Adult rat pancreatic islet cells adherent to microcarrier beads: Evaluation of function and morphology

Summary Dispersed adult rat pancreatic islet cells were incubated with Cytodex-3 microcarrier beads for 72 h, during which time single cells adhered firmly to bead surfaces. Electron microscopy revealed well-preserved ultrastructure of attached A, B, and D cells. Perifusion of these cultures showed stable basal insulin release, brisk, biphasic insulin responses to 30-min glucose stimulation, and consistent, monophasic spikes of insulin release in response to repeated, brief pulses of glucose. These results indicate that adult rat islet cells attach to microcarriers and remain viable in culture. This preparation offers advantages for studies of hormone secretory dynamics of differentiated single islet cells, free from cell-to-cell interactions. This study was supported by grants from the Medical Research Council of New Zealand. D.W.H. was the recipient of a Novo Diabetes Research Scholarship.     

Microcarriers: A new approach to pancreatic islet cell culture

Summary Free islet cell suspensions were prepared from isolated fetal rat islets using a modified enzyme dispersion technique. The islet cells were dispensed into a culture flask containing microcarriers (Cytodex) suspended in culture medium RPMI 1640 by a slowly rotating bar magnet. Microscopical examination of the beads showed that the islet cells attached and then progressively proliferated on the surface of the beads as a monolayer. A highly sustained release of insulin from the beads to the medium was observed during the 7 d culture period. The functional viability of the cultured islet cells was further demonstrated by the ability of batches of the cell-coated beads to synthesize insulin and to increase the insulin release in response to an acute challenge (16.7 mmol/l glucose plus 5 mmol/l theophylline). The results suggest that bead microcarriers may provide a new approach to monolayer islet cell culture providing functional monolayers, which can easily be transferred to different test systems and further manipulated. Financial support for the study was received from the University of Uppsala, the Swedish Diabetes Association, Stiftelsen Expressens Prenatalforskningsfond, Nordisk Insulinfond, Stiftelsen Claes Groschinskys Minnesfond, the Swedish Society of Medical Sciences and the Swedish Medical Research Council (Grants No. 12X-109 and 12X-2297). This work was presented in part at the 15th Annual Meeting of the Scandinavian Society for the Study of Diabetes (June 5–7, 1980; Oslo, Norway) and the 16th Annual Meeting of the European Association for the Study of Diabetes (September 24–27th, 1980; Athens, Greece).     

Insulin secretion from perifused rat pancreatic pseudoislets

Summary Isolated adult rat pancreatic islets were dispersed into single cells and cultured free-floating for 3 to 4 d, during which time islet cells reaggregated spontaneously into spherical clusters or pseudoislets. The gross morphology of these tissues resembled nondissociated islets. Electron microscopy revealed well-preserved cell ultrastructure and intercellular membrane connections. Immunofluorescent localization of islet cell types showed that A cells tended to be peripherally distributed around a B cell core, with D cells scattered throughtout the aggregate, mass. The dynamics of insulin release from pseudoislets were evaluated in vitro by perifusion techniques. Pseudoislets exhibited clear biphasic dose-dependent insulin responses to 30 min glucose stimulation over the range 5.5 to 30 mM. Repeated 2-min pulses with 22 mM glucose elicited brief monophasic spikes of insulin release of, consistent magnitude.l-Arginine (5 to 20 mM) evoked biphasic insulin release but these responses were not dose-dependent. These data indicate that islet cells reaggregate into structures with close morphologic similarities to intact islets, and that pseudoislet B cells continue to secrete insulin in response to nutrient secretagogues, comparable to that seen with islets in vitro and in situ. This work was supported by grants from the Medical Research Council of New Zealand. D. W. H. was the recipient of a Novo Diabetes Research Scholarship.     

A Historical Perspective on the Identification of Cell Types in Pancreatic Islets of Langerhans by Staining and Histochemical Techniques

Before the middle of the previous century, cell types of the pancreatic islets of Langerhans were identified primarily on the basis of their color reactions with histological dyes. At that time, the chemical basis for the staining properties of islet cells in relation to the identity, chemistry and structure of their hormones was not fully understood. Nevertheless, the definitive islet cell types that secrete glucagon, insulin, and somatostatin (A, B, and D cells, respectively) could reliably be differentiated from each other with staining protocols that involved variations of one or more tinctorial techniques, such as the Mallory-Heidenhain azan trichrome, chromium hematoxylin and phloxine, aldehyde fuchsin, and silver impregnation methods, which were popularly used until supplanted by immunohistochemical techniques. Before antibody-based staining methods, the most bona fide histochemical techniques for the identification of islet B cells were based on the detection of sulfhydryl and disulfide groups of insulin. The application of the classical islet tinctorial staining methods for pathophysiological studies and physiological experiments was fundamental to our understanding of islet architecture and the physiological roles of A and B cells in glucose regulation and diabetes.     

胶原酶消化法分离制备罗非鱼和中华鳖的胰岛细胞及其生物活性

目的探讨罗非鱼、中华鳖胰岛细胞分离提取的方法及对比两者的生物学活性差异。方法采用胶原酶消化分离罗非鱼、中华鳖胰岛细胞,光镜下观察其形态结构。在体外用不同浓度的葡萄糖刺激胰岛细胞,测定其生物学活性。结果罗非鱼、中华鳖胰岛细胞在体外对不同浓度的葡萄糖刺激具有明确的生物学反应,并随着葡萄糖浓度的增加胰岛素的产生也相应增加。结论采用胶原酶消化分离罗非鱼、中华鳖胰岛细胞的方法可行,胰岛细胞在体外对不同浓度的葡萄糖刺激产生胰岛素并具有正相关,其为鱼纲、爬行纲与哺乳纲动物之间的胰岛细胞移植奠定了实验基础。     

Mesenchymal stem cells protect islets from hypoxia/reoxygenation-induced injury

Hypoxia/reoxygenation (H/R)‐induced injury is the key factor associated with islet graft dysfunction. This study aims to examine the effect of mesenchymal stem cells (MSCs) on islet survival and insulin secretion under H/R conditions. Islets from rats were isolated, purified, cultured with or without MSCs, and exposed to hypoxia (O₂ ≤ 1%) for 8 h and reoxygenation for 24 and 48 h, respectively. Islet function was evaluated by measuring basal and glucose‐stimulated insulin secretion (GSIS). Apoptotic islet cells were quantified using Annexin V‐FITC. Anti‐apoptotic effects were confirmed by mRNA expression analysis of hypoxia‐resistant molecules, HIF‐1α, HO‐1, and COX‐2, using semi‐quantitative retrieval polymerase chain reaction (RT‐PCR). Insulin expression in the implanted islets was detected by immunohistological analysis. The main results show that the stimulation index (SI) of GSIS was maintained at higher levels in islets co‐cultured with MSCs. The MSCs protected the islets from H/R‐induced injury by decreasing the apoptotic cell ratio and increasing HIF‐1α, HO‐1, and COX‐2 mRNA expression. Seven days after islet transplantation, insulin expression in the MSC‐islets group significantly differed from that of the islets‐alone group. We proposed that MSCs could promote anti‐apoptotic gene expression by enhancing their resistance to H/R‐induced apoptosis and dysfunction. This study provides an experimental basis for therapeutic strategies based on enhancing islet function. Copyright © 2010 John Wiley & Sons, Ltd.     

Metabolic and secretory effects of methylamine in pancreatic islets

The metabolic and secretory effects of methylamine in rat pancreatic islets were investigated. Methylamine accumulated in islet cells, was incorporated into endogenous islet proteins, and inhibited the incorporation of [2,5-³H] histamine into either N,N-dimethylcasein or endogenous islet proteins. Methylamine (2 mM ) did not affect the oxidation of glucose or endogenous nutrients or the intracellular pH in islet cells. Glucose did not affect the activity of transglutaminase in islet homogenates, the uptake of ¹⁴C-methylamine by intact islets or its incorporation into endogenous islet proteins. Methylamine inhibited insulin release evoked by glucose, other nutrient secretagogues, and non-nutrient insulinotropic agents such as L -arginine or gliclazide. The inhibitory effect of methylamine upon insulin release was diminished in the presence of cytochalasin B or at low extracellular pH. Methylamine retarded the conversion of proinsulin to insulin. Trimethylamine (0.7 mM ) was more efficiently taken up by islet cells than methylamine (2.0 mM ), and yet caused only a modest inhibition of insulin release. These findings suggest that methylamine interferes with a late step in the secretory sequence, possibly by inhibiting the access of secretory granules to their exocytotic site.     

Nitric oxide stimulates insulin release in liver cells expressing human insulin

The establishment of surrogate islet beta cells is important for the treatment of diabetes. Hepatocytes have a similar glucose sensing system as beta cells and have the potential to serve as surrogate beta cells. In this report, we demonstrate that infection of Hepa1-6 liver cells with a lentivirus expressing the human insulin cDNA results in expression and secretion of human insulin. Furthermore, we show that l-arginine at low levels of glucose significantly stimulates the release of insulin from these cells, compared to exposure to high concentration of glucose. The arginine-induced insulin release is via the production of nitric oxide, since treatment with N(G)-nitro-l-arginine, an inhibitor of nitric oxide synthase, blocks insulin secretion induced by l-arginine. These results indicate that nitric oxide plays a role in l-arginine-stimulated insulin release in hepatocytes expressing the human insulin gene, and provides a new strategy to induce insulin secretion from engineered non-beta cells.     

Enhancement of pancreatic islet cell monolayer growth by endothelial cell matrix and insulin

Summary The roles of glucose and insulin in the promotion of DNA synthesis in pancreatic islet cell monolayers were assessed using a variety of in vitro conditions. Several substrates including collagen, poly-l-lysine, Matrigel, and the extracellular matrix produced by cultured bovine endothelial cells (BCEM) were compared for their ability to promote monolayer growth. Islets grown on BCEM in combination with medium RPMI 1640 supplemented with 22.2 mM glucose or 10 μg/ml insulin gave the best results as determined by new DNA synthesis. The new-form monolayers were free of contaminating, fibroblasts. These results suggest that insulin is critical to pancreatic islet growth when the cells are attached to biocompatible matrices.     

Rapid assessment of islet viability with acridine orange and propidium iodide

Summary A simple, rapid method for estimating the viability of isolated islets of Langerhans with fluorescent dyes is described. Low concentrations of acridine orange and propidium iodide (AO/PI) were used to visualize living and dead islet cells simultaneously. AO/PI-stained islets can be divided into three distinct groups. Group A islets fluoresce green, contain insulin, and have normal ultrastructure; group C islets fluoresce primarily red, contain little or no insulin, and have cells with disrupted cellular membranes. Group B islets fluoresce red, green, and yellow. The yellow color is due to the addition of two primary colors from the superimposed red and green fluorescing cells. In this assay, the interpretation that red islet cells are dead and green islet cells are alive was confirmed by sequentially staining single islet cells with AO/PI and trypan blue. The observation that red islets are dead was confirmed by heat-killing, enzymatically damaging, treating with ethanol, or depriving islets of nutrients and observing the red fluorescence. This assay should be useful in studies where the assessment of islet viability is essential. Preliminary reports of this work were presented at two meetings and were published in abstract form (24,25). This research was supported in part by the National Institutes of Health, Bethesda, MD, grant DK 18115.     

神经元限制性沉默因子与胰岛素在成年小鼠胰腺中的表达

目的:观察神经元限制性沉默因子(NRSF)在正常成年小鼠胰腺组织中的表达情况。方法:以6～8周BALB/c小鼠胰腺为实验材料,制备冰冻切片,与地高辛标记的NRSF cDNA探针进行原位杂交,观察mRNA表达,并结合免疫组织化学方法检测NRSF和胰岛素的表达。结果:原位杂交显示,NRSF mRNA仅表达于胰腺组织外分泌部腺泡腺细胞中,胞浆呈蓝紫色,与免疫荧光组织化学检测NRSF蛋白表达的部位一致,而胰岛细胞中无NRSF mRNA及蛋白的表达。免疫酶组织化学染色显示,胰岛大部分细胞中表达胰岛素,胞浆染成黄棕色,而腺泡腺细胞则不表达胰岛素。结论:NRSF与胰岛素不存在共定位关系,即成年小鼠胰岛细胞不表达NRSF,而表达胰岛素。提示NRSF蛋白表达的消失可能是建立完全分化成熟、具有完好分泌反应的胰岛细胞所必需的。     

Immunohistochemical colocalization of insulin,aromatic L-amino acid decarboxylase and dopamine beta-hydroxylase in islet B cells of chicken pancreas

Summary The identity of the monoamine which produces a very weak formaldehyde-induced fluorescence in some pancreatic islet cells was studied by fluorescence microscopy and immunohistochemistry either on the same tissue section or on serial tissue sections of tissue from male chickens. Pancreatic islet cells showing this very weak formaldehyde-induced fluorescence react immunohistochemically with antisera directed against insulin, aromatic L-amino acid decarboxylase and dopamine beta-hydroxylase and therefore appear to be islet B cells producing insulin and noradrenaline.     

Failure of insulin cells to develop in cultured embryonic chick pancreas: A model system for the detection of factors supporting insulin cell differentiation

Summary Little being known about factors necessary for insulin cell differentiation, we tested the chance observation that these cells were virtually absent from collagen gel cultures of embryonic avian pancreas in which the other pancreatic endocrine cells were numerous. Five-day dorsal buds stripped of their enveloping mesenchyme were embedded in gel and overlaid by a defined medium containing serum, then cultured for 7 days. Immunocytochemical evaluation showed a very low proportion of insulin cells. Substitution of the gel by a polyamino acid coating slightly increased the proportion. In an attempt to test for ability of insulin cell formation to recover, we transferred explants first cultured in collagen gel to polyamino-acid-coated dishes for a further 7 days. No improvement resulted. In controls grown for 14 days on a polyamino acid coating, insulin cells disappeared completely. We conclude that collagen gel does not support survival and differentiation of chick embryonic insulin cells and that the medium used is lacking in some essential factor(s). Determination of their identity should prove possible by exploitation of this model.     

Induced in vitro differentiation of pancreatic-like cells from human amnion-derived fibroblast-like cells

There is growing evidence that the human amnion contains various types of stem cells. As amniotic tissue is readily available, it has the potential to be an important source of material for regenerative medicine. In the present study, we evaluated the potential of human amnion-derived fibroblast-like (HADFIL) cells to differentiate into pancreatic islet cells. Two HADFIL cell populations, derived from two different neonates, were analyzed. The expression of pancreatic cell-specific genes was examined before and after in vitro induction of cellular differentiation. We found that Pdx-1 , Isl-1 , Pax-4 , and Pax-6 showed significantly increased expression following the induction of differentiation. In addition, immunostaining demonstrated that insulin, glucagon, and somatostatin were present in HADFIL cells following the induction of differentiation. These results indicate that HADFIL cell populations have the potential to differentiate into pancreatic islet cells. Although further studies are necessary to determine whether such in vitro -differentiated cells can function in vivo as pancreatic islet cells, these amniotic cell populations might be of value in therapeutic applications that require human pancreatic islet cells.     

沉默长链非编码RNA Meg3损伤小鼠胰岛细胞的胰岛素分泌功能

MEG3是一种长链非编码RNA。已有研究证明,鼠源Meg3参与小鼠诱导多能干细胞、神经元和视网膜的分化过程。最新报道,MEG3在人胰岛β细胞中高表达,但其对维持成年胰岛β细胞的功能尚不清楚。本研究旨在探讨Meg3在小鼠胰岛细胞胰岛素分泌功能中的作用。实时定量PCR揭示,与Balb/c小鼠心、肝、脾、肺、肌、肾等组织/器官比较,Meg3在胰腺组织中高表达。在非糖尿病小鼠发生自发性糖尿病的第8、12周,Meg3在胰岛中的表达水平分别下调24%±8%和29%±9% (P<0.01);而当血糖升高20 mmol/L,小鼠胰岛中Meg3表达下调72%±16%(P<0.01)。在MIN6细胞中采用RNA干扰敲减Meg3的表达,在高糖浓度（20 mmol/L）刺激条件下,胰岛素分泌显著减少。小鼠静脉注射siRNA,结合血糖测定或葡萄糖耐受试验（IPGTT）显示,si-Meg3小鼠血清胰岛素水平显著下降。注射葡萄糖前血糖升高,注射葡萄糖后耐受能力降低;免疫组化分析显示,si-Meg3小鼠胰岛素阳性细胞的面积减少。实验结果提示,Meg3通过参与胰岛素的合成和分泌维持成年小鼠胰岛功能。Meg3表达失调可能参与I型糖尿病（T1DM）发病过程。     

Effect of 2-deoxy-d-glucose on maintenance in culture of neonatal B cell of rat

Summary The effect of 2-deoxy-d-glucose on maintenance in culture of B cells of the neonatal rat was examined by supplementation of Medium 199 containing 5.5 mM glucose with 1 mM 2-deoxy-d-glucose. Islets maintained in medium with 5.5 mM glucose (basal medium) for 7 d underwent remarkable decreases in glucose sensitivity, and the levels of insulin in the medium dropped. By contrast, addition of 2-deoxy-d-glucose promoted a higher insulin content in medium and an increase in the glucose-induced insulin release and biosynthesis. Moreover, the addition of the deoxysugar caused a selective deletion of fibroblasts and prevented the deterioration of islet cells in basal medium, yielding clusters mostly consisting of islet cells at the end of culture.     

Pancreatic stellate cell-potentiated insulin secretion from Min6 cells is independent of interleukin 6-mediated pathway

Pancreatic stellate cells (PSCs) secrete various factors, which can influence the β-cell function. The identification of stellate cell infiltration into the islets in pancreatic diseases suggests possible existence of cross-talk between these cells. To elucidate the influence of PSCs on β-cell function, mouse PSCs were cocultured with Min6 cells using the Transwell inserts. Glucose-stimulated insulin secretion from Min6 cells in response to PSCs was quantified by enzyme-linked immunosorbent assay and insulin gene expression was measured by quantitative polymerase chain reaction. Upon cytometric identification of IL6 in PSC culture supernatants, Min6 cells were cultured with IL6 to assess its influence on the insulin secretion and gene expression. PLC-IP₃ pathway inhibitors were added in the cocultures, to determine the influence of PSC-secreted IL6 on Glucose-stimulated insulin secretion from Min6 cells. Increased insulin secretion with a concomitant decrease in total insulin content was noticed in PSC-cocultured Min6 cells. Although increased GSIS was noted from IL6-treated Min6 cells, no change in the total insulin content was noted. Coculture of Min6 cells with PSCs or their exposure to IL6 did not alter either the expression of β-cell-specific genes or that of miRNA-375. PSC-cocultured Min6 cells, in the presence of PLC-IP₃ pathway inhibitors (U73122, Neomycin, and Xestospongin C), did not revoke the observed increase in GSIS. In conclusion, the obtained results indicate that augmented insulin secretion from Min6 cells in response to PSC secretions is independent of IL6-mediated PLC-IP₃ pathway.     

Hemoglobin regulates the metabolic and synthetic function of rat insulinoma cells cultured in a hollow fiber bioreactor

Pancreatic islet transplantation continues to benefit patients with type 1 diabetes by normalizing glucose metabolism and improving other complications of diabetes. However, islet transplantation therapy is limited by the inadequate availability of pancreatic islets. In order to address this concern, this work investigated the expansion of rat insulinoma cells (INS‐1) and their ability to generate insulin in a hollow fiber bioreactor (HFB). The long‐term goal of this project is to develop a bioartificial pancreas. HFBs were incubated at two different oxygenation conditions (10% and 19% O₂) to determine the best scenario for O₂ transport to cultured cells. Also, bovine hemoglobin (BvHb) was supplemented in the cell culture media of the HFBs in order to increase O₂ transport under both oxygenation conditions. Our results show that INS‐1 cells expanded under all oxygenation conditions after 2 weeks of culture, with a slightly higher cell expansion under normoxic oxygenation (19% O₂) for both control HFBs and BvHb HFBs. In addition, cellular insulin production remained steady throughout the study for normoxic control HFBs and BvHb HFBs, while it increased under hypoxic oxygenation (10% O₂) for both types of HFBs but to different extents. Under the two different oxygenation conditions, cellular insulin production was more uniform with time in BvHb HFBs versus control HFBs. These results, along with qRT‐PCR analysis, suggest a possible dysregulation of the insulin‐signaling pathway under hypoxic culture conditions. In conclusion, the HFB culture system is an environment capable of expanding insulinomas while maintaining their viability and insulin production capabilities. Biotechnol. Bioeng. 2010;107: 582–592. © 2010 Wiley Periodicals, Inc.