Abstract
The liver is normally the major site of glucose metabolism in intact organisms and the most important target organ for the action of insulin. It has been widely accepted that insulin resistance (IR) is closely associated with postoperative recurrence of hepatocellular carcinoma (HCC). However, the relationship between IR and drug resistance in liver cancer cells is unclear. In the present study, IR was induced in HepG2 cells via incubation with a high concentration of insulin. Once the insulin-resistant cell line was established, the instability of HepG2/ IR cells was further tested via incubation in insulin-free medium for another 72h. Afterwards, the biological effects of insulin resistance on adhesion, migration, invasion and sensitivity to cis-platinum (DDP) of cells were determined. The results indicated that glucose consumption was reduced in insulin-resistant cells. In addition, the expression of the insulin receptor and glucose transportor-2 was downregulated. Furthermore, HepG2/IR cells displayed markedly enhanced adhesion, migration, and invasion. Most importantly, these cells exhibited a lower sensitivity to DDP. By contrast, HepG2/IR cells exhibited decreased adhesion and invasion after treatment with the insulin sensitizer pioglitazone hydrochloride. The results suggest that IR is closely related to drug resistance as well as adhesion, migration, and invasion in HepG2 cells. These findings may help explain the clinical observation of limited efficacy for chemotherapy on a background of IR, which promotes the invasion and migration of cancer cells.
Highlights
Physical activity appears to impact all stage of carcinogenesis
The apoptosis rate of HepG2/insulin resistance (IR)+pioglitazone hydrochloride (PH) cells was 72.56% higher than that of HepG2/IR cells before IR reversal (p
Glucose metabolism dysregulation is a feature of malignant cancer that results in decreased insulin sensitivity and IR
Summary
Insulin promotes the utilization of glucose and synthesis of glycogen by inhibiting gluconeogenesis. Insulin plays a role in catalyzing the synthesis of fats and proteins and inhibits their degradation. Insulin binds to its receptor to initiate signal transduction. Insulin resistance (IR) can be induced by any of the following events: reduction in the number and affinity of insulin receptors, mutations of encoding genes, downregulation of the glucose transporter, and defects in insulin signal transduction (Yoshikawa et al, 2001; Wilcox, 2005; Draznin, 2006; Leclercq et al, 2007). Insulin plays a role in metabolic syndrome and the drug resistance of tumors (Wilcox, 2005). The specific mechanism of IR and its relationship with multidrug resistance are unclear
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