Effect of fasting on hepatocytes cold stored in University of Wisconsin solution for 24 hours.

Although there have been improvements in liver preservation, liver dysfunction still remains a serious consequence of liver transplantation. This may be related to cold ischemic injury since the incidence of dysfunction increases with longer preservation times. However, even some livers preserved for short periods of time (less than 15 hr) develop liver dysfunction. One possible cause may be the lack of adequate nutritional support, and the donor may be exposed to prolonged periods of hyponutrition. In this study, we have compared the effects of fasting on functions of hepatocytes isolated from the rat. Hepatocytes were cold stored in University of Wisconsin solution for 24 hr and analyzed at the end of preservation as well as at the end of rewarming in Krebs-Henseleit buffer for 120 min. The glycogen content of fed cells was 1.57 mumol/mg protein and this was reduced by 95% in cells from fasted rats. After cold storage and rewarming, hepatocytes from fasted rats lost 84.2 +/- 2.5% of the total cellular lactate dehydrogenase versus only 32.7 +/- 3.8% (P < 0.001) in cells from fed rats. Also, ATP and reduced glutathione content of fasted cells were significantly reduced, free fatty acids were higher (P = 0.0154), and protein synthesis was reduced to 41% of controls (versus only 88% in fed cells), although there were no differences in phospholipid content. When hepatocytes from fasted rats were rewarmed in Krebs-Henseleit buffer containing fructose (10 mM), lactate dehydrogenase release was reduced from 80% to 34.4 +/- 0.2% and ATP content was significantly higher with fructose than without. Hepatocytes from fasted rats, therefore, are more sensitive to cold ischemic injury than cells from fed rats. The increased sensitivity appears related to the lack of glycogen as a source of substrates for metabolism during rewarming. This is supported by the fact that addition of fructose, which is metabolized readily by hepatocytes through glycolysis, suppressed rewarming injury to cells from fasted rats. The nutritional status of the donor, therefore, may play a pivotal role in the results of liver preservation and transplantation. Effective donor nutritional management may reduce the incidence of liver dysfunction after transplantation.