Pathologic changes and glucose homeostasis according to expression of human islet amyloid polypeptide in type 2 diabetic patients.

The amount of amyloid detectable in islets varies, and is not always correlated with degree of beta-cell loss. It has been hypothesized that islet amyloid polypeptide (IAPP) aggregation causes beta-cell dysfunction. In this study, we investigated the relationship between IAPP expression and glucose homeostasis in pancreatectomized patients. Human pancreatic head tissues were collected from 46 pancreatic tumor patients. We divided the diabetic cases into two groups, patients with higher IAPP-expressing islets (DM-H) and patients with lower IAPP-expressing islets (DM-L), and compared both groups to patients with normal glucose tolerance (NGT). Interestingly, oral glucose tolerance test analyses showed that DM-L patients had significantly higher glucose levels and lower C-peptide levels than DM-H patients. Furthermore, the DM-H group showed a relative beta-cell volume similar to that of the NGT group, as well as a significantly higher relative beta-cell volume than the DM-L group. The DM-L group was significantly higher than the DM-H group, not only in the rates of replication and apoptosis, but also in the nuclear C/EBP homologous protein and the ratio of oligomer to IAPP. Thus, IAPP expression may not be an indicator of cell death induction. IAPP, including oligomer, may be an important determinant in the fate of islet beta-cells. This manuscript contains online supplemental material at http://www.jhc.org. Please visit this article online to view these materials.

Enhancement of beta-cell regeneration by islet transplantation after partial pancreatectomy in mice.

BACKGROUND: Pancreatic beta cells are known to regenerate, especially when insulin requirements are increased. Islet transplantation (ITx) is one strategy for insulin replacement in patients with diabetes. ITx can provide not only insulin in a physiological manner but also can exert additional effects such as beta-cell regeneration. This study examined the effects of ITx on endogenous beta-cell mass in mice. METHODS: Male Balb/c mice were 70% pancreatectomized and transplanted with syngeneic islets, then compared with pancreatectomized mice with or without insulin treatment. Blood glucose levels and weight were evaluated for 10 days, with remnant pancreas obtained for evaluation of beta-cell mass and turnover. RESULTS: Hyperglycemia and weight loss were induced after pancreatectomy (Px). After ITx or insulin treatment, blood glucose levels recovered to normal, and body weight started to increase. At 10 days after Px, fasting serum insulin levels, beta-cell mass, and insulin content in the remnant pancreas were higher in the ITx group than they were in the Px group. Insulin treatment after Px also increased beta-cell mass, but did not increase pancreatic insulin content compared with those in the Px group. The enhanced beta-cell mass and insulin content in the remnant pancreas of the ITx group resulted from increased beta-cell proliferation/neogenesis and from prevention of beta-cell apoptosis. CONCLUSIONS: These findings suggest that ITx after partial Px in mice enhances endogenous beta-cell regeneration and survival, rendering beta-cell mass increased and glucose homeostasis improved.

Delayed improvement of insulin secretion after autologous islet transplantation in partially pancreatectomized patients.

The purpose of this study was to evaluate the effects of autologous islet transplantation (ITx) on glucose homeostasis and insulin secretory function after partial pancreatectomy (Px). Fourteen nondiabetic patients who underwent distal Px and autologous ITx for benign pancreatic tumors were enrolled in the study (Px + ITx group). Fourteen normal glucose-tolerant controls and 6 Px without ITx controls were recruited, and all groups were followed over a 24-month period. They performed the 75-g oral glucose tolerance test and the 1-mg glucagon stimulation test. Hemoglobin A(1c) was measured, and indices of insulin secretion were calculated. In the Px + ITx group, insulin secretion increased after a nadir at 6 months. Glucose tolerance, which had been abruptly impaired immediately after Px, recovered until 6 months and stabilized thereafter. As a result, differences in glucose intolerance emerged between the subjects in the Px group and those in the Px + ITx group at 24 months after Px. Characteristic variables in the better insulin secretory subjects in the Px + ITx group included younger age, less extensive pancreas resection, and a greater number of total islets. In summary, delayed amelioration of glucose intolerance was induced by autologous ITx after partial Px, even with a small number of islets.

Antiobesity effects and improvement of insulin sensitivity by 1-deoxynojirimycin in animal models.

The alpha-glucosidase inhibitor 1-deoxynojirimycin (DNJ) is one of the simplest naturally occurring carbohydrate mimics, with promising biological activity in vivo. Although there is considerable interest in the pharmacological effects of DNJ, the antidiabetic effects of DNJ in type 2 diabetes mellitus have received little attention. In this work, DNJ was isolated from the silkworm (Bombyx mori), and its antidiabetic effects were evaluated in Otsuka Long-Evans Tokushima Fatty (OLETF) rats, an established animal model of human type 2 diabetes mellitus, and in control Long-Evans Tokushima Otsuka (LETO) rats. DNJ treatment showed significant antidiabetic effects in OLETF rats, with significant improvements in fasting blood glucose levels and glucose tolerance and, especially, increased insulin sensitivity. Furthermore, there was significant loss of body weight in both groups. DNJ also showed significant antihyperglycemic effects in streptozotocin- and high-fat-diet-induced hyperglycemic rats. Its efficacy and dose profiles were better than those of acarbose, a typical alpha-glucosidase inhibitor in clinical use. Furthermore, a substantial fraction of DNJ was absorbed into the bloodstream within a few minutes of oral administration. DNJ was also detected in the urine. These findings suggest that its postprandial hypoglycemic effect in the gastrointestinal tract is a possible but insufficient mechanism of action underlying the antidiabetic effects of DNJ. Its antiobesity effect and improvement of insulin sensitivity are other possible antidiabetic effects of DNJ.

A better yield of islet cell mass from living pancreatic donors compared with cadaveric donors.

Studies in rats have shown that brain death decreases beta-cell function and causes islet cell death during islet isolation and transplantation. Because a direct comparison of human islet cells between living and cadaveric donors has not been reported to date, we studied the effects of brain death on islet cell yield. A total of 36 pancreas specimens from 20 living donors and 16 cadaveric donors were used for analysis. Islets were isolated with a Ricordi chamber, and counted as equivalent islet numbers (EIN). Living donors were predominantly female, and cadaveric donors were mainly male. Although the cold ischemic time, pancreas distensibility and digestion time were not different, islet yield was observed to be higher in living donors compared with cadaveric donors (5800 +/- 3500 vs. 1900 +/- 2000 EIN/g pancreas). Islet isolation success rates (when defined as more than 2000 EIN/g) were 94.1% and 42.9%, respectively. Post-Ficoll islet recovery rates and purity were also better in living donors. However, islet viability and in vitro function of isolated islets showed no significant differences between the groups. These results suggested that brain death negatively affected the processes of islet isolation from the pancreas.

The favorable outcome of human islet transplantation in Korea: experiences of 10 autologous transplantations.

BACKGROUND: Cystic neoplasms of the pancreas are an increasingly diagnosed entity, and surgical resection of the pancreas is advocated. Islet autotransplantation is a therapeutic approach used to prevent diabetes in cases of pathologically benign neoplasm after major pancreatectomy. METHODS: A total of 10 patients underwent pancreatectomy with islet autotransplantation. To evaluate islet transplantation efficiency, the authors compared 23 subjects who did not undergo islet transplantation after partial pancreatectomy with 87 subjects with normal glucose tolerance and with 77 diabetic subjects that did not undergo pancreatectomy. RESULTS: Ten female patients with nine cystic neoplasms and one patient with pancreatic injury underwent transplantation. Their mean islet equivalents (IEQ) was 3,159 IEQ/kg. During follow-up, two recipients required insulin or oral agents. At the 12-month follow-up, homeostasis model assessment (HOMA)-beta was 77.36+/-17.68, the insulinogenic index (INSindex) was 0.49+/-0.11, and fasting C-peptide and hemoglobin A1c were 1.28+/-0.18 ng/mL and 5.73+/-0.26%, respectively. Islet replacement was found to increase HOMA-beta by approximately 17% compared with distal pancreatectomy in normal glucose tolerance subjects without islet autotransplantation and by 46% compared with distal pancreatectomy diabetes subjects without islet autotransplantation. Factors different in the two insulin and oral hypoglycemic agent (OHA)-requiring recipients and the eight insulin- and OHA-free recipients were pancreatectomy extent, preoperative glucose metabolism insufficiency, age, and underlying cystic neoplasm disease. CONCLUSIONS: Even partial islet graft function can have a beneficial metabolic effect on the recipient in terms of metabolic parameters such as HOMA-beta and INSindex. This study suggests that islet replacement should be considered for experimental procedures in benign pancreatic conditions.

Effective glycemic control achieved by transplanting non-viral cationic liposome-mediated VEGF-transfected islets in streptozotocin-induced diabetic mice.

Hypoxic damage is one of the major causes of islet graft failure and VEGF is known to play a crucial role in revascularization. To address the effectiveness of a cationic lipid reagent as a VEGF gene carrier, and the beneficial effect of VEGF-transfected islets on glycemic control, we used effectene lipid reagent in a transfection experiment using mouse islets. Transfection efficiencies were highest for 4 microg/microgL cDNA and 25 microgL effectene and cell viabilities were also satisfactory under this condition, and the overproduction of VEGF mRNA and protein were confirmed from conditioned cells. A minimal number of VEGF-transfected islets (100 IEQ/animal) were transplanted into streptozotocin (STZ)-induced diabetic mice. Hyperglycemia was not controlled in the islet transplantation (IT)-alone group (0/8) (non- diabetic glucose mice number/total recipient mice number) or in the IT-pJDK control vector group (0/8). However, hyperglycemia was completely abrogated in the IT-pJDK-VEGF transduced group (8/8), and viable islets and increased VEGF-transfected grafts vascularization were observed in renal capsules.