Isolation of human and porcine islets of Langerhans and islet transplantation in pigs

Using a modification of the collagenase digestion, Ficoll gradient separation technique, we isolated the islets of Langerhans from fresh human pancreata removed from braindead cadavers. Comparison of the tissue insulin/amylase ratios between whole pancreas and isolated material revealed a significant purification of islet from acinar tissue. Also, islets isolated by this technique, when incubated in vitro, incorporated radiolabeled amino acid precursors into acid-alcohol-soluble islet proteins, thus indicating their viability and protein hormonal synthesis capabilities.Pig pancreata were processed by a similar technique, and the isolated material was transplanted to pigs with diabetes induced by total pancreatectomy. The mean survival time of the 11 pancreatectomized pigs that received an islet transplant was 15.3 days, while 13 pancreatectomized control pigs had a mean survival time of 6.0 days. Control pigs had no detectable circulating insulin 2 days after pancreatectomy. The pancreatectomized pigs that received an islet transplant, although remaining hyperglycemic, had insulin levels ranging from 5 to 14 μU/ml for up to 25 days after transplantation.The present studies demonstrate the feasibility of an approach designed for our ultimate goal—the large scale isolation and transplantation of islets in man.     

Influence of collagenase loading on long-term preservation of pig pancreas by the two-layer method for subsequent islet isolation

BACKGROUND: The introduction of the two-layer method (TLM) for long-term human pancreas preservation revealed the enormous potential of TLM to improve graft function of isolated islets. It is still unclear whether pig islets can be successfully isolated from pancreases after prolonged cold ischemia. To clarify this question, pig pancreases were subjected to 7-hour preservation by University of Wisconsin solution (UWS) storage or TLM. Another aim was to verify whether TLM can be synergistically combined with intraductal collagenase injection before cold storage. METHODS: After intraductal flush with UWS, organs were distended with 4.4 PZ-U/g of UWS-dissolved collagenase NB-8 and neutral protease adjusted to respectively 1.1, 0.2, 0.5, or 0.8 DMC-U/g for pancreases freshly procured (n=6) or distended with enzymes before (TLM preloaded, n=7) or after cold storage (UWS storage, n=4; TLM postloaded, n=10). RESULTS: Purified islet yield decreased from 429,200+/-86,700 islet equivalents (IEQ) in unstored pancreases to respectively 37,670+/-19620, 210,400+/-22900 and 238,000+/-26600 IEQ in UWS-stored (P<0.01), TLM-preloaded, or postloaded organs (P<0.05). Purity (>90%), viability (>95%), and insulin content were not different between groups. Islets from UWS-stored pancreases fragmented extensively, preventing further assessment of in vivo function. Compared with other experimental groups, islets from TLM-preloaded organs were characterized by enhanced basal and stimulated insulin release. Sustained normoglycemia was observed in diabetic nude mice transplanted with islets from TLM-postloaded or unstored pancreases in contrast with transient function in TLM-preloaded islets. CONCLUSIONS: This study demonstrates that significant amounts of intact pig islets can be isolated after prolonged pancreas preservation by TLM. Enzyme administration before TLM preservation decreases islet graft function.     

Adaption of neutral protease activity for islet isolation from the long-term two-layer method-stored pig pancreas

BACKGROUND: Islet release from the pancreas is mediated by both collagenase and neutral protease (NP), a critical effector of islet integrity. To prove the hypothesis that adjustment of NP reduces islet damage after prolonged ischemia, adult pig pancreata were digested after 7-hour preservation by the two-layer method (TLM) using a 2-component enzyme blend consisting of collagenase NB-8 and NP. METHODS: After intraductal University of Wisconsin (UW) flush resected pancreata were distended with 4.4 PZ-U/g of UW-dissolved Serva collagenase either before (TLM-preloaded, n = 7) or after (TLM-postloaded, n = 10) cold storage, or for immediate processing (n = 6). NP was adjusted after preliminary experiments to respectively 1.1, 0.2, or 0.8 DMC-U/g for unstored, TLM-preloaded, or postloaded organs. RESULTS: Purified islet yield decreased from 3670 +/- 730 islet equivalents (IEQ)/g in unstored pancreata to 1800 +/- 180 and 2080 +/- 290 IEQ/g in TLM-preloaded or postloaded organs, respectively (P < .05). Although purity was always >90%, IEQ recovery was significantly decreased in TLM-preloaded pancreata. Quality control revealed consistently high viability as determined using trypan-blue exclusion (>95%) or formazan production. Compared with unstored organs (2.47 +/- 0.36; P < .05), glucose stimulation index was reduced in TLM-preloaded (1.48 +/- 0.15) and TLM-postloaded pancreata (1.81 +/- 0.20). Normoglycemia in diabetic nude mice transplanted with islets from TLM-preloaded pancreata was transient in contrast to sustained function in the other groups. CONCLUSIONS: Significant amounts of viable pig islets can be isolated after prolonged TLM preservation by reducing NP activity. Nevertheless, early enzyme administration prior to long-term storage deteriorates islet graft function.     

Portal Venous Oxygen Persufflation of the Donation after Cardiac Death pancreas in a rat model is superior to static cold storage and hypothermic machine perfusion

Success of clinical pancreatic islet transplantation depends on the mass of viable islets transplanted and the proportion of transplanted islets that survive early ischaemia reperfusion injury. Novel pancreas preservation techniques to improve islet preservation and viability can increase the utilization of donation after cardiac death donor pancreases for islet transplantation. Rat pancreases were retrieved after 30 min of warm ischaemia and preserved by static cold storage, hypothermic machine perfusion or retrograde portal venous oxygen persufflation for 6 h. They underwent collagenase digestion and density gradient separation to isolate islets. The yield, viability, morphology were compared. In vitro function of isolated islets was compared using glucose stimulated insulin secretion test. Portal venous oxygen persufflation improved the islet yield, viability and morphology as compared to static cold storage. The percentage of pancreases with good in vitro function (stimulation index > 1.0) was also higher after oxygen persufflation as compared to static cold storage. Retrograde portal venous oxygen persufflation of donation after cardiac death donor rat pancreases has the potential to improve islet yield.     

Superiority of the two-layer method before islet isolation confirmed by in vivo viability assessment

BACKGROUND: Although the outcome of islet transplantation has improved, there remains a major obstacle in isolating viable islets from prolonged preserved pancreas. We previously reported that the two-layer cold storage method (TLM) improved the yield and in vitro function. In this study, we performed in vivo accurate functional analyses of islets from TLM-preserved pancreas and investigated pancreatic duct cell viability, which may critically affect islet isolation. METHODS: Rat islets isolated from fresh pancreas (group 1), after preservation in the University of Wisconsin (UW) solution (group 2) or by the TLM (group 3), were examined by assessing islet yields, stimulation indices, cure rates after transplantation to diabetic nude mice, and trypan blue uptake of pancreatic duct cells. RESULTS: TLM significantly improved the islet yield compared with UW cold storage. The cure rates after transplantation were 100%, 0%, and 80% for groups 1, 2, and 3, respectively. This indicates that islet viability was well maintained even after 24 hr of TLM preservation. The percentages of nonviable duct cells were 4.1%+/-1.9%, 48.3%+/-8.0%, and 26.1%+/-21.4% in groups 1, 2, and 3, respectively, showing that the TLM was superior to UW as seen by this duct cell viability assessment. CONCLUSIONS: The TLM used for pancreas preservation before islet isolation results in excellent islet function in addition to improved islet yield comparable to freshly isolated islets. The underlying mechanism may be duct cell viability maintained during TLM preservation. Therefore the TLM is an excellent preservation technique for isolating sufficient numbers of highly viable islets.     

Inducible nitric oxide synthetase is expressed in adult but not fetal pig pancreatic islets

Abstract: Cytokine-induced expression of inducible nitric oxide synthetase (iNOS) and production of nitric oxide (NO) by pancreatic islet cells has been suggested as one potential mechanism for beta cell destruction. In this study, we investigated the role of iNOS and NO in islet primary non-function. Islets were assessed for their function, viability and expression of iNOS. Adult rat and pig islets isolated by collagenase digestion and fetal pig pancreas (FPP) grafts isolated by collagenase digestion or high oxygen culture were transplanted into C57BL6 mice and nude mice. iNOS protein was detected by immunohistochemistry. iNOS protein was found in normal rat and pig pancreas and adult rat and pig islets that were isolated by collagenase digestion and transplanted into either C57BL6 mice or nude mice. iNOS was not detected in fetal pig islet grafts, regardless of whether collagenase was used in the isolation process. In adult pig islet grafts, the presence of iNOS protein correlated with high levels of islet cell apoptosis and primary non-function. Despite the persistent presence of iNOS in rat islets, there was no evidence that it had a deleterious effect on rat islet viability, or function. Therefore, in isolated adult pig islets, there was a correlation between iNOS expression and apoptosis, suggesting that iNOS activation may be deleterious to the adult pig islets. However, other factors such as the fragility of the islet capsule may be equally important. By contrast, fetal pig islets did not express iNOS and this may be an important reason for their enhanced viability when compared with adult islet tissue.     

Effect of stable glutamine compounds on porcine islet culture

BACKGROUND: Pig islets are characterized by significant fragility, preventing successful islet culture prior to xenotransplantation. To improve outcome after culture, we compared the effects of glutamine supplementation on survival and viability of isolated pig islets during culture. METHODS: Pig islets were suspended in CMRL 1066 supplemented either with 2.5 mmol/L N-acetyl-L-alanyl-L-glutamine (NALG), a stable compound of L-glutamine, or with 2.5 or 5.0 mmol/L of free L-glutamine (L-Glu). After 24 hours of preincubation, islets were stressed for additional 48 hours with H2O2, DETA, or a cytokine mix. RESULTS: Twenty-four-hour survival of unstressed controls precultured with 2.5 mmol/L NALG was significantly decreased compared with islets pretreated with 2.5 or 5.0 mmol/L L-Glu (P < .01). Fresh islets, viability decreased significantly after NALG preincubation, but was maintained after preincubation in 2.5 or 5.0 mmol/L L-Glu (not significant vs fresh; P < .05 vs NALG). Compared with NALG pretreatment L-Glu did not significantly ameliorate the relative survival (related to cultured controls) of islets during proinflammatory treatment. Nevertheless, the beneficial effect of L-Glu preculture on absolute survival (related to freshly isolated islets) of stressed islets was still present in contrast to NALG pretreatment (P < .01). Viability of stressed islets was significantly protected by L-Glu but not by NALG. CONCLUSIONS: Pig islet culture is significantly improved if L-glutamine is administered in an unbound form compared with the stable compound NALG. Stress resistance of pig islets seems to be increased by free L-glutamine as well.     

Comparison of modified Celsior solution and M-kyoto solution for pancreas preservation in human islet isolation

Since the successful demonstration of the Edmonton protocol, islet transplantation has advanced significantly on several fronts, including improved pancreas preservation systems. In this study, we evaluated two different types of organ preservation solutions for human islet isolation. Modified Celsior (Celsior solution with hydroxyethyl starch and nafamostat mesilate; HNC) solution and modified Kyoto (MK) solution were compared for pancreas preservation prior to islet isolation. Islet yield after purification was significantly higher in the MK group than in the HNC group (MK = 6186 ± 985 IE/g; HNC = 3091 ± 344 IE/g). The HNC group had a longer phase I period (digestion time), a higher volume of undigested tissue, and a higher percentage of embedded islets, suggesting that the solution may inhibit collagenase. However, there was no significant difference in ATP content in the pancreata or in the attainability of posttransplant normoglycemia in diabetic nude mice between the two groups, suggesting that the quality of islets was similar among the two groups. In conclusion, MK solution is better for pancreas preservation before islet isolation than HNC solution due to the higher percentage of islets that can be isolated from the donor pancreas. MK solution should be the solution of choice among the commercially available solutions for pancreatic islet isolation leading to transplantation.     

Total pancreatectomy in the pig for islet transplantation. Technical alternatives

Pigs appear to be a suitable biological and logistical animal donor of islets for xenotransplantation in human diabetic type I recipients. To improve the islet isolation technique in this species, to evaluate the islet function in vivo, and to assess the toxic effects of various immunosuppressive regiments on transplanted islets will necessitate a model of the pancreatectomized pig suitable for islet autotransplantation. We describe three techniques of total pancreatectomy in pigs. The first removed the pancreas in order to study postoperative management and pig survival; no attempt was made to preserve the pancreas for islet isolation. The second consisted of a pancreatectomy in a surviving pig, with careful preservation of the whole pancreas for subsequent islet isolation. The third was rapid en bloc procurement of the pancreas and duodenum, to obtain a pancreas solely for the purpose of islet isolation. We conclude that pigs tolerate and survive a total pancreatectomy--they are suitable animals for islet isolation and possible autotransplantation. The result of islet isolation does not appear related to the pancreas procurement technique; however, the islet yield must be improved before autotransplantation can be functionally successful.     

Cholestatic Liver Injury After Biliary Reconstruction Impairs Transplanted Islet Viability and Function

Islet autotransplantation following total pancreatectomy differs from allograft transplantation with respect to the requirement of biliary reconstruction. Although it is known that careful consideration should be given to postoperative cholestatic liver injury after biliary reconstruction, its direct effects on transplanted islets have not been completely elucidated. In this study, we developed a murine model of postoperative cholestatic liver injury after biliary reconstruction with islet autotransplantation that involved syngeneic intraportal islet transplantation into chemically induced diabetic mice and common bile duct ligation. We assessed the viability and function of the transplanted islets. The impaired viability of transplanted islets and increased blood glucose levels indicated restoration of the diabetic state after common bile duct ligation in this murine model. Furthermore, impaired islet viability and function occurred earlier in the transplanted islets than in the surrounding liver tissues, which was consistent with the faster and higher expression of oxidative stress markers in the transplanted islets. Transplanted islets may be more vulnerable to oxidative stress caused by cholestatic liver injury than the surrounding liver tissue. Therefore, patients should be intensively managed after total pancreatectomy with islet autotransplantation to preserve viability and function of the transplanted islets.     

Pretransplant induction of HSP-70 in isolated adult pig islets decreases early islet xenograft survival

The heat-induced HSP-70 expression protects rat islet single cells against lysis mediated by nitric oxide (NO), reactive oxygen, and streptozotocin. The present study was performed to investigate the potential antiinflammatory effect of pretransplant heat shock in adult pig islets for subsequent early islet xenograft survival. Maximum HSP-70 expression in freshly isolated pig islets was induced by hyperthermia at 43 degrees C for 90 min prior to islet regeneration at 37 degrees C for 4-6 h. Heat-stressed and sham-treated islets were incubated in 0.6 mM H2O2 or 1.5 mM Na-nitroprusside at 37 degrees C for 20 h. Early graft survival was evaluated in normoglycemic Lewis rats after simultaneous, contralateral transplantation of heat-shocked islets and sham-treated islets into the renal subcapsular space of the same recipient. Prior hyperthermia significantly reduced specific lysis of islets exposed to NO or H2O2, although protection was only marginal. No differences were observed between viability of heat-shocked and sham-treated islets after NO exposure. In contrast, prior heat shock increased islet viability after H2O2 treatment. The finding that hyperthermia reduced recovery of initially grafted pig insulin 48 h after transplantation by 30% compared to controls contrasted significantly with an increased insulin recovery in heat-exposed islets at the end of simultaneous 37 degrees C culture. The observation, that the heat-induced HSP-70 expression decreases early islet xenograft survival as reflected by recovery of grafted insulin, implies an enhancement of islet immunogenicity and the induction of apoptosis. Future experiments aiming at augmentation of intrinsic defense mechanisms should consider detrimental effects associated with induction of heat shock proteins.     

Superiority of Visipaque (Iodixanol)-Controlled Density Gradient Over Ficoll-400 in Adult Porcine Islet Purification

Objective

Sufficient and favorable biological functions of islets are major problems hindering xenotransplantation. The aim of the present study was to evaluate the effects on harvesting, purity, viability, and function of using improved Visipaque (iodixanol) and Ficoll-400 for adult porcine islet purification.

Methods

Twelve adult porcine pancreata were randomly divided into an Iodixanol-University of Wisconsin (UW) group and a Ficoll-400-UW group according to the purification method. Porcine pancreata were isolated by collagenase digestion. After isolation and purification, the islet yield and purity were evaluated by dithizone staining, and islet function assessed by in vitro insulin release assays and in vivo islet xenotransplantation.

Results

There were no marked differences in the islet yield before purification (5254.67 ± 189.44 IEQ/g vs 5092.67 ± 178.94 IEQ/g, P > .05). After purification, there were significantly more islets harvested in Iodixanol-UW group than in the Ficoll-400-UW group: 4222.00 ± 228.84 IEQ/g vs 3036.83 ± 79.60 IEQ/g (P < .05). Islets from the two groups showed satisfactory insulin secretory ability. There were no significant differences in islet survival times between the two groups in diabetic rats: 8.2 ± 1.619 days vs 6.9 ± 1.197 days (P > .05).

Conclusion

The improved iodixanol-UW density gradient method was superior to Ficoll-400 method to improve the number, viability, and insulin secret of purified adult porcine islets although the benefits did not improve in vivo survival.     

Studies on glucose metabolism and pancreatic endocrine function after simultaneous major resection of the liver and pancreas

Simultaneous major resection of the liver and pancreas has been recently advocated for advanced biliary carcinomas, but the subsequent changes in glucose metabolism and pancreatic endocrine function have not been investigated. In this study, changes in glucose metabolism following simultaneous major hepatic and pancreatic resection were evaluated in dogs, especially changes in pancreatic endocrine function and islet morphology. While adequate IRI levels were maintained in the peripheral blood, the incidence of diabetes was lower in dogs given simultaneous major hepatic and pancreatic resection than in those given pancreatectomy alone. Portal vein IRI levels during arginine loading were significantly higher in the former group. Early after surgery, the volume density of pancreatic islets was increased in both groups, but significantly higher in dogs that did not develop diabetes after simultaneous resection than in dogs given pancreatectomy alone, and the frequency of large pancreatic islets in the former animals was higher than the latter. The incidence of diabetes was lower in dogs after simultaneous resection than after pancreatectomy alone. This seemed to be due to promotion of pancreatic islet regeneration caused by combined hepatic resection, which was demonstrated by a sustained level of IRI secreted by islets and marked islet hypertrophy.     

Effect of human islet rescue gradient purification on islet yield and fractional Beta cell viability

It is difficult to consistently obtain sufficient postpurification islet numbers from younger donors because of the higher proportion of trapped islets after pancreas digestion. Continuous gradient purification (CGP), which is currently used in several islet processing centers, sometimes is not efficient in the purification of trapped islets. Rescue gradient purification (RGP) could improve postpurification islet yields, resulting in an increased number of islet cell products that could be transplanted. Sixty-eight human islet isolations, in which CGP was followed by RGP were analyzed. The quality of islets from CGP and RGP was assessed by beta-cell fractional viability (betaFV) and ADP/ATP ratio. Donor age negatively correlated with the proportion of the islets rescued by RGP (R = -0.52; P < .01) and to the percentage of trapped islets (R = -0.46; P < .01). Age-related differences were observed in pancreas weight, digestion time, and islet yields from CGP, respectively. Importantly, islets from RGP had an 11% higher betaFV compared with islets from CGP. ADP/ATP ratio was also lower in RGP islets versus CGP islets. RGP improved the efficiency of islet purification from younger pancreata and did not affect islet cell viability, which was actually higher in RGP fractions, indicating that rescued trapped islets from the pellet and lower purity layers are not damaged by the extra purification step and may actually be more viable. RGP could be used to rescue high-quality islets from less than 30% pure islet fractions, which are often discarded in the clinical setting.     

Isolation and Purification of Islet Cells From Adult Pigs

We used in situ perfusion and a multiple-organ harvesting technique to collect islets from adult pig pancreata. The tissues were digested with collagenase P followed by purification in a lympholyte discontinuous gradient using a COBE2991 cell separator. The yield and purity of isolated islets were evaluated with a light microscope after dithizone (DTZ) staining. Islet function was assessed using an in vitro insulin release assay. The results showed that before purification 275,000 ± 20,895 islet equivalents (IEQ) were obtained from 1 digested pancreas. After purification with gradient centrifugation, the islet yield was 230,350 ± 26,679 IEQ/pancreas. Each gram of the purified pancreatic tissues yielded 2710 ± 229 IEQ with an average purity of 50.2 ± 2.0%. The purified islet cells responded to stimulation with high glucose concentrations (16.7 mmol/L), namely, 4.74-fold greater than the insulin secretion with exposure to the basal level of glucose (3.3 mmol/L; P < .001). These results suggested that the established isolation method can be applied to large-scale purification of fully functional islets from pig pancreata.     

冷缺血时间对大鼠胰岛结构和功能的影响

目的 探讨胰腺的冷保存时间对胰岛的获得量、活性、纯度及功能的影响.方法 采用Wistar大鼠,切取其胰腺,然后保存于4℃UW液中,分别于保存3 h(3 h组)、6 h(6 h组)、9h(9 h组)、12 h(12 h组)、15 h(15 h组)、18 h(18 h组)和21 h(21 h组)取出胰腺,采用明尼苏达大学改良方法分离、纯化胰岛,并设不经过冷保存的对照组.分离、纯化所得的胰岛以双硫腙染色,分析胰岛数量与纯度;丫啶橙/溴化乙啶染色分析胰岛活性;测定胰岛在葡萄糖刺激下的胰岛素分泌量.结果 对照组每个大鼠胰腺平均叮获得560当量胰岛,形态完整.纯度达到88%,活性达到94%.3 h组和6 h组的胰岛获得量略有下降,但与对照组相比,差异无统计学意义.9 h组、12 h组、15 h组、18 h组和21 h组的胰岛获得量较对照组、3 h组和6 h组明显下降(P＜0.01,P＜0.05),各组间相比较,差异也有统计学意义(P＜0.01),且随保存时间的延长,各组的胰岛活性和纯度也逐渐下降.9 h组、12 h组和15 h组胰岛细胞形态基本完整,但可见少数细胞被膜不完整,内分泌颗粒外溢.18 h组和21 h组胰岛形态不规则,被膜破裂,大量内分泌颗粒外溢.对照组、3 h组和6 h组对高糖刺激反应良好,三者问的胰岛素释放指数(SI)的差异无统计学意义,保存9 h以后,各组SI均较对照组、3 h组和6 h组明显下降(P＜0.01,P＜0.05),且各组间的差异也有统计学意义(P＜0.01),18 h组和21 h组尤其明显.结论 采用UW液低温保存大鼠胰腺6 h以内,获得的胰岛的数量较多,质量较好;保存6～15 h,获得的胰岛数量及质量有所下降,但仍然可以用于移植;保存时间超过15 h,获得的胰岛数量及质量明显下降,不宜用于移植.     

Pretreatment with bilirubin protects islet against oxidative injury during isolation and purification

Background

A high yield of pure, viable islets is one of the most important prerequisites for successful islet transplantation. However, during isolation and purification, many factors may cause oxidative stress, impacting islet viability. Accumulating evidence indicates that bilirubin (BR) not only has antioxidative but also has cytoprotective activities. In this study, we investigated whether pretreatment with bilirubin would protect islets against oxidative damage during isolation and purification.

Methods

Wistar rats were randomly divided into control and BR groups. The latter rats received an injection of BR 2 hours before islet isolation, whereas the controls received vehicle. Islet purity was determined using a dithizone stain. Survival rate and viability were determined using acridine orange and propidium iodide staining and the Cell Counting Kit-8 Kit. Islet function was quantified by testing glucose-stimulated insulin secretion. Islet damage caused by oxidative stress was quantified by measuring the malondialdehyde (MDA) in freshly isolated islets.

Results

Pretreatment with bilirubin did not enhance the purity, but significantly enhanced the survival rate and viability of the islets. Islet function in the BR group was significantly better than that in the control cohort. The MDA level was 0.62 ± 0.23 nmol/L/μg protein in the BR group, which was significantly lower (P < .05) than that in controls (1.31 ± 0.34 nmol/L/μg protein).

Conclusions

We concluded that oxidative stress during islet isolation and purification can be mitigated by BR pretreatment. BR exerts antioxidant and cytoprotective properties by reducing lipid peroxidation (MDA) and enhancing islet viability and function. Pretreatment with BR may become a simple, clinical applicable means to improve human islet isolation and transplantation outcomes.     

Isolation, density purification, and in vitro culture maintenance of functional caprine islets of Langerhans as an alternative islet source for diabetes study

Hani H, TengkuAzmi TI, Abas MO, Mohd‐Azmi ML, Zeenathul NA. Isolation, density purification, and in vitro culture maintenance of functional caprine islets of Langerhans as an alternative islet source for diabetes study. Xenotransplantation 2010; 17: 469–480. © 2010 John Wiley & Sons A/S. Abstract: Background: Insufficient availability of human donors makes the search for alternative source of islet cells mandatory for future developments in pancreatic transplantation. The present study investigates the potential of caprine as an alternative source of pancreatic islets. The objectives of the study were to optimize techniques for caprine islet isolation and purification for culture establishment, and to subsequently assess their viable and functional potential. Methods: Caprine pancreatic tissues were collected from a local slaughterhouse and prior transported to the laboratory by maintaining the cold chain. Islets were obtained by a collagenase‐based digestion and optimized isolation technique. Islet cell purity and viability were determined by dithizone and trypan blue staining, respectively. Islet clusters of different sizes were positively identified by staining methods and demonstrated 90% viability in the culture system. Following static incubation, an in vitro insulin secretion assay was carried out and analyzed by ELISA. Results: The islets remained satisfactorily viable for 5 days in the culture system following regular media changes. The current study has successfully optimized the isolation, purification and culture maintenance of caprine islets. Conclusion: The successful yield, viability and functionality of islets isolated from the optimized protocol provide promising potential as an alternative source of islets for diabetes and transplantation researches.     

Variation in human islet viability based on different membrane integrity stains

Membrane integrity fluorescent staining is used routinely to evaluate islet viability. Results are used as one of the determining factors in islet product release criteria, and are used to assess the efficacy of different culture conditions. Recently, it has been observed that there is variation in the viability staining of freshly isolated islets based on which viability assay is used. This investigation compares three membrane integrity stains for the viability assessment of isolated human islets. Fluorescein diacetate/propidium iodide (FDA/ PI), the current standard method for assessing islet viability, demonstrates intense extracellular fluorescence, reducing the differential staining of intact islets. We further evaluated SYTO-13/ethidium bromide (SYTO/ EB) and calcein AM/ethidium homodimer (C/EthD) as alternative viability assays, and found considerable variation between FDA/PI and either SYTO/EB or C/EthD staining. Preparations of human islets were obtained from cadaveric pancreata after collagenase digestion, mechanical separation, and purification by continuous Ficoll gradient centrifugation. For each preparation, two replicate samples of 50 islets were counted for each stain, and the percent viability calculated. The results for SYTO/EB and C/EthD were nearly identical [57.6 +/- 7.3% and 57.9 +/- 7.2%, respectively (mean +/- SEM), N = 11]. FDA/PI-stained islets, however, showed consistently elevated values when compared to SYTO/EB. Accurate assessment of islet viability remains a critical determinant of islet product release. The discrepancies found between FDA/PI scoring and visual quality, compared with alternative stains, suggests that the FDA/PI stain may not be the optimal approach to assess islet viability.     

Efficacy of the oxygen-charged static two-layer method for short-term pancreas preservation and islet isolation from nonhuman primate and human pancreata

Previous reports indicate that the two-layer method (TLM) of human pancreas preservation is superior to University of Wisconsin solution (UW) when pancreata are preserved for extended periods (i.e., >24 h) prior to islet isolation. In this study, the efficacy of using the TLM for preserving pancreata for short periods (i.e., <13 h) was evaluated using both nonhuman primate and human pancreata preserved with a TLM kit precharged with oxygen. An oxygen precharged TLM (static TLM) was established and compared with the original TLM with continuous oxygen supply. For the static TLM, the perfluorochemical was fully oxygenated and the oxygen supply removed prior to pancreas preservation. In the primate model, pancreata were preserved by the static TLM, the original TLM, and UW for 5 h prior to islet isolation. In the human model, pancreata were preserved with the static TLM or the original TLM or UW for 4-13 h. Both primate and human pancreata were processed by intraductal collagenase injection and digestion followed by continuous density gradient purification to isolate islets. Islets were assessed for islet yield, purity, viability, and in vitro functionality. In the primate model, islet yield, viability, and in vitro functionality were significantly improved by both the static TLM and the original TLM with similar results. Postculture islet yields were 23,877 +/- 3619 IE/g in the static TLM, 21,895 +/- 3742 IE/g in the original TLM, and 6773 +/- 735 IE/g in UW. In the human model, both the static TLM and the original TLM significantly increased islet yield compared with UW with postculture islet yields of 2659 +/- 549 IE/g in the static TLM, 2244 +/- 557 IE/g in the original TLM, and 1293 +/- 451 IE/g in UW. Nonhuman primate and human pancreata stored in the static TLM, immediately upon procurement, yield isolated islets of a substantially higher quantity than when pancreata are stored in UW. Thus, the use of the static TLM should replace the use of UW for storage of pancreata during transport prior to islet isolation.