Dynamic phosphoproteomics of insulin and epidermal growth factor signaling in mouse hepatocytes
- VernacularTitle:小鼠肝细胞胰岛素与表皮生长因子信号转导磷蛋白质组的对比分析
- Author:
Youping LIU
;
Fuli YAO
;
Huirong DING
;
Hong LI
- Publication Type:Journal Article
- From:
Chinese Journal of Tissue Engineering Research
2008;12(42):8380-8383
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND: Both epidermal growth factor (EGF) and insulin transfer their signals into cells by two primary signal transduction pathways,including phosphatidylinositol 3-kinase (PI3K) pathway and mitogen activated protein kinases (MAPK) pathway.But they have different physiological functions.OBJECTIVE: To comparatively assay the dynamic behaviors of phosphoproteomes between EGF and insulin signal transductions in mouse hepatocytes and find key signal proteins.DESIGN,TIME AND SETTING: Randomized grouping controlled observation experiment was performed in the laboratory of Molecular Biology,Luzhou Medical College between July 2005 and April 2006.MATERIALS: Hepatocytes were from Kunming mice of closed population.METHODS: The primarily cultured mouse hepatocytes were labeled with 32p isotope and then randomly divided into three groups: control,EGF-stimulated (received 10 μg/L EGF),and insulin-stimulated (received 100 nmol/L insulin) groups.MAIN OUTCOME MEASURES: After mouse hepatocytes were treated with EGF and insulin for 0,5,20,60 and 120 minutes,the dynamic behaviors of phosphoproteomes(I.e,phosphorylated level) between EGF and insulin signal transductions were comparatively analyzed by two-dimensional electrophoresis method.RESULTS: The categories of all phosphorylated proteins between EGF and insulin-stimulated phosphoproteomes had no apparent difference.The dynamic behaviors of phosphoproteomes of most proteins during EGF signal transduction are parallel with those during insulin stimulation,except the dynamic behaviors of 4 proteins are different significantly.CONCLUSION: Aforementioned 4 phosphorylated proteins were most probably the key members that could distinguish between two signal transduction pathways ornetworks,and determined their major physiological functions respectively.
