Multiple alterations in insulin responses to glucose in islets from 48-h glucose-infused nondiabetic rats

To examine the biochemical mechanisms by which hyperglycemia produces insulin secretory abnormalities, we studied isolated islets from control rats and rats infused for 48 h with a 50% glucose solution. To preserve the effects of in vivo hyperglycemia during in vitro handling for islet isolation, our standard isolation procedure utilized buffers containing 16.8 mM glucose. Islets from infused rats released similar amounts of insulin in low or high glucose during first incubations at 37 degrees C (92.4 +/- 7.0 ng.10 islets-1.45 min-1 at 2.8 mM, 84.4 +/- 4.1 ng.10 islets-1.45 min-1 at 16.8 mM) in contrast with control (uninfused) islets (18.6 +/- 2.8 ng.10 islets-1.45 min-1 at 2.8 mM and 109.8 +/- 8.0 ng.10 islets-1.45 min-1 at 16.8 mM glucose) (P less than 0.01). Secretion by islets of glucose-infused rats was lower during 60-min second incubations at 28 mM glucose than in first incubations of the same islets in low glucose (P less than 0.01). This phenomenon is comparable to the paradoxical hypersecretion observed during the first 10-15 min of exposure of glucose-infused pancreas to low-glucose perfusions. Paradoxical secretion in low glucose waned rapidly, so that during second incubations at 37 degrees C, little immunoreactive insulin release occurred at 2.8 mM glucose, despite the persistence of two additional lesions. The glucose-insulin dose-response curves in second incubations showed a leftward shift for glucose-infused islets, with two- to threefold higher secretion at 5.6-8.4 mM glucose than control islets. This is termed sensitization to glucose.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of gestational hyperglycemia on glucose metabolism and its hormonal control in the fasted, newborn rat during the early postnatal period

To evaluate the effects of gestational hyperglycemia on glucose metabolism and its regulation in the fasted rat during the early postnatal period, unrestrained rats were continuously infused with glucose during the last week of pregnancy. Control rats were infused with distilled water. Newborns were studied during the first six postnatal hours. At birth, newborns from glucose-infused rats, compared with controls, showed higher plasma glucose levels, increased plasma insulin, and lower plasma glucagon and catecholamine concentrations. Between birth and 2 h postpartum, newborn rats from both groups exhibited a marked hypoglycemia, which was, however, more severe in newborns from glucose-infused rats (15 mg/dl) than in controls (26 mg/dl). During the first four postnatal hours, plasma insulin concentration remained higher, while plasma glucagon and catecholamine concentrations remained lower in newborns from hyperglycemic rats. At 6 h, the glycemia reached normal values and the concentrations of the different hormones were similar in controls and newborns from glucose-infused mothers. Concurrently, in the newborns from glucose-infused rats, hepatic glucose production was altered, as they were unable to mobilize liver glycogen stores during the six postnatal hours. Despite slightly delayed phosphoenolpyruvate carboxykinase induction, the rate of gluconeogenesis from 10 mmol/L lactate estimated on isolated hepatocytes was higher in newborns from hyperglycemic mothers than in controls. These results show that gestational hyperglycemia compromises the metabolic and hormonal adaptation of the newborn rat to early extrauterine life; the striking feature of these neonates is the absence of mobilization of liver glycogen stores, which can probably be explained by fetal and neonatal hyperinsulinism associated with the defect of counterregulatory hormones.     

Insulin is required for the liver to respond to intraportal glucose delivery in the conscious dog.

To determine whether insulin is essential for the augmented hepatic glucose uptake observed in the presence of intraportal glucose delivery, SRIF was used to induce acute insulin deficiency in 5 conscious dogs, and glucose was infused into the portal vein or a peripheral vein in two sequential, randomized periods. Insulin and C-peptide levels were below the limits of detection after SRIF infusion, and the load of glucose presented to the liver was approximately doubled and equivalent during the portal and peripheral periods. Net hepatic glucose output was 2.9 +/- 0.9 and 2.1 +/- 1.1 mumol.kg-1.min-1 during portal and peripheral glucose delivery, respectively. In an additional set of protocols, pancreatectomized dogs were used to investigate the effects of prolonged insulin deficiency (n = 5) and acute insulin replacement (n = 4) on the hepatic response to intraportal glucose delivery. In the prolonged insulin deficiency protocol, SRIF was used to lower glucagon and thereby reduce circulating glucose levels, and glucose was infused into the portal or peripheral circulations in two sequential, randomized periods. As with acute insulin deficiency, net hepatic glucose output was still evident and similar (3.6 +/- 1.1 and 4.2 +/- 1.3 mumol.kg-1.min-1) during portal and peripheral glucose delivery, respectively. When the pancreatectomized dogs were restudied using a similar protocol, but one in which insulin was replaced (4X-basal), and the glucose load to the liver was matched to that which occurred in the prolonged insulin deficiency protocol, net hepatic glucose uptake was 23.6 +/- 6.1 mumol.kg-1.min-1 during portal glucose delivery but only 10.3 +/- 3.5 mumol.kg-1.min-1 during peripheral glucose delivery. These results suggest that the induction of net hepatic glucose uptake and the augmented hepatic response to intraportal glucose delivery require the presence of insulin.     

钙蛋白酶与肝移植缺血再灌注损伤关系的实验研究

目的 探讨大鼠肝在不同冷缺血期、复温期及再灌注期钙蛋白酶活性变化，以及钙蛋白酶抑制剂对离体灌注肝功能及原位肝移植大鼠生存的影响。方法 SD大鼠。共5个实验部分：（1）冷缺血实验；（2）冷缺血后复温实验；（3）冷缺血后再灌注实验；（4）钙蛋白酶抑制剂实验；（5）原位肝移植实验。结果 冷缺血12h始，肝组织中钙蛋白酶活力明显增加，并随着冷缺血时间的延长而逐渐明显增加（P＜0.01）。冷缺血复温30min始，肝组织中钙蛋白酶活力明显增加，并随着复温时间延长而逐渐明显增加（P＜0.01）。肝组织冷缺血0和12h再灌注60min钙蛋白酶明显增加（P＜0.05）。钙蛋白酶抑制剂明显增加（P＜0.05）。而冷缺血24h再灌注30min钙蛋白酶便明显增加（P＜0.05）。钙蛋白酶抑制剂可明显地降低离体灌注肝AST水平及增加胆汁量（分别P＜0.01）。结论 肝移植冷缺血期、复温期及再灌注期钙蛋白酶均明显增高，钙蛋白酶抑制剂可明显地改善移植肝功能。     

Metabolic changes in the liver graft monitored continuously with microdialysis during liver transplantation in a pig model

Microdialysis provides the opportunity to continuously monitor metabolic changes in tissue. The aim of the study is to monitor metabolic changes in the liver graft over time during transplantation in a pig model. Fourteen littermate female pigs with a body weight of 30 to 34 kg were used for seven orthotopic liver transplantations. Intrahepatic implantation of a microdialysis catheter into the liver graft was performed in the donor. Microdialysis samples were collected at 20-minute intervals during the donor operation, cold preservation, and for 7 hours after reperfusion in the recipient. Glucose, lactate, pyruvate, and glycerol concentrations were measured. After cold perfusion, glucose, lactate, and glycerol levels increased, whereas pyruvate levels decreased rapidly. During cold storage, glucose and glycerol levels increased, whereas lactate levels remained stable and pyruvate levels were undetectable. During implantation of the liver graft, glucose, lactate, and glycerol levels showed an accelerated increase. After portal reperfusion, glucose, lactate, and glycerol levels continued to increase for another 40 to 60 minutes, after which they decreased and finally settled at normal levels. At this time, pyruvate levels increased, with a peak within 2 hours after reperfusion, and then decreased to normal levels. Calculated lactate-pyruvate ratio increased after cold perfusion and remained stable during cold storage. During rewarming, it showed an accelerated increase, but after reperfusion, it decreased rapidly. Rewarming and reperfusion are most harmful to the liver, reflected by an accelerated increase in glucose and glycerol levels and lactate-pyruvate ratio. High intrahepatic glucose levels during ischemia appear to be a liver-specific event, which may represent glycogen degradation in injured hepatocytes. (Liver Transpl 2002;8:424-432.)     

Isolated hepatic cholinergic denervation impairs glucose and glycogen metabolism

BACKGROUND: Hepatic innervation plays an essential role in insulin extraction and glucose production, but the specific role of hepatic cholinergic innervation remains unclear. We sought to establish a model of isolated hepatic cholinergic denervation (IHCD), and to assess whether glycogen storage or the control of net hepatic glucose production (HGP) was altered by IHCD. MATERIALS AND METHODS: Sprague-Dawley rats underwent either hepatic vagotomy or sham operation. Liver tissue was stained for vesicular acetylcholine transporter (VAChT) and (nonspecific neural) protein gene product 9. 5 (PGP) for verification of IHCD. Liver glycogen content was quantified in fed and fasted IHCD or sham-operated animals. HGP was determined after single-pass isolated liver perfusion, during which a 30-min 12 ng/ml glucagon infusion was begun after equilibration, and after 10 min, a 200 microU/ml insulin infusion was added. RESULTS: Uniform staining of PGP and absence of VAChT staining in hepatic vagotomized rats demonstrated the validity of our model. Glycogen content of sham-operated livers (n = 8) increased from 6.0 +/- 1.7 in the fasting state to 10.6 +/- 1.8 mg/g liver, after feeding (P < 0.05). IHCD livers (n = 8) showed no comparable increase (3.5 +/- 0.6 to 4.0 +/- 0.7 mg/g liver). Perfusion with glucagon alone resulted in less HGP in IHCD livers (n = 12) compared with sham-operated livers (n = 10) (integrated HGP 3.3 +/- 0.3 mg/g liver min(-1) vs 5.1 +/- 0.5 mg/g liver min(-1), P < 0.05). Insulin infusion revealed impaired responsiveness to insulin after IHCD; the ratio of HGP in the final 10 min of perfusion (glucagon and insulin) to HGP in the initial 10 min (glucagon alone) was 90.3 +/- 2.4% for IHCD livers versus 68.1 +/- 4.4% for sham-operated controls, respectively (P = 0.0002). CONCLUSIONS: Our study shows that IHCD results in significant impairment in liver glycogen storage and impaired hepatic sensitivity to glucagon and, possibly, to insulin. We conclude that hepatic cholinergic integrity is essential to normal hepatic glucose metabolism.     

Postprandial hepatic glycogen synthesis in liver transplant recipients

BACKGROUND: The liver plays a central role in glucose homeostasis by releasing glucose in the fasting state and by taking up and converting into glycogen part of the glucose absorbed from the gastrointestinal tract after meal ingestion. METHODS: To determine whether the hepatic denervation that accompanies liver transplantation interferes with these functions, we assessed glucose tolerance to an oral glucose load in seven patients at 2-6 weeks after orthotopic liver transplantation, in six patients after kidney transplantation, and in six healthy controls. Hepatic glycogen synthesis was non-invasively assessed over the 4 hours after ingestion of a glucose load by monitoring hepatic uridine diphosphoglucose turnover with 13C galactose and acetaminophen. RESULTS: Liver and kidney transplant recipients had increased postprandial glucose concentrations but normal hepatic uridine diphosphoglucose turnover, indicating an unaltered hepatic glycogen synthesis. CONCLUSIONS: These results indicate that denervated liver transplants have an adequate glucoregulatory function. Postprandial hyperglycemia in liver transplant recipients is therefore not due to alterations of liver glucose metabolism.     

Liver susceptibility to ischaemia in spontaneously hypertensive rats

Blood loss has previously been shown to be more detrimental for spontaneously hypertensive (SHR) than for normotensive Wistar-Kyoto (WKY) rats. To evaluate whether this decreased tolerance to blood loss is due to disturbances in circulatory control or to alterations in cellular function caused by the hypertensive disease, SHR and WKY were subjected to complete liver ischaemia. During a 45-min period of ischaemia as well as after 4 h of reflow, the liver content of ATP, glycogen, glucose and lactate was determined. Liver ATP decreased to 15% and liver glycogen to 30% of initial levels, while liver glucose increased 6-fold and liver lactate 13-fold during the ischaemic period in both SHR and WKY. Following 4 h of reflow, ATP was restored to 11.5 +/- 1.7 mumol X g protein-1 (56% of initial level) in SHR and to 15.2 +/- 1.3 (76%) in WKY. The levels of lactate and glucose returned to control levels after the reflow period while the glycogen stores were further depleted in SHR as well as WKY. No difference between SHR and WKY in cellular metabolic function during the ischaemic period could thus be demonstrated, and the postischaemic recovery was not significantly different. It is concluded that hypertensive disease does not seem to change the ischaemic tolerance of liver cells to any considerable extent.     

Morbidity associated with intraportal islet transplantation

INTRODUCTION: Complications associated with intraportal islet infusion have been reported. In this study, we analyzed the relationship between occurrence of complications and islet preparation characteristics/infusion technique. METHODS: We reviewed all intraportal islet infusions from 1992 to 2003. RESULTS: Sixteen islet autotransplantations were performed without infusion-related complications. The tissue volume injected was 13 +/- 11 mL with basal and peak portal pressures of 13 +/- 6 and 21 +/- 6 mm Hg. Seventy-seven intraportal islet allotransplantations were performed in 51 patients. Fifteen islet infusions were done by laparotomy during simultaneous islet/kidney transplantation without complication. Among 62 percutaneous transhepatic injections, nine complications (two portal branch thrombosis and seven intra-abdominal hemorrhages) were recorded. Rise in portal pressure was related to tissue volume injected (P <.05). Basal and peak portal pressures were 14 +/- 5 and 18 +/- 6 mm Hg in uncomplicated infusions, 14 +/- 9 and 18 +/- 9 mm Hg in the thrombosis group, and 13 +/- 7 and 18 +/- 5 mm Hg in the hemorrhage group (P >.05). Complications occurred only after percutaneous islet infusion (P <.03). CONCLUSIONS: Procedure-related morbidity of intraportal islet infusion is low. Changes in portal pressure are related to volume of tissue injected but do not seem to be associated with the occurrence of complications. Percutaneous infusion is a minimally invasive procedure, but this advantage must be balanced by the higher rate of complications.     

Correlation of donor nutritional status with sinusoidal lining cell viability and liver function in the rat

We have demonstrated that the sinusoidal lining cell injury sustained by rat liver allografts during hypothermic storage is a critical determinant of graft viability. The present study was designed to examine the effect of donor nutritional status on hepatic microcirculation and graft function. Rat livers from four nutritional groups (group I, fasted; group II, fed; group III, intraperitoneal glucose; and group IV, fed plus intraperitoneal glucose) were excised and stored for 24 hr in Marshall's isotonic citrate solution. Then the livers were perfused under anoxic conditions with trypan blue. The percentage of nonviable SLC in each group was 26.7 +/- 8.1, 24.9 +/- 7.9, 17.6 +/- 6.9, and 5.9 +/- 1.9 in groups I, II, III, and IV respectively; i.e., there was a significant improvement in SLC viability with nutritional repletion in group IV. Electron microscopy was performed on livers from groups I and IV following 30-hr preservation in University of Wisconsin solution and after 16-hr preservation in Marshall's isotonic citrate solution. Biopsies were taken at the end of storage and after 1 hr of reperfusion at 37 degrees C. At the end of preservation group IV livers contained glycogen and had much more normal liver ultrastructure than group I livers. After reperfusion there was partial recovery of normal SLC morphology in both groups and depletion of glycogen in group IV. Liver function was studied on the isolated perfused rat liver system at 37 degrees C following 30-hr storage in UW solution. Transaminase release into the perfusate was significantly lower in nutritionally repleted livers than in livers from fasted animals. A significant reduction in perfusate platelet count occurred only in livers from fasted animals. The results show that nutritional repletion can reduce the injury of cold preservation to both hepatocytes and endothelial cells and improve liver function in the postpreservation period.     

Effect of intraoperative hyperglycemia during liver transplantation

BACKGROUND: Intensive blood glucose management has been shown to decrease mortality and infections for intensive care patients. The effect of intraoperative strict glucose control on surgical outcomes, including liver transplantation, has not been well evaluated. MATERIALS AND METHODS: A retrospective review of all adult liver recipients transplanted between January 1, 2004 and July 6, 2006 was performed. Donor and recipient demographics, intraoperative variables, and outcomes were collected. Intraoperative glucose measurements were performed by the anesthesiology team and treated with intravenous insulin bolus or continuous infusion. Patients with strict glycemic control (mean blood glucose <150 mg/dL) were compared with those with poor control (mean blood glucose >or=150 mg/dL). RESULTS: During the study period, a total of 184 patients met criteria for analysis. Recipients with strict glycemic control (n=60) had a mean glucose of 135 mg/dL compared with 184 mg/dL in the poorly controlled group (n=124). Other than recipient age (strict versus poor control, 47 +/- 2 y versus 53 +/- 1 y; P<0.01), both groups had similar donor and recipient characteristics. Although the incidence of most postoperative complications were similar, poor glycemic control was associated with a significantly increased infection rate at 30 d posttransplant (48% versus 30%; P=0.02), and also an increased 1 y mortality (21.9% versus 8.8%; P=0.05). CONCLUSIONS: Intraoperative hyperglycemia during liver transplantation was associated with an increased risk of postoperative infection and mortality. Strict intraoperative glycemic control, possibly using insulin infusions, may improve outcomes following liver transplantation.     

Intraportal and intrasplenic autotransplantation of pancreatic islets in the dog.

Autotransplantation of pancreatic microfragments into the liver or the spleen of totally pancreatectomized dogs is described. Both modes of transplantation resulted in restoration of normal fasting blood glucose levels. A delayed response to high glucose loads was however observed in both groups. Serum amylase levels indicated a rapid decline of exocrine activity. On the basis of postoperative levels of GOT and GPT in the serum of the dogs with intraportal transplants, permanent proteolytic or ischemic damage to the liver appeared unlikely.     

Synergistic effect of cold and warm ischemia time on postoperative graft function and outcome in human liver transplantation

Prolonged cold ischemia time (CIT) during graft preservation and warm ischemia time (WIT) during rewarming time have been reported to cause postoperative graft dysfunction after orthotopic liver transplantation (OLT). However, the effects of both CIT and WIT in combination on patient and graft survivals are not yet defined. The aim of this study was to determine whether simultaneously prolonged CIT and WIT were associated with early graft outcomes after clinical OLT. For analysis of liver graft survival within 90 days of OLT and postoperative graft function, 186 consecutive OLT cases were divided into four groups as follows: group A, CIT < 12 hours and WIT < 45 minutes; group B, CIT > 12 hours and WIT < 45 minutes; group C, CIT < 12 hours and WIT > 45 minutes; and group D, CIT > 12 hours and WIT > 45 minutes. The graft loss rates were 5.4% in group A, 9.8% in group B, 11.1% in group C, and 42.9% in group D. The mean highest aspartate aminotransferase (AST) value after OLT in group D (3352.3 +/- 569.4 U/L) was significantly greater than those in groups A (1411.7 +/- 169.2 U/L) and B (1931.3 +/- 362.6 U/L). The simultaneously prolonged cold and warm ischemia times significantly caused hepatic allograft injury and failure, suggesting some cumulative effects of CIT and WIT on postoperative graft function.     

Enhanced peripheral and splanchnic insulin sensitivity in NIDDM men after single bout of exercise

We studied glucose metabolism in non-insulin-dependent diabetic (NIDDM) men with and without glycogen-depleting cycle exercise 12 h beforehand and have compared the results to our previous data in lean and obese subjects. Rates of total glucose utilization, glucose oxidation, nonoxidative glucose disposal (NOGD), glucose metabolic clearance rate (MCR), and endogenous glucose production (EGP) were determined with a "two-level" insulin-clamp technique (100-min infusions at 40 and 400 mU X m-2 X min-1) combined with indirect calorimetry and D-3-[3H]glucose infusion. Muscle biopsy specimens from vastus lateralis were analyzed for glycogen content and glycogen synthase activity before and after insulin infusions. After exercise, NIDDM subjects had muscle glycogen concentrations comparable with those of lean and obese subjects. The activation of glycogen synthase both by prior exercise and insulin infusion was similar to lean controls. After exercise, total glucose disposal was significantly increased during the 40-mU X m-2 X min-1 infusion (P less than .05), but the increase observed during the 400-mU X m-2 X min-1 infusion was not significant. These increases after exercise were the result of significantly higher NOGD during both levels of insulin infusion. The MCR of glucose during both insulin infusions was reduced in NIDDM compared with lean subjects but was very similar to that in obese nondiabetics. Basal EGP was significantly reduced on the morning after exercise (4.03 +/- 0.27 vs. 3.21 +/- 0.21 mg x kg-1 fat-free mass x min-1) (P less than .05) and associated with significant reductions of fasting plasma glucose (197 +/- 12 vs. 164 +/- 9 mg/dl).(ABSTRACT TRUNCATED AT 250 WORDS)     

Metabolic effects of IGF-I in diabetic rats

Insulinlike growth factor I (IGF-I) stimulates glucose utilization (GU) in nondiabetic rats. We compared the effects of IGF-I and insulin on glucose metabolism in control (fed plasma glucose 7.7 +/- 0.1 mM, n = 30) and partially (90%) pancreatectomized diabetic (plasma glucose 18.4 +/- 0.8 mM, n = 30) awake unstressed rats. IGF-I was infused at 0.65 or 1.96 nmol.kg-1.min-1 and insulin at 22 or 29 pmol.kg-1.min-1 in combination with [3-3H]glucose while euglycemia was maintained by a variable glucose infusion. In controls, GU during the 0.65- and 1.96-nmol.kg-1.min-1 IGF-I infusions (127 +/- 7 and 168 +/- 4 mumol.kg-1.min-1, respectively) was similar to rates observed during the 22- and 29-pmol.kg-1.min-1 insulin infusions (121 +/- 2 and 156 +/- 5 mumol.kg-1.min-1). Whole-body glycolytic rate (3H2O generation) and muscle glycogen synthetic rate were identical during insulin and IGF-I infusions. In diabetic rats, GU was reduced by 30% versus control rats (P less than 0.01) during both the low-dose (88 +/- 7 vs. 121 +/- 7 mumol.kg-1.min-1) and higher-dose (109 +/- 4 vs. 156 +/- 5 mumol.kg-1.min-1) insulin clamps. The defect in insulin action involved both muscle glycogen synthesis and glycolysis. In diabetic rats, IGF-I elicited rates of GU similar to controls (115 +/- 10 and 164 +/- 12 mumol.kg-1.min-1 during the 0.65- and 1.96-nmol.kg-1.min-1 infusions, respectively) and corrected the intracellular defects in glycogen synthesis and glycolysis.(ABSTRACT TRUNCATED AT 250 WORDS)     

The effects of fasting on the quality of liver preservation by simple cold storage

Although livers can be successfully preserved for 24 hr or more, often the transplanted livers have poor or no (primary nonfunction) function. The quality of the liver does not appear dependent upon the time of preservation but may be dependent upon the condition of the donor. In this study we have investigated the effects of fasting on the quality of livers for transplantation. Rabbits were fasted (48 hr) and livers preserved in the UW solution for 6-8 hr. Functions of the liver were analyzed by isolated perfusion for 2 hr. Also, pigs were fasted for 72 hr, livers preserved for 12 hr, and viability determined by orthotopic transplantation. Fasting depleted the liver glycogen by 85% but had no effect on ATP or glutathione concentrations. Rabbit livers from fasted animals produced similar amounts of bile, released similar concentrations of lactate dehydrogenase (LDH) and aspartate amino transaminase (AST) into the perfusate, maintained similar concentrations of ATP and glutathione in the tissue, and had a similar intracellular K:Na ratio after 24-hr preservation when compared to livers from fed animals. After 48-hr preservation, livers from fasted animals were less viable than livers from fed animals, including: reduced bile production (2.0 +/- 0.3 vs. 5.0 +/- 0.9 ml/2 hr, 100 g), greater release of LDH (3701 +/- 562 units vs. 1123 +/- 98 units) and AST, less ATP (0.326 +/- 74 vs. 0.802 +/- 160 nmol/g), less glutathione (0.303 +/- 13 vs. 0.933 +/- 137 nmol/g), and a lower K:Na ratio (1.5 +/- 0.9 vs. 7.4 +/- 0.6). Pigs receiving livers from fed animals preserved for 12 hr had better survival (5/6, 83%) than livers from fasted animals (3/6, 50%). The results show that the nutritional status of the donor can affect the outcome of liver preservation and transplantation. Increased injury in livers from fasted animals may be due to the loss of glycogen that may be an essential source of energy in the initial posttransplant period. In clinical liver transplantation the nutritional status of the donor may be an important factor in the initial function of the liver, and methods to increase the nutritional status of the donor may be important in increasing the quality of livers.     

Portal venous 5-aminoimidazole-4-carboxamide-1-beta-D-ribofuranoside infusion overcomes hyperinsulinemic suppression of endogenous glucose output

AMP-activated protein kinase (AMPK) plays a key role in regulating metabolism, serving as a metabolic master switch. The aim of this study was to assess whether increased concentrations of the AMP analog, 5-aminoimidazole-4-carboxamide-1-beta-D-ribosyl-5-monophosphate, in the liver would create a metabolic response consistent with an increase in whole-body metabolic need. Dogs had sampling (artery, portal vein, hepatic vein) and infusion (vena cava, portal vein) catheters and flow probes (hepatic artery, portal vein) implanted >16 days before a study. Protocols consisted of equilibration (-130 to -30 min), basal (-30 to 0 min), and hyperinsulinemic-euglycemic or -hypoglycemic clamp periods (0-150 min). At t = 0 min, somatostatin was infused and glucagon was replaced in the portal vein at basal rates. An intraportal hyperinsulinemic (2 mU . kg(-1) . min(-1)) infusion was also initiated at this time. Glucose was clamped at hypoglycemic or euglycemic levels in the presence (H-AIC, n = 6; E-AIC, n = 6) or absence (H-SAL, n = 6; E-SAL, n = 6) of a portal venous 5-aminoimidazole-4-carboxamide-ribofuranoside (AICAR) infusion (1 mg . kg(-1) . min(-1)) initiated at t = 60 min. In the presence of intraportal saline, glucose was infused into the vena cava to match glucose levels seen with intraportal AICAR. Glucagon remained fixed at basal levels, whereas insulin rose similarly in all groups. Glucose fell to 50 +/- 2 mg/dl by t = 60 min in hypoglycemic groups and remained at 105 +/- 3 mg/dl in euglycemic groups. Endogenous glucose production (R(a)) was similarly suppressed among groups in the presence of euglycemia or hypoglycemia before t = 60 min and remained suppressed in the H-SAL and E-SAL groups. However, intraportal AICAR infusion stimulated R(a) to increase by 2.5 +/- 1.0 and 3.4 +/- 0.4 mg . kg(-1) . min(-1) in the E-AIC and H-AIC groups, respectively. Arteriovenous measurement of net hepatic glucose output showed similar results. AICAR stimulated hepatic glycogen to decrease by 5 +/- 3 and 19 +/- 5 mg/g tissue (P < 0.05) in the presence of euglycemia and hypoglycemia, respectively. AICAR significantly increased net hepatic lactate output in the presence of hypoglycemia. Thus, intraportal AICAR infusion caused marked stimulation of both hepatic glucose output and net hepatic glycogenolysis, even in the presence of high levels of physiological insulin. This stimulation of glucose output by AICAR was equally marked in the presence of both euglycemia and hypoglycemia. However, hypoglycemia amplified the net hepatic glycogenolytic response to AICAR by approximately fourfold.     

Apoptosis after ischemia-reperfusion in human liver allografts

Little is known about the possible contribution of apoptosis to ischemia-reperfusion injury in human liver transplantation. Therefore, we studied postreperfusion surgical biopsy specimens of 16 human liver allografts using the TUNEL assay for in situ demonstration of apoptotic cells. In all patients, a variable proportion of hepatocytes and sinusoidal endothelial cells presented labeled nuclei. The mean +/- standard deviation percentages of positive hepatocytes were 18.7% +/- 12.2% in the whole section, 30.4% +/- 18.7% in the subcapsular region, 14.5% +/- 13.5% in the centrilobular zones, and 10.3% +/- 9.5% in the periportal zones. The percentage of positive hepatocytes were not correlated with the duration of cold ischemia but was higher in grafts harvested from donors with elevated preoperative aspartate aminotransferase (AST) levels. The percentage of positive hepatocytes was correlated with postoperative serum levels of AST (P = .015) and inversely correlated with postoperative serum levels of factor V (P = .019). Apoptotic biliary epithelial cells were detected in only 3 cases. In conclusion, apoptosis is a frequent event in postreperfusion biopsy specimens of liver allografts and probably contributes to preservation injury of hepatocytes. (Liver Transpl Surg 1997 Jul;3(4):407-15)     

Transhepatic neutrophil and monocyte activation during clinical liver transplantation

BACKGROUND: During experimental liver transplantation, neutrophil sequestration results in increased oxygen free radical production and correlates inversely with graft viability. Neutrophil activation in clinical liver transplantation is poorly understood. METHODS: We assessed leukocyte sequestration and transhepatic differences of neutrophil and monocyte CD11b expression, neutrophil free radical production, and plasma concentrations of interleukin 6 and interleukin 8 in nine patients during liver transplantation. RESULTS: Significant hepatic neutrophil sequestration occurred during initial graft rewarming with portal blood, after inferior vena cava declamping, and after hepatic artery declamping (all P<0.05). A positive transhepatic difference (i.e., outcoming - ingoing) in CD11b expression of neutrophils was observed after portal vein declamping (51+/-32 relative fluorescence unit [RFU]) and in CD11b expression of monocytes during initial graft rewarming (67+/-86 RFU, both P<0.05). A transcoronary increase in both unstimulated (74+/-80 RFU) and N-formyl-methionyl-leucylphenylalanine-stimulated (112+/-168 RFU) neutrophil free radical production took place after hepatic artery declamping (both P<0.05). A negative transcoronary difference of interleukin 6 occurred during initial graft rewarming (-192+/-176 pg/ml) and a positive difference of interleukin 8 occurred after hepatic artery declamping (17+/-23 pg/ml, both P<0.05). CONCLUSIONS: Hepatic sequestration and transhepatic activation of neutrophils, and hepatic production of interleukin 8 occur during clinical liver transplantation. A splanchnic influx of interleukin 6 occurs to the graft, possibly modulating neutrophil-mediated graft reperfusion injury.     

胰岛素门静脉灌注促进活体肝移植术后肝再生的临床研究

目的 探讨成人活体肝移植(LDLT)术后胰岛素门静脉灌注对移植肝再生的促进作用.方法 2005年7月至2007年9月间接受右肝LDLT并自愿接受术后门静脉胰岛素灌注、有完整临床资料并存活超过30 d的15例成人受者作为研究对象(胰岛素组),同期未接受门静脉胰岛素灌注治疗、有完整临床资料并存活超过30 d的连续15例成人受者作为对照组研究对象(对照组).胰岛素组受者LDLT术中从胃网膜右静脉插入一根18 G硅胶管至门静脉系统,另一端固定于腹壁,术后以2 U/h速度静脉微泵持续均匀门静脉灌注胰岛素7 d.对照组无门静脉插管及胰岛素灌注.LDLT术前1d、术后7 d及30 d检测肝功能与外周血胰岛素水平,术中、术后7 d及术后30 d测量移植肝体积(GV).以GV比例(术后移植肝体积/术中移植肝体积之百分比)和供肝受者体重比(GRWB)比例(术后GRWR/术中GRWR之百分比例)作为移植肝再生检测指标.结果 LDLT术后7d胰岛素组与对照组受者移植肝GV比例分别为(186.1±35.4)%和(160.6±22.1)%,胰岛素组移植肝再生率高于对照组(P<0.05);胰岛素组与对照组受者GRWR比例分别为(179.0±35.8)%和(156.6±18.5)%,胰岛素组移植肝再生率亦高于对照组(P<0.05).LDLT术后30 d胰岛素组与对照组受者移植肝再生率的差异无统计学意义(P>0.05).LDLT术后7 d胰岛素组患者血清总胆红素、丙氨酸转氨酶和天冬氨酸转氨酶水平低于对照组.术后两组患者外周血胰岛素水平及外周胰岛素用量的差异均无统计学意义.结论 LDLT术后胰岛素门静脉灌注可能促进术后第1周移植肝再生.