Impact of an autologous oxygenating matrix culture system on rat islet transplantation outcome.

Disruption of the pancreatic islet environment combined with the decrease in oxygen supply that occurs during isolation leads to poor islet survival. The aim of this study was to validate the benefit of using a plasma-based scaffold supplemented with perfluorodecalin to improve islet transplantation outcome. Rat islets were cultured in three conditions: i) control group, ii) plasma based-matrix (P-matrix), and iii) P-matrix supplemented with emulsified perfluorodecalin. After 24 h culture, matrix/cell contacts (Integrinß1, p-FAK/FAK, p-Akt/Akt), survival (caspase 3, TUNEL, FDA/PI), function, and HIF-1α translocation were assessed. Afterwards, P-matrices were dissolved and the islets were intraportally transplanted. Graft function was monitored for 31 days with glycaemia and C-peptide follow up. Inflammation was assessed by histology (macrophage and granulocyte staining) and thrombin/anti-thrombin complex measurement. Islet survival correlated with an increase in integrin, FAK, and Akt activation in P-matrices and function was maintained. Perfluorodecalin supplementation decreased translocation of HIF-1α in the nucleus and post-transplantation islet structure was better preserved in P-matrices, but a quicker activation of IBMIR resulted in early loss of graft function. "Oxygenating" P-matrices provided a real benefit to islet survival and resistance in vivo. However, intraportal transplantation is not suitable for this kind of culture due to IBMIR; thus, alternative sites must be explored.

Perfluorocarbon emulsions prevent hypoxia of pancreatic ß-cells.

As oxygen carriers, perfluorocarbon emulsions might be useful to decrease hypoxia of pancreatic islets before transplantation. However, their hydrophobicity prevents their homogenisation in culture medium. To increase the surface of contact between islets and Perfluorooctyl bromide (PFOB), and consequently oxygen delivery, we tested effect of a PFOB emulsion in culture medium on ß-cell lines and rat pancreatic islets. RINm5F ß-cell line or pancreatic rat islets were incubated for 3 days in the presence of PFOB emulsion in media (3.5% w/v). Preoxygenation of the medium was performed before culture. Cell viability was assessed by apoptotic markers (Bax and Bcl-2) and by staining (fluoresceine diacetate and propidium iodide). ß-Cell functionality was determined by insulin release during a glucose stimulation test and. Hypoxia markers, HIF-1α and VEGF, were studied at days 1 and 3 using RT-PCR, Western blotting, and ELISA. PFOB emulsions preserved viability and functionality of RINm5F cells with a decrease of HIF-1α and VEGF expression. Islets viability was preserved during 3 days of culture. Secretion of VEGF was higher in untreated control (0.09 ± 0.041 µg VEGF/mg total protein) than in PFOB emulsion incubated islets (0.02 ± 0.19 µg VEGF/mg total protein, n = 4, p < 0.05) at day 1. At day 3, VEGF secretion was increased as compared to day 1 in control (0.23 ± 0.04 µg VEGF/mg total protein) but it was imbalance by the presence of PFOB emulsion (0.09 ± 0.03 µg VEGF/mg total protein, n = 5, p < 0.05). While insulin secretion was maintained in response to a glucose stimulation test until day 3 when islets were incubated in the presence of PFOB emulsion preoxygenated (0.81 ± 0.16 at day 1 vs. 0.75 ± 0.24 at day 3), the ability to secrete insulin in the presence of high glucose concentration was lost in islets controls (0.51 ± 0.18 at day 1 vs. 0.21 ± 0.13 at day 3). Atmospheric oxygen delivery by PFOB emulsion might be sufficient to decrease islets hypoxia. However, to improve islets functionality, overoxygenation is needed. Finally, maintenance of islet viability and functionality for several days after isolation could improve the outcome of islets transplantation.

Use of perfluorodecalin for pancreatic islet culture prior to transplantation: a liquid-liquid interface culture system--preliminary report.

Although the issue remains controversial, short-term culture is probably beneficial for islet graft quality. However, significant islet loss is invariably observed. This is related to reduced survival of large islets, which is compromised by hypoxia under standard culture conditions. We aimed to develop a method of culture, which would avoid exposure to relative hypoxia and hence maintain the quality of islets. Isolated rat islets cultured for 48 h in a liquid-liquid interface culture system (LICS) with a perfluorocarbon were compared to islets cultured under standard (C1) and suboptimal conditions (C2). Islets were tested for viability and response to a glucose challenge, and a marginal mass was transplanted into syngeneic diabetic recipients. The viability of islets after 24-h culture in LICS was higher than in C1 and C2 groups (89.0% vs. 77.5% and 64.6%, respectively) and decreased with time to reach 79.0%, 62.9%, and 53.4% after 72-h culture. The stimulation index in LICS-cultured islets was also significantly higher than in C1 and C2 groups (12.3 ± 0.4 vs. 5.8 ± 0.5 and 4.1 ± 0.2, respectively). Following transplantation of LICS-cultured islets 50% of recipients were rendered normoglycemic compared with 14.3% and 31.3% for C2 and fresh islets, respectively. Our liquid-liquid interface culture system using perfluorodecalin provides optimized culture conditions, which preserve both islet viability and their ability to engraft successfully after intraportal transplantation and could be used for islet transportation.

An improved method of fluorescent dual insulin and endothelial staining allows visualisation of the revascularisation of intraportally transplanted islets.

BACKGROUND: Intraportally transplanted islets are avascular at the time of transplantation and take up to 14 days to fully revascularize, during which time up to 60% of islet mass may be lost. To investigate and improve islet revascularization, a robust method for the visualization and quantification of this process is required. METHODS: Islets isolated from Lewis rats were transplanted intraportally into the liver of diabetic syngeneic Lewis recipients. The animals were humanely killed either on the day of transplant or at 3, 5, 7, or 14 days posttransplant. The harvested livers were sectioned and stained with Bandeiraea simplicifolia lectin (for endothelial cells) and anti-insulin antibody and counterstained with DAPI. The slides were visualized with a fluorescent microscope. RESULTS: Islets were visualized over the whole time course. Insulin and endothelial staining was clearly visualized on the day of transplantation, but by day 3 endothelial staining was scarce within the islet. By day 5, early vessel formation could be seen within the islet, but insulin staining was patchy and associated with apoptotic nuclei. By day 7, vessels could be seen throughout the islet and insulin staining had returned. Day 14 sections showed a fully revascularized islet. CONCLUSIONS: The staining provided good delineation of islet endothelium and beta-cell location, with clear observation of the revascularization process. This technique also suggests that days 3 through 5 may be a critical period for islet survival and provides a good model for studying the effects of manipulating the revascularization process.

Effect of donor treatment with heparinoids on graft function after intraportal transplantation of a marginal islet mass: an experimental study.

Heparinoids interact with factors that are involved in ischemia-reperfusion injury and thus may prevent organ injury. We therefore studied the effects on subsequent intraportal islet transplantation of systemic administration of unfractionated and N-desulphated heparin to donors prior to pancreatectomy. Donor rats were given an intravenous injection of either heparin (1.3 mg/kg or 13.3 mg/kg; 200 U/kg or 2000 U/kg, respectively) or N-desulphated heparin (50 mg/kg; approximately 5 U/kg) at 5 to 10 minutes prior to pancreas procurement. Five hundred freshly isolated islets were injected intraportally into syngeneic male Lewis recipients that had developed streptozotocin-induced diabetes. Blood glucose and body weight were monitored for 5 weeks thereafter. Rats transplanted with islets from donors given high dose heparin showed a fall in blood glucose from 25.1 +/- 1.4 to 11.0 +/- 2.7 mmol/L (P <.01) with 60% of animals euglycemic within the first week. In contrast, the controls, did not show a fall in glucose levels at 1 week and none had become euglycaemic. Normalization of glycemia was slower in recipients of islets from animals treated with the lower dose of heparin. Results were intermediate with islets from donors given N-desulphated heparin. Nevertheless, all heparinoids used in this study caused more than a doubling of the number of animals achieving normoglycemia by 3 to 4 weeks. We hypothesize that pretreatment of the donor with heparin protects islet integrity during procurement and isolation and hence accelerates islet engraftment and remodelling. Since the effect was seen with N-desulphated heparin, which has negligible anticoagulant properties, we believe the mechanism to be independent of the anticoagulant activity.