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.     

Influence of pancreas preservation on human islet isolation outcomes: impact of the two-layer method

BACKGROUND: Human pancreas preservation for islet transplantation holds additional challenges and considerations compared with whole pancreas transplantation. The purpose of this study was to clarify the limitations of the University of Wisconsin (UW) solution and the potentials of the two-layer method (TLM) for pancreas preservation before human islet isolation. METHODS: We retrospectively evaluated human islet isolation records between January 2001 and February 2003. One hundred forty-two human pancreata were procured from cadaveric donors and preserved by means of the UW solution (n=112) or TLM (n=30). Human islet isolations were performed using a standard protocol and assessed by islet recovery and in vitro function of islets. RESULTS: Eight to ten hours of cold ischemia in the UW solution is a critical point for successful islet isolations. It is difficult to recover a sufficient number of viable islets for transplantation from human pancreata with more than 10 hours of cold storage in the UW solution. The overall islet recovery in the TLM group was significantly higher than in the UW group. With 10 to 16 hours of cold storage, the success rates of islet isolations remained at 62% in the TLM group but decreased to 22% in the UW group. Transplanted islets in the TLM group worked well in the recipients. CONCLUSIONS: There are time limitations for using the UW solution for pancreas preservation before human islet isolation. The TLM is a potential method to prolong the optimal cold storage time for successful islet isolations.     

小鼠胰岛的分离及胰岛移植

目的研究小鼠胰岛分离和移植的方法。方法在Gotoh等所介绍的小鼠胰岛分离方法的基础上作了一些改进,由原来经胆总管注入胶原酶消化液改为由胆囊注入,并在消化液和Ficoll分离液中加入了胰酶抑制剂和BSA。结果使分离纯化后的胰岛产量由原来方法的41.7±13.2个提高到了266.5±32.1个(P<0.01),活性在95%以上,除了少量导管外几乎不含腺泡组织。结论改进后的方法可以在肉眼条件下注入消化液,而不需要解剖显微镜,既方便了操作又提高了成功率;避免了整个消化和分离过程中胰酶对胰岛的消化作用,提高了得率,且具有很好的重复性。     

Possibility of islet transplantation from a nonheartbeating donor pancreas resuscitated by the two-layer method

BACKGROUND: The shortage of cadaveric donors is a problem in islet transplantation, and recent improvements in this field have led to renewed interest in the use of nonheartbeating (NHB) donors. NHB donor pancreata that could provide a significant source for islet transplantation are associated with warm ischemic injury. We tested whether the two-layer method (TL) could improve islet yield and function from damaged pancreata after warm ischemia (WI). METHODS: Lewis rats were divided into six groups. In groups 1 to 3, rats were subjected to 0, 30, and 45 minutes of WI, respectively. Islets were isolated immediately (subgroup a) or after 3-hour preservation with TL (subgroup b). Isolated islets were assessed in terms of islet yield and in vivo function. We also assessed the pancreatic tissue ATP concentration before isolation and distended pancreata morphologically after chemical digestion by H&E staining. RESULTS: Islet yield decreased significantly after 30 minutes of WI in group 2a, whereas TL preservation doubled this decreased yield in group 2b. Forty-five minutes of WI resulted in nearly no islet yield in both groups 3a and 3b. The success rates of transplantation in groups 1a, 1b, 2a, and 2b were 100%, 100%, 0%, and 75%, respectively. Increased tissue ATP levels and alleviation of morphological islet damage were observed in group 2b. CONCLUSIONS: These results demonstrated that pancreata damaged from 30-minute WI were restored by 3-hour TL preservation. TL may allow the selective use of NHB donors as an alternative source for islet transplantation.     

Resuscitation of the ischemically damaged human pancreas by the two-layer method prior to islet isolation

A two-layer cold storage method (TLM) allows sufficient oxygen delivery to pancreata during preservation and resuscitates the viability of ischemically damaged pancreata. This study determined the effect of additional preservation of ischemically damaged human pancreata by the TLM before islet isolation. Human pancreata were procured from cadaveric organ donors and preserved by the TLM for 3.2 +/- 0.5 hours (mean +/- SEM) at 4 degrees C after 11.1 +/- 0.9 hours of cold storage in University of Wisconsin solution (UW) (TLM group), or by cold UW alone for 11.0 +/- 0.3 hours (UW group). Islet isolations of all pancreata were performed using the Edmonton protocol. Islet recovery and in vitro function of isolated islets were significantly increased in the TLM group compared with the UW group. In the metabolic assessment of human pancreata, ATP levels were significantly increased after the TLM preservation. This study showed that additional short-term preservation by the TLM resuscitates the viability of ischemically damaged human pancreata before islet isolation, leading to improvements in islet recovery and in vitro function of isolated islets.     

Short-term storage of the ischemically damaged human pancreas by the two-layer method prior to islet isolation

A two-layer cold storage method (TLM) allows sufficient oxygen delivery to pancreata during preservation and resuscitates the viability of ischemically damaged pancreata in the canine pancreas transplant model. In this study, we applied a short-term preservation of the TLM to human pancreata after prolonged cold ischemia prior to islet isolation, and investigated the mechanisms of resuscitation of the ischemically damaged human pancreas by the TLM. Human pancreata were procured from cadaveric donors and preserved by the TLM for 3.2 +/- 0.5 h after 11.1 +/- 0.9 h of cold storage in UW (TLM group), or by cold UW alone for 11.0 +/- 0.3 h (UW group). Islet isolations of all pancreata were performed using the Edmonton protocol. Islet recovery and in vitro functional viability of isolated islets were significantly increased in the TLM group compared with the UW group. According to the criteria of the Edmonton protocol, 10/14 cases (71%) in the TLM group were transplanted to patients with type I diabetes mellitus compared with only 5/21 cases (24%) in the UW group. In the metabolic assessment of human pancreata, levels of energetic parameters (ATP, total adenylates, and energy charge) were significantly increased, and malondialdehyde (MDA) levels were significantly decreased after the TLM preservation. There was no observable change in the incidence or degree of mitochondrial injury after the TLM preservation. Additional short-term storage by the TLM resuscitates the ischemically damaged human pancreas by regenerating the energetic status and prevents further damage by oxidative stress, ultimately leading to improvements of islet recovery and in vitro function. Use of the TLM following prolonged storage in UW provides an excellent adjunctive protocol for treating human pancreata for the rigors of the islet isolation process.     

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.     

乌司他丁对犬胰岛的保护作用

目的判定在机械分离纯化犬胰岛过程中,胰腺原位灌洗时应用乌司他丁(UTI)的保护作用,观察胰岛的获取产量。方法将20只犬随机分为两组,每组10只。HC-A组:胰腺经腹主动脉原位灌洗时用冷HC-A液2500ml;HC-A UTI组:胰腺原位灌洗时,HC-A液中加用UTI10000U/kg。两组均经主胰管用4℃胶原酶V控压灌注,在RicordiChamber系统中消化,用Ficoll连续梯度离心纯化。记录消化时间、胰岛外分泌腺包裹率、胰岛纯度、纯化后胰岛在体外用低糖与高糖刺激下胰岛素分泌量、C-肽的释放量及收获的胰岛当量(IEQ),并对纯化后的胰岛进行光镜及电镜观察。结果HC-A UTI组与HC-A组在胰腺消化时间、胰岛外分泌腺包裹率、胰岛纯度、纯化后的胰岛在体外经低糖与高糖刺激下胰岛素分泌量、C-肽的释放量以及胰岛的形态和结构上比较,差异均无统计学意义(P>0.05)。HC-A组收获胰岛[(3.42±1.47)×104]IEQ,HC-A UTI组收获胰岛[(6.17±2.86)×104]IEQ,两组差异有统计学意义(P<0.05)。结论在犬胰岛分离和纯化过程中,胰腺获取原位灌洗液中加用UTI能保护胰腺组织,增加胰岛产量。     

A simple method for the release of islets by controlled collagenase digestion of the human pancreas

A simple technique for the controlled collagenase digestion of the human pancreas is described. The pancreas is distended with collagenase, and a biopsy taken and divided into 5 pieces that are placed in Universals containing minimal essential medium and dithizone at 39 degrees C. The pancreas itself is incubated in MEM at 39 degrees C. Starting at 5 min and at intervals thereafter, a Universal is removed from the water bath, shaken for 30 sec, and the contents examined by microscopy. As soon as free cleaved islets are seen, the pancreas is placed into one compartment of a kidney-bowl divided in half by a 1-mm mesh. The pancreas is gently teased apart and fluid digest in the empty half of the bowl aspirated and passed through a 500-micron mesh into ice-cold MEM containing 20% newborn calf serum. This process is repeated until the digestion process has ceased. Using this technique on 20 consecutive pancreata, median wt. (range) 53.9 (45.2-72.9) g, we have counted 131,672 (43,516-400,000) islets in the digest, equivalent to 2394 (715-8000) islets/g pancreas. The volume of islet tissue in the digest was 299 (26-1341) mm3 equivalent to 5.81 (0.36-26.81) mm3/g pancreas. In conclusion, we have found this simple technique to be an effective method for the controlled collagenase digestion of the human pancreas.     

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.     

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.     

不同胶原酶消化对大鼠胰岛的纯化和获得率的影响

目的 比较不同胶原酶消化大鼠胰腺的效果,选择消化效果较好的胶原酶.方法 采用随机数字表法将SD大鼠分为2组,胶原酶P组大鼠胰腺使用1 mg/ml的胶原酶P液进行消化,Ⅴ型胶原酶组大鼠胰腺使用1 mg/ml的Ⅴ型胶原酶进行消化.胰腺消化后,对获得的两组大鼠胰岛进行纯化、培养.采用双硫腙染色于倒置显微镜下计数纯化前后获得的两组全部胰岛数量,并计算胰岛当量(IEQ);采用吖啶橙和碘丙啶双色荧光染色,于荧光显微镜下计数纯化后胰岛的活率;两组大鼠胰岛经纯化、培养2d后进行胰岛素释放试验,观察两组胰岛的功能.结果 纯化前,两组间每个大鼠胰腺获得的胰岛数量的差异无统计学意义(P＞0.05);但两组间IEQ的差异有统计学意义(P＜0.05);经纯化后,Ⅴ型胶原酶组和胶原酶P组每个大鼠胰腺获得的胰岛数量分别为485±113和643±82,IEQ分别为674±157和989±126,两组间胰岛数量和IEQ的比较,差异均有统计学意义(P＜0.05).Ⅴ型胶原酶组和胶原酶P组大鼠胰岛经纯化后,其活率分别为(96.13±1.13)％和(96.38±0.92)％,两组比较,差异无统计学意义(P＞0.05).胰岛素释放试验结果显示,在低糖或高糖刺激下,两组间大鼠胰岛功能的差异均无统计学意义(P＞0.05).结论 两种胶原酶均适用于大鼠胰腺的消化,但胶原酶P消化效果较Ⅴ型胶原酶稳定,且胰岛获得率也较高.     

Expression of transforming growth factor-beta by human islets: impact on islet viability and function

Transforming growth factor-beta1 (TGF-beta1) is a pleotropic cytokine that promotes angiogenesis and extracellular matrix protein synthesis in addition to its immunosuppressive effects. The purpose of this study is to identify optimal conditions for in vivo expression of TGF-beta1 by human islets to exploit the possible beneficial effects and minimize undesirable side effects. We transduced human islets with adenoviral vectors encoding the active form of Ad-TGF-beta1 or Ad-LacZ to test the effects of TGF-beta1 gene expression on islet in vivo function following their transplantation into a NOD-SCID mouse model. Islets were transduced with multiplicity of infection (MOI) of 20, 10, 5, and 2.5 per islet cell. At a MOI ranging from 2.5 to 20, expression of TGF-beta1 in islet supernatant persisted for 1-2 months and ranged from 153 +/- 5 to 2574 +/- 1299 pg/ml, respectively. Transduction with the lowest MOI (2.5) did not compromise the in vivo production of human C-peptide. We conclude that TGF-beta1 expression in transplanted islets does not compromise viability and that adenoviral transduction with the TGF-beta1 gene has a dose-dependent effect, with larger MOIs being deleterious. The data also indicate that in vitro culture system and the in vivo NOD-SCID model could be used successfully to evaluate the nonimmune effects of gene transduction.