Obese Locus in WNIN/Obese Rat Maps on Chromosome 5 Upstream of Leptin Receptor

WNIN/Obese (WNIN/Ob) rat a new mutant model of metabolic syndrome was identified in 1996 from an inbred Wistar rat strain, WNIN. So far several papers are published on this model highlighting its physical, biochemical and metabolic traits. WNIN/Ob is leptin resistant with unaltered leptin or its receptor coding sequences - the two well-known candidate genes for obesity. Genotyping analysis of F₂ progeny (raised from WNIN/Ob × Fisher - 344) in the present study localized the mutation to a recombinant region of 14.15cM on chromosome 5. This was further corroborated by QTL analysis for body weight, which narrowed this region to 4.43 cM with flanking markers D5Rat256 & D5Wox37. Interval mapping of body weight QTL shows that the LOD score peak maps upstream of leptin receptor and shows an additive effect suggesting this as a novel mutation and signifying the model as a valuable resource for studies on obesity and metabolic syndrome.     

Vitamin A regulates obesity in WNIN/Ob obese rat; independent of stearoyl-CoA desaturase-1

Stearoyl-CoA desaturase 1 (SCD1), an important enzyme involved in monounsaturated fatty acid biosynthesis is a key player in energy homeostasis. Here, we tested the impact of vitamin A on hepatic and adipose tissue SCD1 expression and adiposity per se, using an obese mutant rat strain namely, WNIN/Ob developed at National Center for Laboratory Animal Sciences of National Institute of Nutrition, India. Seven months-old 24 male lean and obese rats of WNIN/Ob strain were divided into two groups; each group was subdivided into two subgroups having 6 lean and 6 obese rats and received diets containing either 2.6 mg or 129 mg vitamin A/kg diet for two months. Feeding of high (but non-toxic) doses of vitamin A resulted in significant reduction in body weight gain, and retroperitoneal white adipose tissue weight (RPWAT) in obese rats. Further, vitamin A feeding resulted in augmented expression of SCD1 in liver and RPWAT of lean rats, while no such effect was seen in obese rats. Taken together, the present data suggest that vitamin A decreases body weight gain in obese rat model independent of SCD1 gene regulation.     

Amelioration of neuronal cell death in a spontaneous obese rat model by dietary restriction through modulation of ubiquitin proteasome system

Dietary restriction (DR) has been shown to increase longevity, delay onset of aging, reduce DNA damage and oxidative stress and prevent age-related decline of neuronal activity. We previously reported the role of altered ubiquitin proteasome system (UPS) in the neuronal cell death in a spontaneous obese rat model (WNIN/Ob rat). In this study, we investigated the effect of DR on obesity-induced neuronal cell death in a rat model. Two groups of 40-day-old WNIN/Ob rats were either fed ad libitum (Ob) or pair-fed with lean. The lean phenotype of WNIN/Ob rats served as ad libitum control. These animals were maintained for 6.5 months on their respective diet regime. At the end of the study, cerebral cortex was collected and markers of UPS, endoplasmic reticulum (ER) stress and autophagy were analyzed by quantitative real-time polymerase chain reaction, immunoblotting and immunohistochemistry. Chymotrypsin-like activity of proteasome was assayed by the fluorimetric method. Apoptotic cells were analyzed by TUNEL assay. DR improved metabolic abnormalities in obese rats. Alterations in UPS (up-regulation of UCHL1, down-regulation of UCHL5, declined proteasomal activity), increased ER stress, declined autophagy and increased expression of α-synuclein, p53 and BAX were observed in obese rats and DR alleviated these changes in obese rats. Further, DR decreased TUNEL-positive cells. In conclusion, DR in obese rats could not only restore the metabolic abnormalities but also preserved neuronal health in the cerebral cortex by preventing alterations in the UPS.     

Mouse Islet of Langerhans Isolation using a Combination of Purified Collagenase and Neutral Protease

The interrogation of beta cell gene expression and function in vitro has squarely shifted over the years from the study of rodent tumorigenic cell lines to the study of isolated rodent islets. Primary islets offer the distinct advantage that they more faithfully reflect the biology of intracellular signaling pathways and secretory responses. Whereas the method of islet isolation using tissue dissociating enzyme (TDE) preparations has been well established in many laboratories^1-4, variations in the consistency of islet yield and quality from any given rodent strain limit the extent and feasibility of primary islet studies. These variations often occur as a result of the crude partially purified TDEs used in the islet isolation procedure; TDEs frequently exhibit lot-to-lot variations in activity and often require adjustments to the dose of enzyme used. A small number of reports have used purified TDEs for rodent cell isolations^{5, 6}, but the practice is not widespread despite the routine use and advantages of purified TDEs for human islet isolations. In collaboration with VitaCyte, LLC (Indianapolis, IN), we developed a modified mouse islet isolation protocol based on that described by Gotoh^{7, 8}, in which the TDEs are perfused directly into the pancreatic duct of mice, followed by crude tissue fractionation through a Histopaque gradient⁹, and isolation of purified islets. A significant difference in our protocol is the use of purified collagenase (CIzyme MA) and neutral protease (CIzyme BP) combination. The collagenase was characterized by the use of a⁶ fluorescence collagen degrading activity (CDA) assay that utilized fluorescently labeled soluble calf skin fibrils as substrate⁶. This substrate is more predictive of the kinetics of collagen degradation in the tissue matrix because it relies on native collagen as the substrate. The protease was characterized with a sensitive fluorescent kinetic assay¹⁰. Utilizing these improved assays along with more traditional biochemical analysis enable the TDE to be manufactured more consistently, leading to improved performance consistency between lots. The protocol described in here was optimized for maximal islet yield and optimal islet morphology using C57BL/6 mice. During the development of this protocol, several combinations of collagenase and neutral proteases were evaluated at different concentrations, and the final ratio of collagenase:neutral protease of 35:10 represents enzyme performance comparable to Sigma Type XI. Because significant variability in average islet yields from different strains of rats and mice have been reported, additional modifications of the TDE composition should be made to improve the yield and quality of islets recovered from different species and strains.     

Rat islet isolation yield and function are donor strain dependent

Effective rat islet isolation is pertinent for successful islet transplantation and islet studies in vitro. To determine which rat strain yields the highest number of pure and functional islets, four commonly used rat strains were compared with regard to islet yield, islet purity and islet function. Secretory responses were assessed by stimulation with glucose, and by stimulation with glucose plus 3-isobutyl-1-methylxanthine (IBMX). We show that rat islet function and isolation yield are donor strain dependent. Albino Oxford (AO) rats donated twice as many islets than Wistar, Lewis and Sprague Dawley (SD) rats. Stimulation with glucose plus IBMX resulted in an average five-fold increase of the stimulation index of AO, Lewis, Wistar and SD rats compared to stimulation with glucose only. AO islets had improved secretory responses after a one-week culture period, but required the addition of IBMX to glucose to elicit a distinguished stimulated insulin secretion after 2 days of culture. Islets from SD rats showed inferior results with regard to purity immediately after isolation and with regard to function after short- and after long-time culture. Because Lewis islets possessed the highest secretory response to glucose (without IBMX) immediately after isolation, Lewis rats may be preferred as islet donors for immediate use. The addition of IBMX to glucose for in vitro functional testing is recommended because it elicits high insulin secretory responses of islets regardless of the rat strain. AO rats are preferred for culture experiments since the number of experimental animals is reduced two-fold compared to Lewis, Wistar and SD rats.     

Improve islet yields and quality when clinical grade pancreata are preserved by the two-layer method

Background: Research grade pancreata preserved by the two-layer method (TLM) yield significantly greater numbers of islets than organs stored with University of Wisconsin solution (UW). The goal of this study was to determine whether this would hold true for pancreata that meet selection criteria for clinical grade organs. Methods: Pancreata were chosen based upon a pre-defined set of criteria used for selecting clinical grade pancreata. Thirteen of these organs were preserved in UW and five pancreata were preserved by the TLM. Islets were isolated and evaluated according to the Edmonton protocol. Results: The average preservation time was significantly longer for organ preserved with TLM (9.5 + 2.0 h) as compared to UW (5.8 + 0.6 h, p = 0.015). The pancreata of TLM group resulted in a significant increase in islet yields (3588 ± 500 vs. 2536 ± 312 IE/g pancreas, p<0.05). Visual scoring of islets indicated that islets were better from TLM group (8.3 ± 0.3 vs. 7.3 ± 0.2), and islet survival rates after culture were higher from organs stored with the TLM (87 ± 17 vs. 55 ± 7.4, p<0.05). Other parameters such as viability, insulin content, and stimulation index were similar between the two groups. All the preparations from the TLM group, but only 54% of preparations from the UW group, qualified for islet transplantation. The two recipients receiving islets from TLM group, daily insulin requirements were reduced and C-peptide levels were increased. Conclusion: Compared to storage with UW, exposure of pancreata to the TLM resulted in greater islet yields and improved quality of islets despite longer preservation period. Consequently, pancreata that meet clinical grade status should be preserved by the TLM prior to islet isolation.     

Long-term cryopreservation of reaggregated pancreatic islets resulting in successful transplantation in rats

Preservation of pancreatic islets for long-term storage of islets used for transplantation or research has long been a goal. Unfortunately, few studies on long-term islet cryopreservation (1 month and longer) have reported positive outcomes in terms of islet yield, survival and function. In general, single cells have been shown to tolerate the cryopreservation procedure better than tissues/multicellular structures like islets. Thus, we optimized a method to cryopreserve single islet cells and, after thawing, reaggregated them into islet spheroids. Cryopreserved (CP) single human islet cells formed spheroids efficiently within 3–5 days after thawing. Approximately 79% of islet cells were recovered following the single-cell cryopreservation protocol. Viability after long-term cryopreservation (4 weeks or more) was significantly higher in the CP islet cell spheroids (97.4 ± 0.4%) compared to CP native islets (14.6 ± 0.4%). Moreover, CP islet cell spheroids had excellent viability even after weeks in culture (88.5 ± 1.6%). Metabolic activity was 4–5 times higher in CP islet cell spheroids than CP native islets at 24 and 48 h after thawing. Diabetic rats transplanted with CP islet cell spheroids were normoglycemic for 10 months, identical to diabetic rats transplanted with fresh islets. However, the animals receiving fresh islets required a higher volume of transplanted tissue to achieve normoglycemia compared to those transplanted with CP islet cell spheroids. By cryopreserving single cells instead of intact islets, we achieved highly viable and functional islets after thawing that required lower tissue volumes to reverse diabetes in rats.     

Adjustment of digestion enzyme composition improves islet isolation outcome from marginal grade human donor pancreata

Despite improvements and recent attempts to standardize techniques to isolate islets from human donor pancreata, there still exists the problem of consistently recovering sufficient quantities of high quality islets. Moreover, achieving consistent recoveries of high numbers of good quality islets becomes even more challenging from marginal grade human donor pancreata with prolonged cold ischemic times. In this study, we investigate whether addition of Pefabloc SC, a serine protease inhibitor, in combination with Pulmozyme, a recombinant human DNase I, to Liberase HI improves islet isolation outcome from marginal grade human donor pancreata (cold ischemic time > 12 h). Twenty-three marginal grade human donor pancreata were randomly digested using four different enzyme preparations: (1) Liberase alone (n = 6), (2) +Pefabloc (n = 7), (3) +Pefabloc/Pulmozyme (n = 5), and (4) +Pulmozyme (n = 5). Overall, there were no significant differences in donor age, body mass index (BMI), pancreas weight, and cold ischemic time. After purification, significantly higher islet yields (3,281 ± 590 IE/g) were obtained with the Pefabloc/Pulmozyme group as compared to the Liberase alone (1,615 ± 305 IE/g) or the Pefabloc group (1,255 ± 261 IE/g) (P < 0.05). Significant improvements in islet viability were also noted from the Pefabloc/Pulmozyme group (87.3 ± 4.4%) as opposed to islets isolated from the Pefabloc group (75.2 ± 3.9%) (P < 0.05). No significant differences in insulin secretory response to glucose stimulation among the four groups were observed, which indicates that the addition of Pefabloc and/or Pulmozyme does not have a detrimental effect on the functionality of islets. It is concluded that the addition of Pefabloc in combination with Pulmozyme to the Liberse HI significantly improves islet isolation outcome and potentially impacts the viability and morphology of the islets obtained from marginal grade human donor pancreata with prolonged cold ischemic times. This study was presented in a poster session at the American Transplant Congress 2005 in Seattle, Washington, USA (May 2005).     

实验动物胰岛细胞的分离纯化

胰岛移植作为治疗1型糖尿病的有效方法,临床应用前景较好。但是,由于在胰岛移植手术中,有功能的胰岛细胞数量较少,而严重影响其治疗效果。因此,如何提高胰岛分离纯化效果,获取尽可能多的高质量的胰岛,成为胰岛移植手术成败的关键。本文仅就在采用实验动物分离和纯化胰岛方面的实验经验作以简要介绍。     

Filtration is a time-efficient option to Histopaque,providing good-quality islets in mouse islet isolation

Pancreatic islet transplantation is a promising therapy for Type I Diabetes. For many years the method used worldwide for islet purification in both rodent and human islet isolation has been Ficoll-based density gradients, such as Histopaque. However, it is difficult to purify islets in laboratories with staff limitations when large scale isolations are required. We hypothesized that filtration could be a more simple and fast alternative to obtain good quality islets. Four separate islet isolations were performed per method, comparing filtration and Histopaque purification with handpicking as the gold standard method for islet purity. Different parameters of quality were assessed: yield in number of islets per pancreas, purity by dithizone staining, viability by Fluorescein Diacetate/Propidium Iodide vital staining and in vitro functionality assessed by Glucose Stimulated Insulin Secretion. Time efficiency and cost were also analyzed. The overall quality of the islets obtained both by Histopaque and filtration was good. Filtration saved almost 90 % of the time consumed by Histopaque purification, and was also cheaper. However, one-third of the islets were lost. Since human and rodent islets share similar size but different density, filtration appears as a purification method with potential interest in translation to clinic.     

Impact of vitamin A on high-density lipoprotein-cholesterol and scavenger receptor class BI in the obese rat

Objective: Scavenger receptor class BI (SR‐BI), authentic high‐density lipoprotein (HDL) receptors expressed in liver, are known to play an important role in HDL‐cholesterol (C) metabolism and reverse cholesterol transport. Interestingly, obese rats of WNIN/Ob strain have abnormally elevated levels of serum HDL‐C compared with their lean counterparts. Based on the well‐established role of SR‐B1 in HDL‐C metabolism, it was hypothesized that these obese rats may have an underexpression of hepatic SR‐B1 receptors. In view of the significant role of vitamin A in energy expenditure and obesity, we also tested whether vitamin A supplementation can correct abnormal HDL‐C metabolism. Research Methods and Procedures: To test this hypothesis, 7‐month‐old male lean and obese rats of WNIN/Ob strain were divided into two groups; each group was subdivided into two subgroups consisting of six lean and six obese rats and received diets containing either 2.6 or 129 mg vitamin A/kg diet for 2 months. Results: At the end, obese rats receiving normal levels of vitamin A diet showed high serum HDL‐C and lower hepatic SR‐BI expression levels compared with lean counterparts. Furthermore, chronic dietary vitamin A supplementation resulted in overexpression of hepatic SR‐BI receptors (protein and gene) with concomitant reduction in serum HDL‐C levels in obese rats. Discussion: Thus, our observations highlight the role of vitamin A in reverse cholesterol transport through up‐regulation of hepatic SR‐BI receptors and, thereby, HDL‐C homeostasis in obese rats of WNIN/Ob strain.     

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.     

Effects of synthetic antifreeze glycoprotein analogue on islet cell survival and function during cryopreservation

The antifreeze glycoprotein (AFGP), found in the blood of polar fish, is known to prevent ice crystal growth and to depress the freezing temperature, which may in turn protect tissues from freezing injury. The chemical synthesis of AFGP is an attractive alternative to its difficult isolation from natural sources, and this would permit quality control and mass production. In spite of recent success in islet transplantation for the treatment of type 1 diabetes mellitus, existing methods for the long-term preservation of islets are considered to be suboptimal and inadequate, which indicates the need for the development of improved methods. Rat islets were isolated from male Wistar rats, using intraductal collagenase distention, mechanical dissociation, and Ficoll-Conray gradient purification. Islets were cultured overnight and then cryopreserved in RPMI1640 in the presence of dimethyl sulfoxide (Me2SO) and 10% FCS with various concentrations of syAFGP, followed by slow cooling (0.3 degrees C/min) and rapid thawing (200 degrees C/min) as described by Rajotte. The freezing process was observed by cryomicroscopy. Islet recovery post-cryopreservation was 85.0 +/- 6.2% with syAFGP and 63.3 +/- 14.2% without syAFGP, both compared with the pre-cryopreservation counts (P < 0.05). The in vitro islet function measured by insulin release was equivalent to a static stimulation index of 3.86+/-0.43 for the islets that were frozen-and-thawed with syAFGP, compared to 2.98 +/- 0.22 without syAFGP (P < 0.05). At a concentration of around 500 microg/ml syAFGP, a strong attenuation of ice crystal growth and formation was observed by cryomicroscopy and these ice crystals did not cause cryoinjury. In conclusion, the attenuation of ice crystallization by syAFGP improves islet survival and function following cryopreservation and thawing.     

Optimizing Conditions for Rat Pancreatic Islets Isolation

Many procedures have been described for rat pancreatic islet isolation. Several factors contribute to the pancreatic islet isolation outcome. One of the main problems in islet isolation procedure is the formation of a viscouse, gellike structure during collagenase digestion which entraps the free islets and decrease islet yield after density gradient purification. This issue has not been addressed in most techniques described for rat islet isolation. We examined effect of various factors to eliminate formation of gellike material and improve the islets yields. Islet isolation was performed on 26 adult male Wistar Albino rats weighing between 280 and 350 g. We have observed that several factors affect pancreatic islet isolation. Optimum Collagenase enzyme concentration, maintaining pH range between 7.7 and 7.9 in digestion solution, incubation temperature at 38±1 °C and addition of Calcium ion decreased the formation of gellike materials and increased islet yield. Addition of Glycerol as a gelatin solvent has also been helpful in the reduction or complete elimination of gellike material. Precise optimization of rat islet isolation procedure is useful to improve the islet yield in islet transplantation studies.     

Pancreatic lesions of small-obese mice (C57BL/6 J-ob/ob) with hyperglucagonemia

Male Small-obese mice (Small-ob) which derived from a C57BL/6 J-ob/ob mouse colony were examined histopathologically at 13-, 39-, and over 52-week-old. C57BL/6 J-ob mice (?/+: Non-ob, ob/ob: Ob) were studied as controls. In Small-ob mice, plasma glucagon concentration was higher than that of the Ob mice (this difference was highly significant), and serum levels for insulin was within normal limits. Microscopically, hypertrophy and hyperplasia of the islets of Langerhans were found only in the pancreas of Ob mice. The increase in the number of A-cells and the decrease in the number of B-cells were revealed immunohistochemically in the islets of Small-ob mice. These changes were more severe with advance of age. In the aged Small-ob mice, perivascular and periductular cell infiltration were found, but inflammatory change of islet tissue was not confirmed in any animals examined. Diabetic symptoms in Small-ob mice seems to stem from the disparity in insulin/glucagon (I/G) ratio associated with hyperglucagonemia which result from increased number of A-cells of pancreatic islets.     

Improved islet survival and in vitro function using solubilized small intestinal submucosa

In vitro proliferation of isolated pancreaticislets has become an area of great interest given the scarcity of clinicalisletdonors and the islet mass requirements for clinical islet transplantation.Smallintestinal submucosa (SIS), a naturally occurring extracellular matrix, hasbeeninvestigated to promote wound healing, tissue remodeling and cell growth. Thisstudy evaluated recovery and function of isolated canine pancreatic isletsfollowing in vitro tissue culture. Pancreatic islets wereisolated from mongrel dogs using standard surgical procurement followed byintraductal collagenase distension, mechanical dissociation and EuroFicollpurification. Groups of purified islets were cultured in a humidifiedatmosphereof 95% air and 5% CO₂ for 48 hours in standard islet cultureconditions of CMRL 1066 tissue culture media (Gibco) which had beensupplementedwith 25M HEPES, penicillin/streptomycin and either 10% heat inactivatedfetal calf serum (FCS, Gibco) or solubilized SIS solution (Cook Biotech, Inc.,West Lafayette, IN). The mean recovery of islets following the culture periodwas determined by sizing duplicate counts of a known volume and viability wasassessed by static incubation with low glucose (2.8 mM), highglucose (20 mM) and high glucose solution supplemented with 50m IBMX solution. Remaining islets were embeddedhistologically.From a consecutive series of six culture experiments, a significantly higher (p< 0.05) recovery of islets co-cultured with SIS was observed when comparedtocontrols. Mean islet recovery was 84.5 ± 2.9% (mean ± SEM) fromthe SIS cultured group compared with 64.7 ± 4.5% from the control groupcultured in FCS (p < 0.05, n=6). Islets from the SIS treated group exhibiteda significantly higher (p <, 0.05) insulin response to the high glucosestimulus than islets cultured in the standard FCS cultured solution. Thecalculated stimulation index was 12.3 ± 3.4 for the SIS-treated groupcompared with 5.6 ± 1.8 for the standard cultured group (p < 0.05).The overall mean numbers of islets recovered following invitro culture was also higher in the SIS-treated group. Theproportion of islets with a mean diameter >150 m increasedfrom 24% to 31% in the SIS-treated group, whereas the same proportion decreasedto 18% from 22% in the control (FCS-treated) group. Histological evaluation offixed tissue samples collected following the culture period identified insulinand glucagon-secreting cells in the SIS and FCS treated groups, however ahigherfrequency of insulin positive cells were detected consistently in the SIStreated group. A proliferation marker (PCNA) identified positive cells withinboth groups as well. This study suggests that co-culture of freshly isolatedcanine islets in medium supplemented with solubilized SIS can improve thepost-culture recovery and in vitro islet function. Futureinvestigations will focus on the cellular interactions of SIS, bothinvitro and in vivo.     

Vascularized composite islet-kidney transplantation in a miniature swine model

Previous work from this laboratory has demonstrated that transplantation of allogeneic thymic tissue as part of a composite vascularized graft is far more successful in terms of both engraftment and long-term survival than transplantation of thymic tissue or cells alone. We have subsequently extended this concept to transplantation of allogeneic islets, comparing survival of islet cell suspensions to that of vascularized composite islet-kidneys (IK), prepared by injection of autologous islets underneath the renal capsule 2-3 months prior to allogeneic transplantation of the composite organ. We have utilized partially inbred miniature swine with defined MHC loci as the experimental large animals for this study, permitting reproducible transplantation across specific MHC barriers. Composite IK have been transplanted successfully across minor and full MHC mismatch barriers, using treatment regimens previously demonstrated to induce long-term tolerance of kidney allografts across these barriers. IK allografts containing ≥5000 islet equivalents (IE)/kg recipient body weight were found capable of reversing surgically induced diabetes, while injection of comparable numbers of purified islets via the portal vein or under the renal capsule did not. Studies are also being directed toward preparation of autologous “thymo-islet-kidneys” (TIK), for potential use as xenografts, in which the thymic component is intended to induce tolerance and the islets to reverse diabetic hyperglycemia. The use of both types of composite organ transplants may eventually be applicable to the treatment of type I diabetic patients suffering from end-stage diabetic nephropathy.     

SD大鼠原代胰岛细胞分离、纯化及培养技术的改进

目的:探讨大鼠胰岛细胞分离、纯化及培养的方法,并评价其生物学功能。方法:选用8~10周龄健康SD大鼠,采用胆总管逆行注射预冷胶原酶P溶液,37℃水浴静止消化,30目不锈钢筛网过滤,Ficoll400非连续密度梯度离心纯化。分离后的胰岛用DTZ染色计算胰岛产量,胰岛素释放试验评价其生物学功能。结果:胰岛细胞分布于Ficoll400浓度为23%~20%和20%~11%的界面之间。DTZ染色呈红色细胞团,胰岛产量为(606±56)IEQ/胰腺。纯度高达80~90%,活率≥90%,胰岛素释放功能良好。结论:胶原酶P溶液原位消化,Ficoll400纯化是一种高效简便的胰岛分离方法,分离的胰岛细胞数量多、纯度高及活性好。     

Characterization of Streptozotocin-induced Diabetic Rats and Pharmacodynamics of Insulin Formulations

Morphological and functional changes of rat pancreatic islets caused by administration of streptozotocin (STZ) and the bioavailability of insulin formulations administered to STZ-induced diabetic rats with fasting (12 h) or non-fasting were investigated. Islets isolated from normal rats maintained a good three-dimensional structure and the islet yield was 962.5±86.5 islet equivalent number (IEQ, islets converted to an average diameter of 150 μm). In the diabetic group (>500 mg/ml blood glucose), the islet yield was only 44.4±8.3 IEQ and the islet was severely damaged. The minimum reduction of blood glucose of each formulation, such as insulin solution, microcrystal, and insulin microcrystal capsule, was shown to be 11.3, 11.0, and 16.3 mg/dl, respectively, at 6 h in fasting with diabetic rats. These results indicated that the administration of insulin formulations to the fasting groups increased the severe hypoglycemic effect of insulin action more than in non-fasting diabetic rats. The diabetic rat with fasting has a regulatory disorder in maintaining the blood glucose level. Accordingly, the validity of pharmacological availability as an optimal modeling of insulin formulations is best in non-fasting STZ-induced diabetic rats.     

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 <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 150 μm 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.