Blunt injury augments interleukin-6 but not tumor necrosis factor in isolated, perfused rat hindlimbs.

An isolated, perfused hindlimb model in rats was used to examine the immediate inflammatory response after blunt tissue injury. A femur-fracture degloving model was used in isolated rat hindlimbs perfused with a modified Kreb\u27s buffer (pH 7.4) containing albumin, washed human red blood cells (RBCs), amino acids, and glucose at 37 degrees C. Arterial and venous perfusate was sampled at 5, 20, and 80 minutes of perfusion. Initial experiments were conducted in perfusate void of white blood cells (WBCs), group 1 (-inj/-WBC, n = 6) and group 2 (+inj/-WBC). Subsequent experiments were conducted in perfusate containing activated WBCs, group 3 (-inj/+WBC, n = 6) and group 4 (+inj/+WBC, n = 7). Hindlimb muscle was analyzed for adenylate energy charge (EC) and lactate-to-pyruvate ratios (LPR) at the end of each perfusion. This preparation appeared metabolically stable in that oxygen consumption and lactate remained stable during the 80-minute perfusion and muscle EC and LPR indicated aerobic metabolism. Tumor necrosis factor (TNF) and thromboxane B2 (TXB2) were measured in all four groups while prostaglandin F (PGF1 alpha), IL-6, myeloperoxidase, and 8-isoprostane were measured in groups 3 and 4. Initial perfusions in the -WBC hindlimbs indicated no change in TNF release after injury. The TXB2 level increased during perfusion irrespective of injury. The PGF1 alpha was elevated at 80 minutes in both groups 3 and 4, however at 20 minutes PGF1 alpha levels were higher in group 4 compared with group 3. Interestingly, the IL-6 level was significantly elevated at 80 minutes in group 4 but not in group 3.(ABSTRACT TRUNCATED AT 250 WORDS

Effects of Hepatocyte Growth Factor on Viability and Biotransformation Functions of Hepatocytes in Gel Entrapped and Monolayer Culture.

OBJECTIVES: An extracorporeal bioartificial liver device must maintain viability and differentiated function of hepatocytes cultivated at high cell density. Growth factors, such as hepatocyte growth factor, found in high concentrations in the plasma of patients with fulminant hepatic failure, have the potential to promote hepatocyte dedifferentiation and thus, decrease function. We tested the hypothesis that hepatocyte growth factor would improve viable cell density and decrease biotransformation functions of liver cells in monolayer culture and in hepatocytes entrapped in collagen cylindrical gel noodles as found in the extracorporeal bioartificial liver. DESIGN: In vitro, controlled study. SETTING: University research laboratory. SUBJECTS: Adult Sprague Dawley Rats. INTERVENTIONS: Hepatocytes were harvested by a two-step collagenase technique. Harvested hepatocytes were plated onto type 1 collagen coated plates or entrapped in type 1 collagen cylindrical gels and cultured in different concentrations of hepatocyte growth factor. Interval measurements of 3H-thymidine incorporation, albumin synthesis, biotransformation functions, and viability were made. MEASUREMENTS AND MAIN RESULTS: In monolayer culture, the addition of hepatocyte growth factor caused a dramatic increase in 3H-thymidine incorporation. This increase was accompanied by a decrease in the appearance of the lidocaine metabolite, monoethyglycinexylidide. Albumin production was unchanged. In cylindrical gel entrapment cultures, hepatocyte growth factor caused a significant increase in 2-day viability but had no effect on the metabolite appearance of lidocaine or 4-methyl umbelliferone or albumin production. CONCLUSIONS: Hepatocyte growth factor induces dedifferentiation of hepatocytes in monolayer culture. Collagen matrix entrapment appears to abrogate this effect and improve liver cell viability. There may be reciprocal regulation of hepatocyte reproductive and differentiated functions, such as biotransformation, which can be influenced by the entrapment of hepatocytes in an extracellular type 1 collagen matrix