Subzero nonfreezing storage of rat hepatocytes using UW solution and 1,4-butanediol. II- functional testing on rewarming and gene expression of urea cycle enzymes.

UNLABELLED: In the present study we have analyzed the viability and metabolic competence of isolated rat hepatocytes subjected first, to subzero nonfreezing storage (up to 120 h at -4 degrees C) in modified University of Wisconsin (UW) solution with 8% 1,4-butanediol, and then to a normothermic rewarming step (KHR media, 37 degrees C, up to 120 min, carbogen atmosphere). Results were compared with hepatocytes stored up to 120 h at 0 degrees C in modified UW solution and with freshly isolated hepatic cells. We have found that only cell suspensions stored in subzero nonfreezing conditions were able to finish the rewarming period with a viability comparable with the control group. Also, we have investigated the enzyme activities and the relative expression at messenger RNAs levels of two of the Urea cycle (UC) enzymes: Carbamyl phosphate synthetase I (CPSI) and ornithine transcarbamylase (OTC), during 60 min of rewarming. Results were compared with the ammonium removal efficiency of the three groups. IN CONCLUSION: These data indicated that hepatocytes preserved under cold or subzero conditions up to 120 h followed by 60 min of rewarming, maintain UC enzymes at levels similar to freshly isolated hepatocytes, allowing their use in bioartificial liver devices.

Gene expression and activity of urea cycle enzymes of rat hepatocytes cold stored up to 120h in University of Wisconsin solution.

Urea cycle (UC) is the main pathway of ammonium removal. A deficiency in any of the five classical enzymes of the pathway causes a urea cycle disorder. Hepatocellular transplantation is one of the techniques applicable to treat this disorder. In the present work, we investigated the activities and the relative expression levels of two of the UC enzymes: Carbamyl phosphate synthetase I (CPSI) and ornithine transcarbamylase (OTC), in isolated hepatocytes preserved up to 120 h in University of Wisconsin (UW) solution at 0 degrees C, and during the rewarming of these suspensions. During preservation, CPSI showed differences in mRNA levels respect to time 0, while ornithine transcarbamylase remained unchanged. At the end of the rewarming, CPSI showed values of enzymatic activity and relative mRNA level comparable with the control, meanwhile, there was an increment in OTC activity. In line with these results, we found that hepatocytes cold preserved up to 120h in UW solution maintained their ability to remove an ammonium load comparable to freshly isolated hepatocytes. These data indicated that our preservation conditions up to 120h in UW solution followed by rewarming, preserves UC enzymes at levels similar to freshly isolated hepatocytes, allowing the use of these cells in bioartificial liver devices or hepatocellular transplantation.