Effect of venous drainage site on insulin action after simultaneous pancreas-kidney transplantation

BACKGROUND: The aim of the present study was to determine the influence of the venous drainage site on insulin homeostasis in simultaneous pancreas-kidney (SPK) transplant recipients. METHODS: The study included 12 SPK patients with portal venous drainage (P) and 11 SPK patients with systemic venous drainage (S) of pancreas allograft. All of the participants presented similar characteristics. The euglycemic hyperinsulinemic clamp was performed using a 0.4-mU/kg/min insulin infusion. An infusion of [6,6-(2)H2] glucose was used to determine glucose turnover at the basal state and during the clamp to determine liver and peripheral tissue sensitivity to insulin. RESULTS: Minor changes in glycemia and insulinemia were shown: fasting plasma glucose was significantly higher in the SPK-P group and insulinemia was higher in the SPK-S group. Hepatic glucose production was similar in both groups. During the clamp, insulin levels were higher in SPK-S recipients, but hepatic glucose production was suppressed in both groups. Glucose use was lower in SPK-S recipients than in SPK-P recipients, 3.32 +/-1.41 mg/kg/min and 4.70 +/-1.64 mg/kg/min, respectively (P<0.02). Basal and under-clamp free fatty acid levels were similar. In addition, no significant difference in cholesterol and low-density lipoprotein levels was shown, whereas high-density lipoprotein levels were higher in the SPK-S group; triglycerides during fasting and under clamp were significantly higher in the SPK-P group. CONCLUSIONS: In both groups, neither hepatic nor peripheral insulin resistance was detected. In SPK-S recipients, the authors have showed only a lower insulin clearance and a slight decreased peripheral responsiveness to insulin without modifications of lipid status.     

Effect of glyburide on glycemic control, insulin requirement, and glucose metabolism in insulin-treated diabetic patients

Glycemic control and glucose metabolism were examined in 5 patients with insulin-dependent diabetes mellitus (IDDM) and 8 insulin-treated non-insulin-dependent diabetes mellitus (NIDDM) patients before and after 2 mo of therapy with glyburide (20 mg/day). Glycemic control was assessed by daily insulin requirement, 24-h plasma glucose profile, glucosuria, and glycosylated hemoglobin. Insulin secretion was evaluated by glucagon stimulation of C-peptide secretion, and insulin sensitivity was determined by a two-step euglycemic insulin clamp (1 and 10 mU X kg-1. X min-1) performed with indirect calorimetry and [3-3H]glucose. In the IDDM patients, the addition of glyburide produced no change in daily insulin dose (54 +/- 8 vs. 53 +/- 7 U/day), mean 24-h glucose level (177 +/- 20 vs. 174 +/- 29 mg/dl), glucosuria (20 +/- 6 vs. 35 +/- 12 g/day) or glycosylated hemoglobin (10.1 +/- 1.0 vs. 9.5 +/- 0.7%). Furthermore, there was no improvement in basal hepatic glucose production (2.1 +/- 0.2 vs. 2.4 +/- 0.1 mg X kg-1 X min-1), suppression of hepatic glucose production by low- and high-dose insulin infusion, or in any measure of total, oxidative, or nonoxidative glucose metabolism in the basal state or during insulin infusion. C-peptide levels were undetectable (less than 0.01 pmol/ml) in the basal state and after glucagon infusion and remained undetectable after glyburide therapy. In contrast to the IDDM patients, the insulin-treated NIDDM subjects exhibited significant reductions in daily insulin requirement (72 +/- 6 vs. 58 +/- 9 U/day), mean 24-h plasma glucose concentration (153 +/- 10 vs. 131 +/- 5 mg/dl), glucosuria (14 +/- 5 vs. 4 +/- 1 g/day), and glycosylated hemoglobin (10.3 +/- 0.7 vs. 8.0 +/- 0.4%) after glyburide treatment (all P less than or equal to .05). However, there was no change in basal hepatic glucose production (1.7 +/- 0.1 vs. 1.7 +/- 0.1 mg X kg-1 X min-1), suppression of hepatic glucose production by insulin, or insulin sensitivity during the two-step insulin-clamp study. Both basal (0.14 +/- 0.05 vs. 0.32 +/- 0.05 pmol/ml, P less than .05) and glucagon-stimulated (0.24 +/- 0.07 vs. 0.44 +/- 0.09 pmol/ml) C-peptide levels rose after 2 mo of glyburide therapy and both were correlated with the decrease in insulin requirement (basal: r = .65, P = .08; glucagon stimulated: r = .93, P less than .001).(ABSTRACT TRUNCATED AT 400 WORDS)     

Systemic venous drainage of pancreas allografts as independent cause of hyperinsulinemia in type I diabetic recipients

To evaluate the metabolic consequences of pancreas transplantation with systemic venous drainage on beta-cell function, we examined insulin and C-peptide responses to glucose and arginine in type I (insulin-dependent) diabetic pancreas recipients (n = 30), nondiabetic kidney recipients (n = 8), and nondiabetic control subjects (n = 28). Basal insulin levels were 66 +/- 5 pM in control subjects, 204 +/- 18 pM in pancreas recipients (P less than 0.0001 vs. control), and 77 +/- 17 pM in kidney recipients. Acute insulin responses to glucose were 416 +/- 44 pM in control subjects, 763 +/- 91 pM in pancreas recipients (P less than 0.01 vs. control), and 589 +/- 113 pM in kidney recipients (NS vs. control). Basal and stimulated insulin levels in two pancreas recipients with portal venous drainage were normal. Integrated acute C-peptide responses were not statistically different (25.3 +/- 4.3 nM/min in pancreas recipients, 34.2 +/- 5.5 nM/min in kidney recipients, and 23.7 +/- 2.1 nM/min in control subjects). Similar insulin and C-peptide results were obtained with arginine stimulation, and both basal and glucose-stimulated insulin-C-peptide ratios in pancreas recipients were significantly greater than in control subjects. We conclude that recipients of pancreas allografts with systemic venous drainage have elevated basal and stimulated insulin levels and that these alterations are primarily due to alterations of first-pass hepatic insulin clearance, although insulin resistance secondary to immunosuppressive therapy (including prednisone) probably plays a contributing role. To avoid hyperinsulinemia and its possible long-term adverse consequences, transplantation of pancreas allografts into sites with portal rather than systemic venous drainage should be considered.     

Differential effects of preexisting uremia and a synchronous kidney graft on pancreas allograft functional survival in rats.

Pancreas transplant results have been better in uremic recipients of a simultaneous kidney than in nonuremic recipients of a pancreas alone. We studied the relative effect of uremia versus a double transplant on functional survival by performing bladder-drained pancreas transplants alone (PTA), kidney transplants alone (KTA), and simultaneous pancreas/kidney (SPK) transplants from Buffalo donors to diabetic Lewis rat recipients that were or were not made uremic 2-3 weeks before by 1 4/5 native nephrectomy. Pancreas graft exocrine function was monitored by urinary amylase (UA). In the PTA and SPK recipients made diabetic by streptozotocin, endocrine function was monitored by measuring nonfasting plasma glucose (PG) levels. Kidney graft function was monitored by plasma creatinine (Cr). Rejection of the endocrine pancreas was defined as an increase of PG to greater than 200 mg/dl; of the exocrine pancreas, as a decline in UA to less than 6000 U/L or to less than 100 U/24 hr; and of the kidney, as an elevation of Cr to greater than 3 mg/dl. The mean functional survival times (MST) of both the endocrine (12.0 +/- 2.1 versus 10.1 +/- 1.1 days, P = 0.036) and exocrine (8.0 +/- 2.1 versus 6.3 +/- 1.3 days, P = 0.016) components of the pancreas grafts were significantly longer in SPK than in PTA recipients. The MST of kidney allografts, however, was not significantly longer in nonuremic SPK than nonuremic KTA recipients (6.7 +/- 1.4 versus 5.7 +/- 0.7 days, P = 0.13). In parallel experiments in recipients immunosuppressed with cyclosporine, the graft survival times were longer, but the relative differences between the PTA, SPK, and KTA groups persisted. Histologically, lymphocyte infiltration began in the two organs almost simultaneously, but the severity of the rejection was more vigorous in the kidney than in the pancreas in doubly grafted rats, and destruction of pancreas grafts progressed more slowly in SPK than in PTA recipients. Preexisting uremia delayed pancreas rejection in both SPK (exocrine 10.6 +/- 2.3, P = 0.032, and endocrine 14.8 +/- 3.4 days, P = 0.065, versus nonuremics) and PTA (exocrine 8.5 +/- 1.7, P = 0.007, and endocrine 12.6 +/- 2.5, P = 0.026, versus nonuremics) nonimmunosuppressed recipients. The MST of kidney grafts was not significantly longer in uremic (8.9 +/- 2.8 days) than in nonuremic (6.7 +/- 1.4 days) SPK recipients (P = 0.081). A synchronous kidney transplant and uremia independently down-modulate the rejection response to a pancreas graft, and a simultaneous pancreas graft has no detrimental effect on the survival of a kidney graft.(ABSTRACT TRUNCATED AT 400 WORDS)     

The effect of insulin treatment on insulin secretion and insulin action in type II diabetes mellitus

We have studied the effects of 3 wk of continuous subcutaneous insulin infusion (CSII) on endogenous insulin secretion and action in a group of 14 type II diabetic subjects with a mean (+/-SEM) fasting glucose level of 286 +/- 17 mg/dl. Normal basal and postprandial glucose levels were achieved during insulin therapy at the expense of marked peripheral hyperinsulinemia. During the week of posttreatment evaluation, the subjects maintained a mean fasting glucose level of 155 +/- 11 mg/dl off insulin therapy, indicating a persistent improvement in carbohydrate homeostasis. Adipocyte insulin binding and in vivo insulin dose-response curves for glucose disposal using the euglycemic clamp technique were measured before and after therapy to assess the effect on receptor and postreceptor insulin action. Adipocyte insulin binding did not change. The insulin dose-response curve for overall glucose disposal remained right-shifted compared with age-matched controls, but the mean maximal glucose disposal rate increased by 74% from 160 +/- 14 to 278 +/- 18 mg/m2/min (P less than 0.0005). The effect of insulin treatment on basal hepatic glucose output was also assessed; the mean rate was initially elevated at 159 +/- 8 mg/m2/min but fell to 90 +/- 5 mg/m2/min in the posttreatment period (P less than 0.001), a value similar to that in control subjects. Endogenous insulin secretion was assessed in detail and found to be improved after exogenous insulin therapy. Mean 24-h integrated serum insulin and C-peptide concentrations were increased from 21,377 +/- 2766 to 35,584 +/- 4549 microU/ml/min (P less than 0.01) and from 1653 +/- 215 to 2112 +/- 188 pmol/ml/min (P less than 0.05), respectively, despite lower glycemia. Second-phase insulin response to an intravenous (i.v.) glucose challenge was enhanced from 170 +/- 53 to 1022 +/- 376 microU/ml/min (P less than 0.025), although first-phase response remained minimal. Finally, the mean insulin and C-peptide responses to an i.v. glucagon pulse were unchanged in the posttreatment period, but when glucose levels were increased by exogenous glucose infusion to approximate the levels observed before therapy and the glucagon pulse repeated, responses were markedly enhanced. Simple and multivariate correlation analysis showed that only measures of basal hepatic glucose output and the magnitude of the postbinding defect in the untreated state could be related to the respective fasting glucose levels in individual subjects.(ABSTRACT TRUNCATED AT 400 WORDS)     

Insulin secretion and sensitivity after simultaneous pancreas-kidney transplantation estimated by continuous infusion of glucose with model assessment

BACKGROUND: Monitoring of insulin secretion and sensitivity after pancreas transplantation remains a practical problem. METHODS: We introduced the simple structural model, continuous infusion of glucose with model assessment (CIGMA), to obtain insulin secretion and insulin sensitivity estimations after 35 successful simultaneous pancreas-kidney transplantations. Eighteen non-diabetic kidney transplant recipients were used as control group. RESULTS: The baseline characteristics were equal between the two groups except for higher fasting insulin levels in the pancreas transplant group. After the 1-hr CIGMA glucose load, the pancreas transplant group reached a mean +/- SD blood glucose of 8.2+/-1.7 mmol/L compared with 7.3+/-1.0 mmol/L in the control group (P = 0.05). Concurrent stimulated insulin and C-peptide levels were 48+/-28 mU/L and 2.3+/-0.9 nmol/L in the pancreas transplant group compared with 36+/-21 mU/L and 2.9+/-1.1 nmol/L in the control group (P = 0.1 and P = 0.03, respectively). Both the CIGMA estimation for secretion as well as the CIGMA estimation for sensitivity were lower in pancreas transplant group (P = 0.003 and P = 0.01, respectively). Mean +/- SE coefficients of variation for the model estimations were 15+/-4% for secretion and 17+/-6% for sensitivity. CONCLUSIONS: We conclude that CIGMA can be used clinically to evaluate carbohydrate metabolism in pancreas-kidney transplant recipients. These patients have a reduction in insulin secretory capacity and evidence of more insulin resistance than non-diabetic kidney transplant recipients.     

In vivo deactivation of peripheral, hepatic, and pancreatic insulin action in man

The in vivo deactivation of insulin action has been studied in 10 lean, nondiabetic subjects using a modification of the euglycemic glucose clamp technique. Following cessation of 40- and 120-mU/m2/min insulin infusions, the serum insulin levels fell to one-half their initial values (mean +/- SE) of 126 +/- 7 and 350 +/- 14 microunits/ml in 7 +/- 1 and 8 +/- 1 min, respectively. The mean incremental glucose disposal rates (IGDR) fell more slowly following discontinuation of the 40- and 120-mU/m2/min insulin infusions, so that the time required for the IGDRs to fall to one-half their initial values (D50 IGDR) were were 42 +/- 5 and 78 +/- 1 min, respectively. Mean hepatic glucose output was totally suppressed during the 40- and 120-mU/m2/min insulin infusions, remained completely suppressed following cessation of the infusions for 50 and 80 mi, and subsequently returned to basal levels. The times required for the HGOs to return to one-half their basal levels (R50 HGO) were 59 +/- 8 and 119 +/- 6 min, respectively. The times required for insulin action to decrease to one-half the initial values in the periphery (D50 IGDR) and in the liver (R50 HGO) were correlated with the preceding steady-state glucose disposal rates in individual subjects (r = 0.75, P less than 0.001 and r = 0.58, P less than 0.05, respectively). The suppression of endogenous insulin secretion by exogenous insulin infusions was also studied in 4 subjects during a total of 5 euglycemic glucose clamps; the mean basal serum C-peptide level was 0.67 +/- 0.24 pmol/ml before administration of the exogenous insulin, fell to 0.34 +/- 0.17 pmol/ml during the steady-state phase of the study, and remained suppressed throughout the duration of the deactivation phase of the glucose clamp. Residual pancreatic insulin secretory capacity was demonstrated by a rise in the serum C-peptide level to 1.77 +/- 0.50 pmol/ml at 120 min following a standardized meal given at the conclusion of the deactivation phase of the glucose clamp. These results demonstrate that the deactivation of insulin action in the periphery, liver, and pancreas lags behind the disappearance of insulin from the plasma. The mechanisms responsible for this lag in in vivo deactivation are not known for certain, but may include slower clearance of insulin form tissue compartments than form the plasma, the necessity for the target tissues to generate specific deactivation signals, or a slow rate of decay of saturable steps in the cellular activation process.     

Glucose and leucine metabolism in lung tranplanted patients on low dose of steroids for immunosuppressive therapy

BACKGROUND: This study examined the metabolic effects of lung transplantation in patients with end-stage respiratory failure on low dose of steroids for immunosuppressive therapy. METHODS: We examined 6 patients, including 2 women and 4 men of overall mean age 53 +/- 15 years and age at transplantation 34 +/- 12 months, receiving cyclosporine 5.73 +/- 1.43 mg/kg/d or tacrolimus (FK 506) 4.67 +/- 0.58 mg/d, azathioprine 0.47 +/- 0.29 mg/kg/d, and prednisone 8.25 mg/d for comparison with 6 healthy subjects, who were selected to be comparable to the recipients in terms of anthropometric features and age. A euglycemic hyperinsulinemic clamp (1 mU/kg/min) associated with infusion of glucose and leucine isotopes was performed with indirect calorimetry. RESULTS: Lung transplanted patients showed postabsorptive leucine and free fatty acid metabolism similar to controls. In contrast, there was peripheral insulin resistance with respect to glucose metabolism namely, higher values of glucose and insulin vs controls (P < .03 and P < .02, respectively). During the clamp the metabolic picture was characterized by a relative insulin resistance with respect to glucose metabolism (P = .07). Lipid and protein metabolism in the basal and insulin-stimulated conditions were similar to the control group. CONCLUSIONS: In the basal condition insulin resistance is evident with respect to glucose metabolism. The metabolic picture in lung transplanted patients on low-dose steroid therapy was characterized by normal insulin-stimulated glucose, leucine, and free fatty acid metabolism. The minimal metabolic alterations in these patients were not due to transplantation itself but probably mainly attributable to immunosuppressive therapy.     

Reduction of insulin clearance during hyperglycemic clamp. Dose-response study in normal humans

Insulin secretion and clearance were studied in eight normal subjects who underwent hyperglycemic clamp studies at plasma glucose levels of 120, 225, and 300 mg/dl on three occasions. Insulin secretion rates were calculated during a 1-h baseline period and during 3 h of glucose clamping from a two-compartmental analysis of peripheral C-peptide concentrations with individual kinetic parameters derived after intravenous bolus injections of biosynthetic human C-peptide. At the 300-mg/dl clamp level, the insulin secretion rate increased to a value 9.9 +/- 0.7 times that of basal at the end of the clamp (mean +/- SE), whereas over the same period, the peripheral insulin concentrations increased to a greater extent, reaching a value 15.4 +/- 1.2 times that of basal (P = .002). This greater relative increase in the insulin concentration in comparison with the corresponding insulin secretion rate suggests a reduction in the clearance of endogenous insulin. A similar trend was seen at the 225-mg/dl clamp level, but the relative increase in the insulin concentration (9.9 +/- 1.5 times that of basal) was not significantly higher than the relative increase in the insulin secretion rate (8.1 +/- 0.5 times that of basal, P = .17). At the 120-mg/dl clamp level, the relative increases in the insulin secretion rate (2.7 +/- 0.2 times that of basal) and the insulin concentration (2.4 +/- 0.2 times that of basal) were similar (P = .26), indicating no reduction in endogenous insulin clearance during moderate stimulation of insulin secretion. In conclusion, a reduction in endogenous insulin clearance occurs during greater stimulation of insulin secretion at higher glucose-clamp levels.(ABSTRACT TRUNCATED AT 250 WORDS)     

There are no differences in pretransplant characteristics of individuals receiving simultaneous pancreas-kidney transplant and individuals with type 1 diabetes mellitus receiving living-related kidney transplant

Simultaneous pancreas-kidney transplantation (SPK) recipients have longer survival compared to type 1 diabetes mellitus (DM1) cadaveric kidney recipients. However, DM1 living-related kidney transplant (KTX-LR) recipients have the same mortality as SPK recipients. It is unknown whether cardiovascular (CVD) risk factors pretransplant are similar between the two groups, SPK and DM1 KTX-LR. We analyzed pretransplant characteristics of SPK recipients (n = 39) and DM1 KTX-LR/living unrelated (LUR) recipients (KTX-LR/LUR, n = 20). In individuals who had multiple transplants, only pretransplant data from the first transplant was used. As all characteristics of KTX-LR/LUR recipients were the same, they were grouped for comparison with SPK. Pretransplant blood pressure (BP), body mass index, (BMI), hemoglobin A1c (A1c), total cholesterol (TC), high-density lipoproteins (HDL), low-density lipoproteins (LDL), triglycerides (TG), serum creatinine, type and duration of dialysis, and duration of diabetes were compared between the two groups. Mean age at time of transplantation was 41 +/- 1 years (mean +/- SEM) for SPK versus 39 +/- 2 years for KTX-LR/LUR (P = NS). Pretransplant BP, BMI, duration of diabetes, TC, HDL, LDL, TG, and lipid agent use were not different between the groups. Pretransplant A1c was 7.8 +/- 0.3% for SPK recipients and 8.3 +/- 0.5% for KTX-LR/LUR recipients (P = NS). Pretransplant serum creatinine was higher in KTX-LR/LUR compared to SPK (7.9 +/- 0.6 mg/dL versus 5.4 +/- 0.5 mg/dL; P =.01). Except for serum creatinine, there were no significant differences in traditional CVD risk factors pretransplant. However, factors posttransplant in addition to better glucose control with SPK may still be different between SPK and KTX-LR/LUR groups.     

Direct and indirect effects of insulin to inhibit hepatic glucose output in obese subjects

The effects of small increases in plasma insulin on hepatic glucose production are incompletely understood. To partially elucidate this issue we have studied seven obese subjects with the euglycemic clamp technique with a low-dose insulin infusion rate of 15 mU X m-2 X min-1 over 3 h. Basal insulin levels were 24 +/- 7 microU/ml and increased to steady-state levels of 35 +/- 3 microU/ml during insulin infusion. Endogenous insulin secretion, quantitated by C-peptide measurements, decreased by 58% of the basal value after peripheral insulin infusion. Based on C-peptide measurements and the contribution of the peripheral insulin infusion to the circulating insulin concentrations, calculated portal insulin levels either decreased or remained unchanged during the clamp studies. Basal glucagon levels were 165 +/- 18 and did not change during the insulin infusion. The basal glucose disposal rate was 86 +/- 2 mg X m-2 X min-1 and did not increase significantly during the clamp studies. In contrast, hepatic glucose output (HGO) was suppressed by 82 +/- 5% of the basal value. In summary, in a group of insulin-resistant obese subjects, glucose-clamp studies were performed at peripheral insulin levels of 35 +/- 3 microU/ml; glucose disposal did not increase, whereas HGO was suppressed by 82%. At the same time, glucagon levels remained constant and estimated portal insulin levels either decreased or remained unchanged. These findings suggest that insulin can suppress HGO through indirect extrahepatic actions.     

Islet allograft survival in nonhuman primates immunosuppressed with basiliximab, RAD, and FTY720

OBJECTIVE: In a preclinical, nonhuman primate islet allotransplant model, the authors evaluated a novel immunosuppressive combination of basiliximab for induction and of RAD and FTY720 for maintenance. METHODS: Five ABO-compatible and mixed lymphocyte reactivity-mismatched streptozotocin-induced diabetic juvenile cynomolgus monkeys underwent transplantation intraportally with 48-hr cultured 10,000 islet equivalents per kilogram. Induction immunosuppression was with intravenous basiliximab (10 mg on postoperative days 0 and 4). Maintenance immunosuppression was with RAD (everolimus) (0.075 mg/kg per day administered subcutaneously) and FTY720 (0.3 mg/kg per day administered orally), both administered on day -2 through day 180 posttransplant. RESULTS: All five recipients tolerated their transplants and immunosuppressive therapy well, without adverse events or infectious complications. Insulin requirements pretransplant were 2.6 to 4.0 U/kg per day. All recipients became normoglycemic and insulin-independent posttransplant. Posttransplant serum C-peptide levels averaged 2.7 ng/mL (range, 0.6-6.2 ng/mL). Morning blood glucose levels ranged from less than 100 mg/dL to 150 mg/dL. Posttransplant acute C-peptide response to intravenous arginine averaged 1.3 ng/mL (range, 0.23-2.72 ng/mL). In one recipient with subtherapeutic RAD blood levels on day 7 posttransplant, exogenous insulin was resumed 100 days posttransplant; basal C-peptide levels remained positive in this recipient and averaged 2.6 ng/mL. The other four recipients remained insulin-independent for more than 6 months. CONCLUSIONS: This study provides preliminary evidence of the safety and efficacy of corticosteroid- and calcineurin inhibitor-free immunosuppression in a relevant preclinical transplant model. These findings provide a strong rationale for evaluating this nondiabetogenic regimen in a clinical trial of islet transplants in type 1 diabetic recipients.     

Effects of insulin and amino acids on glucose and leucine metabolism in CAPD patients

This study investigates the basal and insulin-stimulated glucose metabolism, substrate utilization, and protein turnover in eight patients maintained on continuous ambulatory peritoneal dialysis (CAPD) (mean age 39+/-5 yr, body mass index [BMI] 108+/-6) and 14 control subjects (mean age 33+/-4 yr, BMI 103+/-3). Euglycemic insulin clamp studies (180 min) were performed in combination with continuous indirect calorimetry and 1-14C leucine infusion (study I). Postabsorptive glucose oxidation was higher (1.75+/-0.18 versus 1.42+/-0.14 mg/kg per min) and lipid oxidation was lower (0.43+/-0.09 versus 0.61+/-0.12 mg/kg per min) in CAPD patients than in control subjects (P<0.05 versus control subjects). During the last 60 min of euglycemic hyperinsulinemia, the total rate of glucose metabolism was similar in CAPD and control subjects (6.33+/-0.51 versus 6.54+/-0.62 mg/kg per min). Both insulin-stimulated glucose oxidation (2.53+/-0.27 versus 2.64+/-0.37 mg/kg per min) and glucose storage (3.70+/-0.48 versus 3.90+/-0.58 mg/kg per min) were similar in CAPD and control subjects. Basal leucine flux (an index of endogenous proteolysis) was significantly lower in CAPD patients than in control subjects (1.21+/-0.15 versus 1.65+/-0.07 micromol/kg per min). Leucine oxidation (0.13+/-0.02 versus 0.26+/-0.02 micromol/kg per min) and nonoxidative leucine disposal (an index of protein synthesis) (1.09+/-0.16 versus 1.35+/-0.05 micromol/kg per min) were also reduced in CAPD compared with control subjects (P<0.01 versus control subjects). In response to insulin (study I), endogenous leucine flux decreased to 0.83+/-0.08 and 1.05+/-0.05 micromol/kg per min in CAPD and control subjects, respectively (all P<0.01 versus basal). Leucine oxidation declined to 0.06+/-0.01 and to 0.19+/-0.02 micromol/kg per min in CAPD and control subjects, respectively (P<0.01 versus basal). A second insulin clamp was performed in combination with an intravenous amino acid infusion (study II). During insulin plus amino acid administration, nonoxidative leucine disposal rose to 1.23+/-0.17 and 1.42+/-0.09 micromol/kg per min in CAPD and control subjects, respectively (both P<0.05 versus basal, P = NS versus control subjects), and leucine balance, an index of the net amino acid flux into protein, become positive in both groups (0.30+/-0.05 versus 0.40+/-0.07 micromol/kg per min in CAPD and control subjects, respectively) (both P<0.01 versus basal, P = NS versus control subjects). In summary, in CAPD patients: (1) basal glucose oxidation is increased; (2) basal lipid oxidation is decreased; (3) insulin-mediated glucose oxidation and storage are normal; (4) basal leucine flux is reduced; (5) the antiproteolitic action of insulin is normal; and (6) the anabolic response to insulin plus amino acid administration is normal. Uremic patients maintained on CAPD treatment show a preferential utilization of glucose as postabsorptive energy substrate; however, their anabolic response to substrate administration and the sensitivity to insulin are normal.     

Evidence that carotid bodies play an important role in glucoregulation in vivo

The carotid bodies are sensitive to glucose in vitro and can be stimulated to cause hyperglycemia in vivo. The aim of this study was to determine if the carotid bodies are involved in basal glucoregulation or the counterregulatory response to an insulin-induced decrement in arterial glucose in vivo. Dogs were surgically prepared >16 days before the experiment. The carotid bodies and their associated nerves were removed (carotid body resected [CBR]) or left intact (Sham), and infusion and sampling catheters were implanted. Removal of carotid bodies was verified by the absence of a ventilatory response to NaCN. Experiments were performed in 18-h fasted conscious dogs and consisted of a tracer ([3-3H]glucose) equilibration period (-120 to -40 min), a basal period (-40 to 0 min), and an insulin infusion (1 mU x kg(-1) x min(-1)) period (0-150 min) during which glucose was infused as needed to clamp at mildly hypoglycemic (65 mg/dl) or euglycemic (105 mg/dl) levels. Basal (8 microU/ml) and clamp (40 microU/ml) insulin levels were similar in both groups. Basal arterial glucagon was reduced in CBR compared with Sham (30 + 2 vs. 40 +/- 2 pg/ml) and remained reduced in CBR during hypoglycemia (peak levels of 36 +/- 3 vs. 52 +/- 7 pg/ml). Cortisol levels were not significantly different between the 2 groups in the basal state, but were reduced during the hypoglycemic clamp in CBR. Catecholamine levels were not significantly different between the 2 groups in the basal and hypoglycemic periods. The glucose infusion rate required to clamp glucose at 65 mg/dl was 2.5-fold greater in CBR compared with Sham (4.0 +/- 0.4 vs. 1.6 +/- 0.4 mg x kg(-1) x min(-1)). Basal endogenous glucose appearance (R(a)) was equal in CBR and Sham (2.5 +/- 0.1 vs. 2.5 +/- 0.2 mg x kg(-1) x min(-1)). During the hypoglycemic clamp, insulin suppressed R(a) in CBR but not Sham (1.1 +/- 0.2 vs. 2.5 +/- 0.2 mg x kg(-1) x min(-1) during the last 30 min of the clamp), reflecting impaired counterregulation. Glucose disappearance (R(d)) in the basal state was similar in CBR and Sham, whereas it was elevated in CBR during the hypoglycemic clamp (4.8 +/- 0.1 vs. 3.9 +/- 0.1 mg x kg(-1) x min(-1) during the last 30 min of the clamp). R(d) was also elevated in euglycemic clamp studies, indicating an effect of carotid body resection independent of hypoglycemia. There were no other measured systematic endocrine or metabolic effects of carotid body resection during euglycemic clamps. In conclusion, we found that the carotid bodies (or receptors anatomically close by) play an important role in the insulin-induced counterregulatory response to mild hypoglycemia.     

The effects of maintenance doses of FK506 versus cyclosporin A on glucose and lipid metabolism after orthotopic liver transplantation

BACKGROUND: Posttransplant diabetes mellitus (PTDM) has gained widespread attention due to the micro and macro-vascular complications that increase the morbidity and mortality of patients receiving solid organs. The higher incidence of PTDM has been mainly attributed to the immunosuppressive therapy. Therefore, this study compares the metabolic side effects of low dose maintenance therapy of FK-506 and Cyclosporin A (CsA) in 14 patients 1 year after orthotopic liver transplant and analyzes possible factors that contribute to the development of PTDM. METHODS: Two groups (n=7) differing in their immunosuppressive regimen (FK506 or CsA) were matched to eight control subjects and compared to each other. The effects of in vivo insulin action were assessed by means of the euglycemic hyperinsulinemic clamp technique. Arginine stimulation tests at normo- (5.5 mM) and hyperglycemic (15 mM) levels were performed and the acute insulin, C-peptide, and glucagon response (2-5 min) to arginine were determined. RESULTS: Insulin sensitivity (total glucose disposal) was statistically lower in patients treated with FK-506 and CsA (5.05+/-0.47 and 5.05+/-0.42 mg/kg/min) as compared to controls (6.62+/-0.38 mg/kg/min) (P<0.02), with a significantly higher nonoxidative glucose disposal for the control group (P<0.01), and lower free fatty acid levels (P<0.05). Absolute values for acute insulin response were higher but not significantly different for the transplanted groups. The lower percentage of increase of insulin release after arginine stimulation observed in the FK-506 and CsA groups as compared with controls (754%+/-100, 644%+/-102 vs. 1191%+/-174) (P<0.03 and 0.02, respectively), suggests a reduced beta cell secretory reserve in both treated groups. Also, the acute glucagon response to arginine during hyperglycemia declined less in the FK-506 (28%) and CsA groups (29%) compared with controls (48%) (P<0.05) indicating a defect in the pancreatic beta cell-alpha cell axis. CONCLUSIONS: There are no major metabolic differences on low maintenance doses between FK-506 and CsA. Both immunosuppressant agents contribute to the development of PTDM at different levels.     

Effect of exenatide on beta cell function after islet transplantation in type 1 diabetes

BACKGROUND: Islet transplantation can reduce or eliminate the need for insulin in patients with type 1 diabetes. Exenatide is a long acting analogue of Glucagon-like peptide-1 (GLP-1) that augments glucose induced insulin secretion, and may increase beta cell mass. We evaluated the effect of exenatide on insulin secretion after islet transplantation. METHODS: Eleven C-peptide positive islet cell recipients with elevated glucose levels were treated with exenatide for three months. Response was assessed by insulin requirements, meal tolerance tests, and hyperglycemic glucose clamps. RESULTS: Ten patients responded to exenatide. Two patients who had not restarted insulin achieved good glycemic control and one patient who had received 5500 IE/kg in first islet infusion was able to stop insulin. Seven other patients decreased their insulin dose by 39% on exenatide. Hyperglycemic clamp studies showed a rise in second phase insulin release (before exenatide: 246+/-88 pM; during exenatide: 644+/-294 pM, P<0.01). Meal tolerance studies before and one month after stopping exenatide did not show a difference in glucose or C-peptide values. Nausea and vomiting were the major side effects. CONCLUSIONS: Exenatide stimulates insulin secretion in islet transplant recipients. It reduces insulin dose in some patients and may delay the need to resume insulin in others. We did not find any evidence of a trophic effect on islets.     

Effects of chronic beta receptor stimulation on glucose metabolism

The acute administration of a beta receptor-stimulating agent profoundly affects insulin-mediated glucose metabolism; however, little is known about the impact of chronic beta receptor stimulation on glucose metabolism and insulin sensitivity. We therefore investigated the effect of the chronic administration of a beta-2-agonist, terbutaline sulfate (TS), on glucose metabolism in 7 healthy, normal-weight, male volunteers between the ages of 21 and 30 yr. Studies were performed using the euglycemic, hyperinsulinemic (1.0 mU/min X kg) clamp technique before and after the oral administration of 5 mg of TS three times a day for 1 and 2 wk. Basal endogenous glucose production (EGP) (2.54 +/- 0.11 versus 2.64 +/- 0.14 mg/min X kg) and basal glucose oxidation (1.87 +/- 0.16 versus 2.0 +/- 0.2 mg/min X kg) were unchanged by the chronic administration of TS. However, insulin-stimulated total glucose metabolism increased by 29% (7.0 +/- 0.47 versus 9.05 +/- 0.67 mg/min X kg; P less than 0.02). Insulin-stimulated, nonoxidative glucose disposal increased by 45% (3.62 +/- 0.42 versus 5.26 +/- 0.48 mg/min X kg; P less than 0.01), while insulin-stimulated glucose oxidation did not change significantly (3.38 +/- 0.15 versus 3.79 +/- 0.22 mg/min X kg). EGP was completely suppressed under both conditions. Mean basal plasma insulin concentration (41 +/- 9 versus 49 +/- 15 pmol/L) and insulin clearance during the clamp procedure was unchanged (477 +/- 45 versus 474 +/- 37 ml/min X m2). We conclude that chronic beta receptor stimulation with TS improves insulin-stimulated glucose disposal in man, mostly by improving nonoxidative glucose disposal, i.e., "glucose storage."(ABSTRACT TRUNCATED AT 250 WORDS)     

Mechanisms of insulin resistance following injury

To assess the mechanisms of insulin resistance following injury, we examined the relationship between insulin levels and glucose disposal in nine nonseptic, multiple trauma patients (average age 32 years, Injury Severity Score 22) five to 13 days postinjury. Fourteen age-matched normals served as controls. Using a modification of the euglycemic insulin clamp technique, insulin was infused in 35 two-hour studies using at least one of four infusions rates (0.5, 1.0, 2.0 or 5.0 mU/kg min). Basal glucose levels were maintained by a variable infusion of 20% dextrose using bedside glucose monitoring and a servo-control algorithm. The amount of glucose infused reflected glucose disposal (M, mg/kg.min). Tracer doses of (6,6,2D2) glucose were administered in selected subjects to determine endogenous glucose production. At plasma insulin concentrations less than 100 microU/ml, responses in both groups were similar. However, maximal glucose disposal rates were significantly less in the patients than in the controls (9.17 +/- 0.87 mg/kg . min vs. 14.3 +/- 0.78, mean +/- SEM, p less than 0.01). Insulin clearance rates in the patients were almost twice that seen in controls. To further characterize this decrease in insulin responsiveness, we studied six additional patients and 12 controls following the acute elevation of glucose 125 mg/dl above basal (hyperglycemic glucose clamp). In spite of exaggerated endogenous insulin production in the patients (80-200 microU/ml vs. 30--70 in controls), M was significantly lower (6.23 +/- 0.59 vs. 9.46 +/- 0.79, p less than 0.02). In conclusion, this study demonstrated that (1) the maximal rate of glucose disposal is reduced in trauma patients; (2) the metabolic clearance rate of insulin in the injured patients is almost twice normal and; (3) insulin resistance following injury appears to occur in peripheral tissues, probably skeletal muscle, and is consistent with a postreceptor defect.     

Beta-endorphin-induced inhibition and stimulation of insulin secretion in normal humans is glucose dependent

This study evaluated the effect of human beta-endorphin on pancreatic hormone levels and their responses to nutrient challenges in normal subjects. Infusion of 0.5 mg/h beta-endorphin caused a significant rise in plasma glucose concentrations preceded by a significant increase in peripheral glucagon levels. No changes occurred in the plasma concentrations of insulin and C-peptide. Acute insulin and C-peptide responses to intravenous pulses of different glucose amounts (0.33 g/kg and 5 g) and arginine (3 g) were significantly reduced by beta-endorphin infusion (P less than .01). This effect was associated with a significant reduction of the glucose disappearance rates, suggesting that the inhibition of insulin was of biological relevance. beta-Endorphin also inhibited glucose suppression of glucagon levels and augmented the glucagon response to arginine. To verify whether the modification of prestimulus glucose level could be important in these hormonal responses to beta-endorphin, basal plasma glucose concentrations were raised by a primed (0.5 g/kg) continuous (20 mg kg-1.min-1) glucose infusion. After stabilization of plasma glucose levels (350 +/- 34 mg/dl, t = 120 min), beta-endorphin infusion caused an immediate and marked increase in plasma insulin level (peak response 61 +/- 9 microU/ml, P less than .01), which remained elevated even after the discontinuation of opioid infusion. Moreover, the acute insulin response to a glucose pulse (0.33 g/kg i.v.) given during beta-endorphin infusion during hyperglycemia was significantly higher than the response obtained during euglycemia (171 +/- 32 vs. 41 +/- 7 microU/ml, P less than .01).(ABSTRACT TRUNCATED AT 250 WORDS)     

Tacrolimus reversibly reduces insulin secretion in paediatric renal transplant recipients.

BACKGROUND: Conflicting reports exist about the mechanism of tacrolimus-induced post-transplant diabetes mellitus. METHODS: We analysed intravenous glucose tolerance tests (IVGTT) of 14 paediatric renal transplant recipients on cyclosporin (CsA) microemulsion and 15 patients on tacrolimus (FK506). The groups were similar in age (13.2+/-4.2 vs 13.0+/-3.7 years), body mass index, serum creatinine concentrations (96+/-60 vs 97+/-44 micromol/l), time after renal transplantation, and cumulative steroid dose over 12 weeks prior to the test (3.4 vs 3.5 mg/m(2)/day, NS, Mann-Whitney). Parameters of glucose tolerance included glucose, insulin, C-peptide concentrations, and HbA1c. The mean concentrations of the primary immunosuppressant were similar to treatments employed in other centres (CsA 165+/-59 ng ml and FK506 7. 5+/-2.2 ng ml). RESULTS: Baseline glucose concentrations were significantly higher on FK506 therapy compared with CsA microemulsion therapy. Baseline insulin concentrations and C-peptide concentrations were identical in both treatment groups. FK506 trough levels correlated negatively with k values (glucose constant decay) in the FK506 group. There was a significant reduction of the insulin first-phase concentrations, both after 1 min and after 3 min in the FK506 group compared with the CsA group (112+/-17 vs 237+/-57 microU/ml, P=0.034). In patients with repetitive IVGTTs, glucose constant decay and insulin production improved after lowering FK506 whole-blood trough levels. CONCLUSIONS: We conclude that post-transplant glucose intolerance could be due to a dose-dependent, direct effect of FK506 on the pancreatic beta cell function, which can be controlled by dose reduction.