Published online Oct 27, 2013. doi: 10.4254/wjh.v5.i10.550
Revised: September 27, 2013
Accepted: October 15, 2013
Published online: October 27, 2013
Processing time: 73 Days and 7.7 Hours
Obesity due to excessive food intake and the lack of physical activity is becoming one of the most serious public health problems of the 21st century. With the increasing prevalence of obesity, non-alcoholic fatty liver disease is also emerging as a pandemic. While previously this pathophysiological condition was mainly attributed to triglyceride accumulation in hepatocytes, recent data show that the development of oxidative stress, lipid peroxidation, cell death, inflammation and fibrosis are mostly due to accumulation of fatty acids, and the altered composition of membrane phospholipids. In fact, triglyceride accumulation might play a protective role, and the higher toxicity of saturated or trans fatty acids seems to be the consequence of a blockade in triglyceride synthesis. Increased membrane saturation can profoundly disturb cellular homeostasis by impairing the function of membrane receptors, channels and transporters. However, it also induces endoplasmic reticulum stress via novel sensing mechanisms of the organelle’s stress receptors. The triggered signaling pathways in turn largely contribute to the development of insulin resistance and apoptosis. These findings have substantiated the lipotoxic liver injury hypothesis for the pathomechanism of hepatosteatosis. This minireview focuses on the metabolic and redox aspects of lipotoxicity and lipoapoptosis, with special regards on the involvement of endoplasmic reticulum stress responses.
Core tip: Surplus of free fatty acids contributes to hepatic injuries in obesity and type 2 diabetes. Intracellular accumulation of fatty acyl-CoA causes oxidative and endoplasmic reticulum (ER) stress, which lead to cell death, inflammation and fibrosis. Steatohepatosis is the consequence of an intensive fat synthesis, aiming to reduce the metabolic burden. The higher toxicity of saturated vs unsaturated fatty acids is partly due to a limited capacity of the liver cells to insert them into triglycerides. Moreover, increased membrane saturation triggers the ER stress response though a unique mechanism, which aggravates the metabolic derangements and liver injuries.