The use of fluorescein diacetate and ethidium bromide as a viability stain for isolated islets of Langerhans

There is a need for a simple, rapid, sensitive method for assessing the viability of isolated islets of Langerhans. In this study the fluorescent dyes fluorescein diacetate (FDA) and ethidium bromide (EB) have been used to provide a viability assay for isolated rat islets. Discrimination of living from dead islets is efficient; in a blind sorting experiment using freshly isolated islets and islets killed by either heat or alcohol, viability determined by insulin secretion in response to glucose stimulation correlated well with viability as determined by FDA/EB staining. Furthermore, it is possible to discriminate degrees of viability, and a scoring system is described for this purpose which is shown to correlate with another index of viability, the ATP content. A reliable viability stain should not itself be toxic; FDA/EB stained islets remain viable after staining, showing normal response to glucose stimulation and normal function after transplantation.     

A possible role of adenylate cyclase in the longterm dietary regulation of insulin secretion from rat islets of Langerhans

1. Adenylate cyclase activity and patterns of insulin release in response to various concentrations of glucose were determined in islets of Langerhans isolated from starving, fed, or glucose-loaded rats. 2. Basal and glucagon-stimulated activities of adenylate cyclase were lower in islets from starved than from fed rats. The minimum glucose concentration required for stimulation of insulin secretion was higher, whereas the maximum secretory response to glucose was lower, in islets from starved than from fed rats. 3. Adenylate cyclase activity in islets of Langerhans obtained from fed rats loaded with glucose by intermittent intravenous or intraperitoneal injections over 5h was significantly higher than that seen in islets from normal fed rats. Islets obtained from glucose-loaded rats required a lower glucose concentration for stimulation of insulin secretion and attained a higher maximal response to glucose stimulation than those derived from fed rats. 4. Incubation in vitro of islets isolated from normal fed rats, for periods of 1 to 24h in the presence of high concentrations of glucose resulted in an activation of adenylate cyclase that occurred progressively from 2 to 7h and which was maintained during 24h of incubation. The increase of adenylate cyclase activity in isolated islets incubated for 4h in the presence of glucose was not prevented by addition of cycloheximide or actinomycin D. Galactose or 2-deoxyglucose was ineffective in increasing adenylate cyclase activity, and pyruvate (20mm) was less effective than glucose. 5. It is suggested that glucose or a glucose metabolite may exert long-term effects on islet cell adenylate cyclase.     

Viability criteria of islets of Langerhans isolated and purified using Ficoll

Rejection of islet allografts is generally explained by immunologic problems, due to both cellular and antibody mechanisms. But another great problem is in the isolation of intact and viable islets of Langerhans: it is necessary to use a good method of pancreas distention, to determine the optimal concentration of collagenase for digestion, to select an effective technique for purifying the islets. This study correlates the morphology of isolated pancreatic islets of rats and dogs with secretion of insulin. The islets are incubated in a perifusion system and are tested during four periods; the glucose concentrations of the perifusion fluid are: 5.5 mM during the initial 70 min. period, 16.5 mM during the second 60 min. period, 5.5 mM during the third 60 min. period and 16.5 during the fourth 50 min. period. This "double glucose stimulation" is a good test of islet viability. The intact, viable isolated islets showed a significant increase of insulin secretion during the two 16.5 mM glucose periods. Damaged islets with some little morphologic alterations after showed a good insulin release during the first glucose stimulation, but a very poor insulin response to glucose during the second stimulation period.     

Genetically Modified Human Bone Marrow Derived Mesenchymal Stem Cells for Improving the Outcome of Human Islet Transplantation

The objective of this study was to determine the potential of human bone marrow derived mesenchymal stem cells (hBMSCs) as gene carriers for improving the outcome of human islet transplantation. hBMSCs were characterized for the expression of phenotypic markers and transduced with Adv-hVEGF-hIL-1Ra to overexpress human vascular endothelial growth factor (hVEGF) and human interleukin-1 receptor antagonist (hIL-1Ra). Human islets were co-cultured with hBMSCs overexpressing hVEGF and hIL-1Ra. Islet viability was determined by membrane fluorescent method and glucose stimulation test. Transduced hBMSCs and human islets were co-transplanted under the kidney capsule of NOD.Cg-Prkdc^scid Il2rg^tm1Wjl/SzJ (NSG) diabetic mice and blood glucose levels were measured over time to demonstrate the efficacy of genetically modified hBMSCs. At the end of study, immunofluorescent staining of kidney section bearing islets was performed for insulin and von Willebrand Factor (vWF). hBMSCs were positive for the expression of CD73, CD90, CD105, CD146 and Stro-1 surface markers as determined by flow cytometry. Transduction of hBMSCs with adenovirus did not affect their stemness and differentiation potential as confirmed by mRNA levels of stem cell markers and adipogenic differentiation of transduced hBMSCs. hBMSCs were efficiently transduced with Adv-hVEGF-hIL-1Ra to overexpress hVEGF and hIL-1Ra. Live dead cell staining and glucose stimulation test have shown that transduced hBMSCs improved the viability of islets against cytokine cocktail. Co-transplantation of human islets with genetically modified hBMSCs improved the glycemic control of diabetic NSG mice as determined by mean blood glucose levels and intraperitoneal glucose tolerance test. Immunofluorescent staining of kidney sections was positive for human insulin and vWF. In conclusion, our results have demonstrated that hBMSCs may be used as gene carriers and nursing cells to improve the outcome of islet transplantation.     

Reliability of cartilage digestion and FDA–EB fluorescence staining for the detection of chondrocyte viability in osteochondral grafts

The purpose of this study is to evaluate the reliability of cartilage digestion and fluorescein diacetate-ethidium bromide (FDA–EB) fluorescence staining for the detection of chondrocyte viability in osteochondral grafts. Sixteen fresh osteochondral grafts were harvested from pig knee condyles, and the articular cartilage tissue was preserved. Each cartilage graft was cut into two 70-µm thick pieces and randomly allocated to Group A or Group B. The cell viability of Group A was detected using FDA–EB fluorescence staining of the digested cartilage, and the viability of Group B was detected with FDA–EB fluorescence staining of cartilage sections. Comparisons of chondrocyte viability and correlation analyses of the two groups were performed using the paired sample t test and Pearson correlation test, respectively. No significant difference was found in the chondrocyte viability between Groups A and B (p > 0.05), and a strong correlation was observed (r = 0.70, p < 0.05). Therefore, cartilage digestion with FDA–EB fluorescence staining is a reliable method for detecting chondrocyte viability in osteochondral grafts.     

Changes in glucose-stimulated insulin secretion after long-term treatment of C57BL mice with glibenclamide

An insulin response to increased glucose concentrations could not be found in vivo and in vitro after long-term treatment of C57BL/KsJ and C57BL/6J mice with Glibenclamide. This missing stimulation of insulin secretion was not the result of an exhaustion of the islets or a disturbed (pro)insulin biosynthesis as demonstrated by measurements of insulin content of the islets and by in vitro (pro)insulin biosynthesis experiments. In the presence of glucose (15 mmol/l) theophylline increased the insulin secretion of isolated islets of Glibenclamide-treated mice to values similar to control islets. The insulin response to an i.p. glucose loading was found to be normal in comparison with control mice 1-2 weeks after the Glibenclamide treatment had been finished.     

Effects of precryopreservation culture on survival of rat islets transplanted after slow cooling and rapid thawing

Despite the frequent use of in vitro tissue culture before islet cryopreservation, no study has evaluated the ability of this procedure to improve the recovery or in vivo function of frozen-thawed islets. To evaluate this, quantities of 2500 Wistar-Furth (WF) rat islets were allocated to each of four groups (n = 8 each): group 1, freshly isolated; group 2, 48 hr in vitro culture; group 3, cryopreservation; group 4, cryopreservation after 48 hr in culture. Islets were frozen slowly at 0.25 degrees C/min and thawed rapidly at 200 degrees C/min. The number of islets recovered after culture or cryopreservation was determined and viability was assessed by measuring weekly indices of plasma glucose (PG), urine glucose (UG), urine volume (UV), and weight after implantation into the portal vein of streptozotocin-diabetic WF recipients. Islet recovery was 97% after culture, 95% after cryopreservation, and 94% after culture-then cryopreservation. After implantation of group 1 and 2 islets, PG was less than 150 mg/dl at 1 week and UG and UV were normal by 1-2 weeks. Group 3 islets restored normoglycemia at 3 weeks and other indices of diabetes were reversed by 4 weeks; group 4 islets restored normoglycemia at 4 weeks and indices returned to basal after 4 weeks. At intravenous glucose tolerance testing (ivGTT), the K values (mean decline in glucose, %/min, +/- SE) were group 1, 1.6 +/- 0.3; group 2, 1.5 +/- 0.3; group 3, 0.6 +/- 0.1; and group 4, 0.7 +/- 0.2. These data show that cryopreservation preserves freshly isolated or cultured islets that reverse the indices of diabetes after implantation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Alterations in regulation of insulin biosynthesis in pregnancy and starvation studied in isolated rat islets of Langerhans

1. Insulin biosynthesis in isolated rat islets of Langerhans was determined by the incorporation of [(3)H]leucine into newly synthesized islet proteins. Anti-insulin serum covalently coupled to a solid phase (CNBr-activated Sepharose 4B) was used to separate the immunoreactive proinsulin and insulin from other islet proteins. This method was applied to a study of the regulation of insulin biosynthesis in isolated rat islets of Langerhans during pregnancy, and immediately after a period of food deprivation. 2. Islets isolated from pregnant rats showed an increased basal rate of synthesis compared with the non-pregnant controls. In addition, they showed a significant increase in biosynthesis of proinsulin and insulin in comparison with the normal islets over a range of glucose concentrations of 2-20mm. 3. Addition of the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine significantly increased the insulin-synthetic response of normal islets over the glucose range 5-20mm, so that their glucose response approached that of islets from pregnant rats. 4. Normal female rates were injected with a long-acting progesterone derivative (hydroxyprogesterone hexanoate), to investigate the role of progesterone on the increased insulin biosynthesis observed in islets in pregnancy. There appeared to be no marked difference in insulin biosynthesis between the islets from the progesterone-injected and control rats in the presence of 2mm- or 6mm-glucose alone. However, in the presence of 4mm- or 6mm-glucose and 3-isobutyl-1-methylxanthine there was a significant increase in insulin biosynthesis in the progesterone-treated animals. 5. Total islet protein biosynthesis was determined by the incorporation of [(3)H]leucine into trichloroacetic acid-precipitable islet proteins. Islets isolated from normal rats showed a 1.6-fold increase in incorporation over the glucose concentration range 2-20mm, and this value remained unchanged during starvation; however, rates of incorporation were significantly raised in islets isolated from pregnant rats in the presence of 20mm-glucose. 6. Islets from starved and fed control rats were incubated in the presence of increasing concentrations of glucose or glucose+3-isobutyl-1-methylxanthine. The islets isolated from the starved animals showed a diminished insulin-synthetic response to glucose as compared with the controls; this response was partially restored to normal values by elevation of cyclic AMP concentrations by using 3-isobutyl-1-methylxanthine. 7. It is suggested that the alterations in glucose-stimulated insulin biosynthesis observed in islets during pregnancy and after a period of starvation could be attributable, at least in part, to a long-term alteration of the cyclic AMP system, and in pregnancy to a direct or indirect effect of progesterone on beta-cell function.     

The cytoprotection of chitosan based hydrogels in xenogeneic islet transplantation: An in vivo study in streptozotocin-induced diabetic mouse

Immune rejection and scarcity of donor tissues are the restrictions of islets transplantation. In this study, the cytoprotection of chitosan hydrogels in xenogeneic islet transplantation was demonstrated. Wistar rat islets encapsulated in chitosan hydrogels were performed glucose challenge test and live/dead cell staining in vitro. Islets/chitosan hydrogels were transplanted into the renal subcapsular space of diabetic C57BL/6 mice. Non-fasting blood glucose level (NFBG), body weight, intraperitoneal glucose tolerance test (IPGTT), and glucose disappearance rate were determined perioperatively. The serum insulin level was analyzed, and the kidney transplanted with islets/chitosan hydrogels were retrieved for histological examination after sacrifice. The present results showed that islets encapsulated in chitosan hydrogels secreted insulin in response to the glucose stimulation as naked islets with higher cell survival. The NFBG of diabetic mice transplanted with islets/chitosan hydrogels decreased from 487 ± 46 to 148 ± 32 at one day postoperation and maintained in the range of 201 ± 36 mg/dl for four weeks with an increase in body weight. IPGTT showed the glucose disappearance rate of mice transplanted with islets/chitosan hydrogels was significant faster than that of mice transplanted with naked islets; the serum insulin level increased from 0.29 ± 0.06 to 1.69 ± 0.65 μg/dl postoperatively. Histological examination revealed that the islets successfully engrafted at renal subcapsular space with positive insulin staining. The immunostain was negative for neither the T-cell lineages nor the monocyte/macrophages. This study indicates that the chitosan hydrogels deliver and protect encapsulated islets successfully in xenotransplantation.     

Effect of neonatal streptozotocin and thyrotropin-releasing hormone treatments on insulin secretion in adult rats

Neonatal STZ (nSTZ) treatment results in damage of pancreatic B-cells and in parallel depletion of insulin and TRH in the rat pancreas. The injury of B-cells is followed by spontaneous regeneration but dysregulation of the insulin response to glucose persists for the rest of life. Similar disturbance in insulin secretion was observed in mice with targeted TRH gene disruption. The aim of present study was to determine the role of the absence of pancreatic TRH during the perinatal period in the nSTZ model of impaired insulin secretion. Neonatal rats were injected with STZ (90 microg/g BW i.p.) and the effect of exogenous TRH (10 ng/g BW/day s.c. during the first week of life) on in vitro functions of pancreatic islets was studied at the age 12-14 weeks. RT-PCR was used for determination of prepro-TRH mRNA in isolated islets. Plasma was assayed for glucose and insulin, and isolated islets were used for determination of insulin release in vitro. The expression of prepro-TRH mRNA was only partially reduced in the islets of adult nSTZ rats when compared to controls. nSTZ rats had normal levels of plasma glucose and insulin but the islets of nSTZ rats failed to response by increased insulin secretion to stimulation with 16.7 mmol/l glucose or 50 mmol/l KCl. Perinatal TRH treatment enhanced basal insulin secretion in vitro in nSTZ animals of both sexes and partially restored the insulin response to glucose stimulation in nSTZ females.     

Determination of orchid seed viability using fluorescein diacetate

Abstract Fluorescein diacetate (FDA) staining (0.25% FDA for 10 min) was found to be a suitable technique for the rapid determination of orchid seed viability. Penetration of the dye through the testa varies between species, thus the test is ideally performed on isolated embryos. Direct FDA application to isolated embryos of seeds taken from dry storage, but after the surface had been sterilized, elicits a poor staining reaction. Incubation of the surface sterilized seeds in distilled water for 16 h, either at 6°C or at room temperature, prior to applying the test was found to overcome this problem. In the range of species studied, FDA staining accurately indicates seed viability when compared with germination of seeds on sterile nutrient media. Storage of dry Dactylorhiza fuchsii (Druce) Soó seed at an elevated temperature of 62°C indicated that, under such conditions of accelerated ageing, the FDA test accurately describes the rate of seed viability loss.     

联合应用大鼠血管内皮细胞和胰岛培养对胰岛功能的影响

目的 探讨通过体外共培养胰岛和血管内皮细胞能否改善胰岛的功能.方法 SD 大鼠分离纯化出胰岛细胞,分为两组：A 组胰岛单纯培养组,B 组胰岛和内皮细胞共培养组.从大鼠的胸主动脉分离纯化出血管内皮细胞,胰岛分离纯化后通过AO/PI 染色和胰岛素释放实验来判断两组胰岛的活性.结果 共培养组胰岛在7 d 内维持正常的形态,90﹪的胰岛通过AO/PI 染色显示良好的活性;胰岛素释放实验显示第7 天（2.21 ± 0.21）和第14 天（2.53 ± 0.21）共培养组和单纯培养组（1.94 ± 0.15,1.71 ± 0.19）刺激指数差异有统计学意义（P 〈 0.05）.结论 应用大鼠血管内皮细胞和胰岛共培养能够改善胰岛的存活及分泌功能.     

Reduced insulin secretion in response to nutrients in islets from malnourished young rats is associated with a diminished calcium uptake

Changes in (45)Ca uptake and insulin secretion in response to glucose, leucine, and arginine were measured in isolated islets derived from 4-week-old rats born of mothers maintained with normal protein (NP, 17%) or low protein (LP, 6%) diet during pregnancy and lactation. Glucose provoked a dose-dependent stimulation of insulin secretion in both groups of islets, with basal (2.8 mmol/L glucose) and maximal release (27.7 mmol/L glucose) significantly reduced in LP compared with NP islets. In the LP group the concentration-response curve to glucose was shifted to the right compared with the NP group, with the half-maximal response occurring at 16.9 and 13.3 mmol/L glucose, respectively. In LP islets, glucose-induced first and second phases of insulin secretions were drastically reduced. In addition, insulin response to individual amino acids, or in association with glucose, was also significantly reduced in the LP group compared with NP islets. Finally, in LP islets the (45)Ca uptake after 5 minutes or 90 minutes of incubation (which reflect mainly the entry and retention, respectively, of Ca(2+)), was lower than in NP islets. These data indicate that in malnourished rats both initial and sustained phases of insulin secretion in response to glucose were reduced. This poor secretory response to nutrients seems to be the consequence of an altered Ca(2+) handling by malnourished islet cells.     

In vitro and in vivo protective effect of Ganoderma lucidum polysaccharides on alloxan-induced pancreatic islets damage

This study was undertaken to investigate the protective effect against alloxan-induced pancreatic islets damage by Ganoderma lucidum Polysaccharides (Gl-PS) isolated from the fruiting body of Ganoderma lucidum (Leyss. ex Fr.) Karst. In vitro, alloxan caused dose-dependent toxicity on the isolated pancreatic islets. Pre-treatment of islets with Gl-PS for 12 h and 24 h significantly reversed alloxan-induced islets viability loss. Gl-PS was also found to inhibit the free radicals production induced by alloxan in the isolated pancreatic islets using confocal microscopy. Gl-PS dose-dependently increased serum insulin and reduced serum glucose levels when pretreated intragastrically for 10 days in alloxan-induced diabetic mice. It was found that the pancreas homogenates had higher lipid peroxidation products in alloxan-treated mice than in the Gl-PS-treated animals. Aldehyde fuchsin staining revealed that alloxan caused nearly all the beta cells disappearing from the pancreatic islets, while Gl-PS partly protected the beta cells from necrosis. Alloxan (60 mg/kg) induced NF-kappa B activation in the pancreas at 30 min after injection, pretreatment with Gl-PS inhibited alloxan-induced activation of NF-kappa B. These results suggest that Gl-PS was useful in protecting against alloxan-induced pancreatic islets damage in vitro and in vivo; one of the mechanisms is through its scavenging ability to protect the pancreatic islets from free radicals-damage induced by alloxan.     

The apj receptor is expressed in pancreatic islets and its ligand, apelin, inhibits insulin secretion in mice

Apelin is the endogenous ligand of the G-protein coupled apj receptor. Apelin is expressed in the brain, the hypothalamus and the stomach and was recently shown also to be an adipokine secreted from the adipocytes. Although apelin has been suggested to be involved in the regulation of food intake, it is not known whether the peptide affects islet function and glucose homeostasis. We show here that the apj receptor is expressed in pancreatic islets and that intravenous administration of full-length apelin-36 (2 nmol/kg) inhibits the rapid insulin response to intravenous glucose (1 g/kg) by 35% in C57BL/6J mice. Thus, the acute (1-5 min) insulin response to intravenous glucose was 682+/-23 pmol/l after glucose alone (n=17) and 445+/-58 pmol/l after glucose plus apelin-36 (n=18; P=0.017). This was associated with impaired glucose elimination (the 5-20 min glucose elimination was 2.9+/-0.1%/min after glucose alone versus 2.3+/-0.2%/min after glucose plus apelin-36, P=0.008). Apelin (2 nmol/kg) also inhibited the insulin response to intravenous glucose in obese insulin resistant high-fat fed C57BL/6J mice (P=0.041). After 60 min incubation of isolated islets from normal mice, insulin secretion in the presence of 16.7 mmol/l glucose was inhibited by apelin-36 at 1 mumol/l, whereas apelin-36 did not significantly affect insulin secretion at 2.8 or 8.3 mmol/l glucose or after stimulation of insulin secretion by KCl. Islet glucose oxidation at 16.7 mmol/l was not affected by apelin-36. We conclude that the apj receptor is expressed in pancreatic islets and that apelin-36 inhibits glucose-stimulated insulin secretion both in vivo and in vitro. This may suggest that the islet beta-cells are targets for apelin-36.     

Viability studies on frozen--thawed rat islets of Langerhans.

In an attempt to determine logistical methods of curing diabetes mellitus in man, an investigation has been made on the viability, in vitro and in vivo, of deeply frozen (?150 °C) cryoprotected rat islets of Langerhans. It is found that rat islets, after recovery from a frozen bank of several syngeneic donors, secrete insulin, when thawed, cultured, and then subjected to a high glucose challenge. Cryoprotected frozen-thawed islets are also examined by electron microscopy. In vivo transplantation of recovered frozen islets has been studied for a period of 16 weeks in one streptozotocindiabetic Lewis rat. All normal tests indicated recovery. After sacrifice, staining procedures showed viable islets in the liver, the site of reimplantation, and only dead islet Beta cells in the pancreas.     

Beneficial effect of pretreatment of islets with fibronectin on glucose tolerance after islet transplantation.

The scarcity of available islets is an obstacle for clinically successful islet transplantation. One solution might be to increase the efficacy of the limited islets. Isolated islets are exposed to a variety of cellular stressors, and disruption of the cell-matrix connections damages islets. We examined the effect of fibronectin, a major component of the extracellular matrix, on islet viability, mass and function, and also examined whether fibronectin-treated islets improved the results of islet transplantation. Islets cultured with fibronectin for 48 hours maintained higher cell viability (0.146 +/- 0.010 vs. 0.173 +/- 0.007 by MTT assay), and also had a greater insulin and DNA content (86.8 +/- 3.6 vs. 72.8 +/- 3.2 ng/islet and 35.2 +/- 1.4 vs. 30.0 +/- 1.5 ng/islet, respectively) than islets cultured without fibronectin (control). Absolute values of insulin secretion were higher in fibronectin-treated islets than in controls; however, the ratio of stimulated insulin secretion to basal secretion was not significantly different (206.9 +/- 23.3 vs. 191.7 +/- 20.2% when the insulin response to 16.7 mmol/l glucose was compared to that of 3.3 mmol/l glucose); the higher insulin secretion was thus mainly due to larger islet cell mass. The rats transplanted with fibronectin-treated islets had lower plasma glucose and higher plasma insulin levels within 2 weeks after transplantation, and had more favorable glucose tolerance 9 weeks after transplantation. These results indicate that cultivation with fibronectin might preserve islet cell viability, mass and insulin secretory function, which could improve glucose tolerance following islet transplantation.     

The effect of preparative pancreatic digestion with collagenase on the glucose stimulated insulin secretion of isolated Langerhans islets]

Pancreatic islets of wistar rats, isolated after 15 min of digestion with collagenase, secreted insulin in response to 15.0 mM glucose within 2 min and showed the typical sigmoidal glucose response during an incubation time of 15 and 60 min, respectively. Islets, isolated after 35 min of digestion with collagenase, responded with delay after stimulation with glucose (after 15 min of incubation), and are characterized by an increased "release" in the presence of 2.5 mM glucose.     

University of Wisconsin Solution with Trypsin Inhibitor Pefabloc Improves Survival of Viable Human and Primate Impure Islets During Storage

Background. Recent studies suggest that impure islets (islets which have not been isolated from exocrine tissue and other parts of the pancreas) have great potential for successful transplantation. The evidence that supports this view includes findings that embedded islets (islets surrounded by exocrine tissue) undergo less apoptosis, peripancreatic lymph nodes prevent recurrence of IDDM (insulin dependent diabetes mellitus), and that islet yields and insulin content decrease during the purification process. Improved protocols have also been developed to prevent allorejection of impure islets. Despite these promising results, the storage of impure islets remains difficult, and was a method sought to decrease storage losses. Methods. Storage methods of impure human and non-human primate islets were compared, using either culture media or University of Wisconsin solution (UW). The effects of trypsin inhibition using Pefabloc (Roche Molecular Biochemicals, Indianapolis, IN) during storage period were also examined. Results. Low temperature and inhibition of trypsin activity during storage of impure islets improved both islet yield and viability. It was found that using UW solution and trypsin inhibition allowed perfect preservation of viable impure islets up to 48h. A functional assay by glucose stimulation test showed these impure islet responded to glucose stimulation after 24h. Conclusion. The benefits of storing impure islets using UW solution and Pefabloc at low temperature have been established. This improved method of preserving impure islets makes this model of transplantation even more viable.     

Reduction of diffusion barriers in isolated rat islets improves survival,but not insulin secretion or transplantation outcome

For people with type 1 diabetes and severe hypoglycemic unawareness, islet transplants offer hope for improving the quality of life. However, islet cell death occurs quickly during or after transplantation, requiring large quantities of islets per transplant. The purpose of this study was to determine whether poor function demonstrated in large islets was a result of diffusion barriers and if removing those barriers could improve function and transplantation outcomes. Islets were isolated from male DA rats and measured for cell viability, islet survival, glucose diffusion and insulin secretion. Modeling of diffusion barriers was completed using dynamic partial differential equations for a sphere. Core cell death occurred in 100% of the large islets (diameter > 150 μm), resulting in poor survival within 7 days after isolation. In contrast, small islets (diameter &lt; 100 μm) exhibited good survival rates in culture (91%). Glucose diffusion into islets was tracked with 2-NBDG; 4.2 μm/min in small islets and 2.8 μm/min in large islets. 2-NBDG never permeated to the core cells of islets larger than 150μm diameter. Reducing the diffusion barrier in large islets improved their immediate and long-term viability in culture. However, reduction of the diffusion barrier in large islets failed to improve their inferior in vitro insulin secretion compared to small islets, and did not return glucose control to diabetic animals following transplantation. Thus, diffusion barriers lead to low viability and poor survival for large islets, but are not solely responsible for the inferior insulin secretion or poor transplantation outcomes of large versus small islets.