ma Chuang, Wei Qin. Platelet-derived growth factor BB induces bone marrow mesenchymal stem cells to differentiate into vascular endothelial cells [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(25): 3937-3942.
[2]	Mo Jianling, He Shaoru, Feng Bowen, Jian Minqiao, Zhang Xiaohui, Liu Caisheng, Liang Yijing, Liu Yumei, Chen Liang, Zhou Haiyu, Liu Yanhui. Forming prevascularized cell sheets and the expression of angiogenesis-related factors [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(22): 3479-3486.
[3]	Chen Lei, Zheng Rui, Jie Yongsheng, Qi Hui, Sun Lei, Shu Xiong. In vitro evaluation of adipose-derived stromal vascular fraction combined with osteochondral integrated scaffold [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(22): 3487-3492.
[4]	Wei Qin, Zhang Xue, Ma Lei, Li Zhiqiang, Shou Xi, Duan Mingjun, Wu Shuo, Jia Qiyu, Ma Chuang. Platelet-derived growth factor-BB induces the differentiation of rat bone marrow mesenchymal stem cells into osteoblasts [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(19): 2953-2957.
[5]	Chen Xiao, Guo Zhi, Chen Lina, Liu Xuanyong, Zhang Yihuizhi, Li Xumian, Wang Yueqiao, Wei Liya, Xie Jing, Lin Li. Factors affecting the mobilization and collection of autologous peripheral blood hematopoietic stem cells [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(19): 2958-2962.
[6]	Guo Zhibin, Wu Chunfang, Liu Zihong, Zhang Yuying, Chi Bojing, Wang Bao, Ma Chao, Zhang Guobin, Tian Faming. Simvastatin stimulates osteogenic differentiation of bone marrow mesenchymal stem cells [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(19): 2963-2968.
[7]	Li Congcong, Yao Nan, Huang Dane, Song Min, Peng Sha, Li Anan, Lu Chao, Liu Wengang. Identification and chondrogenic differentiation of human infrapatellar fat pad derived stem cells [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(19): 2976-2981.
[8]	Gao Yuanhui, Xiang Yang, Cao Hui, Wang Shunlan, Zheng Linlin, He Haowei, Zhang Yingai, Zhang Shufang, Huang Denggao. Comparison of biological characteristics of adipose derived mesenchymal stem cells in Wuzhishan inbreed miniature pigs aged two different months [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(19): 2988-2993.
[9]	Cao Yang, Zhang Junping, Peng Li, Ding Yi, Li Guanghui. Isolation and culture of rabbit aortic endothelial cells and biological characteristics [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(19): 3000-3003.
[10]	Dai Min, Wang Shuai, Zhang Nini, Huang Guilin, Yu Limei, Hu Xiaohua, Yi Jie, Yao Li, Zhang Ligang. Biological characteristics of hypoxic preconditioned human amniotic mesenchymal stem cells [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(19): 3004-3008.
[11]	Qin Yanchun, Rong Zhen, Jiang Ruiyuan, Fu Bin, Hong Xiaohua, Mo Chunmei. Chinese medicine compound preparation inhibits proliferation of CD133+ liver cancer stem cells and the expression of stemness transcription factors [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(19): 3016-3023.
[12]	Dai Yaling, Chen Lewen, He Xiaojun, Lin Huawei, Jia Weiwei, Chen Lidian, Tao Jing, Liu Weilin. Construction of miR-146b overexpression lentiviral vector and the effect on the proliferation of hippocampal neural stem cells [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(19): 3024-3030.
[13]	Chen Jie, Liao Chengcheng, Chen Zhiwei, Wang Yan. Bladder cancer stem cell markers and related signaling pathways: antibody targeted therapy [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(19): 3090-3096.
[14]	Zhang Wei, Cui Shuaishuai, Zhou Zhichao, Hu Xiaohua, Yang Xiaohong. MicroRNA regulates histone deacetylase in the treatment of bone-related diseases [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(17): 2767-2774.
[15]	Chen Liang, Meng Shu, Cheng Guoping, Ding Yi . Effects of fish scale collagen membrane on adhesion, proliferation and osteogenic differentiation of rat bone marrow mesenchymal stem cells [J]. Chinese Journal of Tissue Engineering Research, 2021, 25(16): 2494-2499.

Retrorsine effects on regeneration and repair of injured liver in mice undergoing partial hepatectomy

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments