Validation of methodologies for quantifying isolated human islets: an Islet Cell Resources study.

BACKGROUND: Quantification of islet mass is a crucial criterion for defining the quality of the islet product ensuring a potent islet transplant when used as a therapeutic intervention for select patients with type I diabetes. METHODS: This multi-center study involved all eight member institutions of the National Institutes of Health-supported Islet Cell Resources Consortium. The study was designed to validate the standard counting procedure for quantifying isolated, dithizone-stained human islets as a reliable methodology by ascertaining the accuracy, repeatability (intra-observer variability), and intermediate precision (inter-observer variability). The secondary aim of the study was to evaluate a new software-assisted digital image analysis method as a supplement for islet quantification. RESULTS: The study demonstrated the accuracy, repeatability and intermediate precision of the standard counting procedure for isolated human islets. This study also demonstrated that software-assisted digital image analysis as a supplemental method for islet quantification was more accurate and consistent than the standard manual counting method. CONCLUSIONS: Standard counting procedures for enumerating isolated stained human islets is a valid methodology, but computer-assisted digital image analysis assessment of islet mass has the added benefit of providing a permanent record of the isolated islet product being evaluated that improves quality assurance operations of current good manufacturing practice.

Improved islet yields from pancreas preserved in perflurocarbon is via inhibition of apoptosis mediated by mitochondrial pathway.

Islet transplantation is a treatment option for type I diabetic patients. Preservation of human pancreata prior to islet isolation using two-layer method with perfluorocarbon (PFC) and University of Wisconsin solution (UW) results in twofold increase in islet yields. The objective of this study was to determine the mechanism by which islets undergo apoptosis and determine PFC's effects on this process. Gene array analysis was used to analyze the expression of pro- and anti-apoptotic genes in islets isolated from pancreata preserved under varying conditions. A 12-fold increase in the expression of inhibitor of apoptosis (IAP) and survivin was observed in islets isolated from pancreata preserved in PFC. This was accompanied by decreased expression of BAD (3.7-fold), BAX (2.7-fold) and caspases (5.2-fold). Levels of activated caspase-9 (77.98%), caspase-2 (61.5%), caspase-3 (68.3%) and caspase-8 (37.2%) were also reduced. 'Rescue' of pancreata after storage (12 h) in UW by preservation using PFC also resulted in a down-regulation of pro-apoptotic genes and inhibition of caspase activation. Apoptosis observed in islets from all groups was mainly mitochondria-dependent, mediated by change in redox potential initiated by hypoxia. We demonstrate that reduction in hypoxia of pancreata preserved using PFC leads to significant up-regulation of anti-apoptotic and inhibition of pro-apoptotic genes.

Activation of human dendritic cells by porcine aortic endothelial cells: transactivation of naïve T cells through costimulation and cytokine generation.

BACKGROUND: Dendritic cells (DC) are the most potent antigen-presenting cells in the immune system. To define the role of human DC in human anti-porcine immune responses, we defined the interaction of human DC with porcine aortic endothelial cells (PAEC). METHODS: To determine the immune responses, both monocyte-derived and peripheral blood DC were cultured with porcine and human endothelial cells. We analyzed the role of CD11a, CD11b, and CD54 in a cell-to-cell adhesion assay using antibodies against these molecules. The expression pattern of costimulatory molecules (CD40, CD80, CD86), adhesion molecules (CD54), and intracellular cytokines (interleukin-12p70 and tumor necrosis factor [TNF]-alpha) in DC after interaction with endothelial cells was determined by immunofluorescence. RESULTS: Human DC significantly adhered to PAEC (38-40%), and this adhesion was augmented (>50%) upon treatment with either recombinant swine interferon-gamma or recombinant human TNF-alpha. Addition of human DC to PAEC was blocked by pretreatment of DC with antibodies specific to human leukocyte function-associated antigen-1 or CD54. Adhesion of DC to PAEC also resulted in the activation of DC, which was manifested by up-regulation of costimulatory molecules (CD40, CD80, CD86), adhesion molecules (CD54), and HLA-DR. PAEC-activated human DC provided proliferative signals to the naïve autologous CD4+ T cells and synthesized interleukin-12p70 and TNF-alpha. However, activated DCs failed to lyse PAEC in such interaction. CONCLUSION: Human DC effectively adhered to PAEC and were activated by xenoantigen, resulting in highly efficient antigen presentation and proliferation of CD4+ T cells. Further, this interaction of human DC to PAEC is regulated by the participation of costimulatory and adherence molecules and cytokines.

Improved methods for the isolation and purification of porcine islets.

Recent progress in human islet transplantation demonstrates the feasibility of using purified human islets for treatment of type 1 diabetes mellitus; however, a shortage of human pancreata remains a major obstacle. This report describes methods to isolate porcine islets using a modification of the automated chamber method. The pancreata from 2-year-old sows were trimmed and injected intraductally with Sevac, Sigma, or Liberase PI collagenase. The pancreata was placed in the chamber, shaken, and recirculated at 70 ml/min until an adequate number of islets were liberated. The digest was centrifuged and the pellets pooled with University of Wisconsin Solution + 10% horse serum and incubated at 4 degrees C for 1 h. The islets were purified using a continuous gradient of Hypaque Euroficoll on a refrigerated COBE 2991. The islets were collected in fractions, assessed for purity, sized, and then suspended in Medium 199. Collagenase preparations obtained from Sevac (2919 islet equivalents [IE]/g), Sigma (2543 IE/g), and Liberase PI (2901 IE/g) gave similar results with 94%-95% purity. In summary, we report a successful method for efficient isolation and purification of porcine islets, yielding nearly 3000 IE/gm, with different collagenase products.

Indirect recognition of porcine swine leukocyte Ag class I molecules expressed on islets by human CD4+ T lymphocytes.

Xenotransplantation of porcine islets is considered a viable alternative treatment for type 1 diabetes mellitus. Therefore, we characterized human PBL responding to porcine islets both in vitro by coculture and in vivo using SCID mice reconstituted with human PBLs (HuPBL-SCID) and transplanted with porcine islets. T cell lines generated in vitro and graft-infiltrating T cells obtained from HuPBL-SCID mice were CD4+-proliferated specifically to porcine islets cultured with autologous APC. This proliferation was abrogated by an anti-human class II Ab. These T cell lines also proliferated to purified swine leukocyte Ag (SLA) class I molecules in the presence of self-APC, indicating that the primary xenoantigens recognized are peptides derived from SLA. This CD4+ T cell line lysed porcine islets but not splenocytes. CD4+ T cell clones with Th0, Th1, and Th2 cytokine profiles were isolated. The Th0 and Th1 clones lysed porcine islets, whereas the Th2 clone that secreted a large amount of IL-4 was not lytic. These results demonstrate that human T cells responding to porcine islets are primarily CD4+ and recognize porcine xenoantigens by the indirect Ag pathway presentation. These activated T cells produce cytokines that lyse islets. Furthermore, we demonstrate that the major porcine xenoantigens recognized are SLA class I molecules.

Improved method for the isolation and purification of human islets of langerhans using Liberase enzyme blend.

To determine the effects of procedural modifications, 23 human islet isolations were analyzed. Isolations were divided into two groups based on the enzyme used. The influence of Liberase, with an improved method of mechanical disassociation of pancreas, was compared to an automated method using Sevac collagenase. Pancreases were processed within 10 h of cross clamping. Following ductal injection of the enzyme, tissue was placed in the digestion chamber for disassociation. Purification was accomplished using a COBE 2991 cell processor and continuous gradients of 1Hypaque EuroFicoll. Isolations in Group I (Sevac) had an average yield of 138,602 +/- 128,364 islet equivalents (IE) (2083 +/- 1679 IE/g) with a purity of 85 +/- 11%. Group II (Liberase) showed an average yield of 389,586 +/- 191,161 IE (5,958 +/- 3,083 IE/g) with a purity of 90 +/- 6.8%. Viability was confirmed by fluorescein diacetate and propidium iodide staining, static incubations, and perifusions. In conclusion, the combination of the enzyme blend, Liberase, and a more gentle system of disassociation has proven to be a more productive method of islet isolation with higher purity than the previously published methods.

HLA antibodies present in the sera of sensitized patients awaiting renal transplant are also reactive to swine leukocyte antigens.

BACKGROUND: To determine whether preformed HLA alloantibodies present in the sera of patients awaiting kidney transplantation will be detrimental to a potential porcine xenograft, we tested their cross-reactivity to swine leukocyte antigens (SLA). METHODS: Sera obtained from patients with varying levels of HLA sensitization (high panel-reactive antibodies > 70%, n= 7; moderate panel-reactive antibodies 30-40%, n=2) were analyzed. Pooled normal human AB sera and sera from nonsensitized patients (n=3) served as negative control. IgG was purified by protein-G chromatography, and xenoreactive natural antibodies (XNA) were depleted by passing the IgG through a series of melibiose and thyroglobulin-agarose columns. The elimination of XNA from HLA IgG preparations was confirmed by GS-IB4 lectin blocking assay and by an ELISA. RESULTS: IgG isolated from normal AB serum and three nonsensitized patients, which was depleted of XNA (HLA-IgG), did not react to human or porcine lymphocytes (peripheral blood mononuclear cells; PBMC) either by flow cytometry or by complement-dependent microcytotoxicity assays. However, HLA-IgG isolated from nine sensitized patients were reactive to a panel of porcine peripheral blood lymphocytes (n=6) by flow cytometry (>50 mean channel shift) and in complement-dependent microcytotoxicity assays in addition to their reactivity to human PBMC. The binding of HLA-IgG to porcine PBMC was significantly reduced by preabsorption with pooled human platelet concentrate. Further, the HLA IgG showed recognition of 45-kDa affinity-purified SLA class I on Western blots. CONCLUSIONS: This study demonstrates that HLA antibodies present in the sera of sensitized individuals can cross-react with SLA. Thus, xenotransplantation of porcine organs into HLA-sensitized patients has the potential to be rejected by humoral mechanisms. Testing to avoid such cross-reactive antibodies should be considered.

Prolonged survival of discordant porcine islet xenografts.

Purified porcine islets were prepared by collagenase digestion and density gradient purification, and transplanted under the kidney capsule of C57B/B6 mice with streptozotocin-induced diabetes which were receiving varying temporary immunosuppressive therapies. Islets that had been cultured for 1 day at 37 degree C were rejected after : 9+/-0.1 (mean+/-SE) days in control mice: 14+/-3 days in mice receiving mouse antilymphocyte serum (MLS) plus porcine antilymphocyte serum (PLS) on day of transplant (day 0); 43+/-6 days in mice treated for 1 week with anti-CD4 antibody (aCD4); 36+/-4 days in mice given aCD4 for 1 week plus PLS on days 0 and 7; 47+/-3 days in mice treated with aCD4 for 1 week plus MLS and PLS on day 21. Porcine islet survival in these latter three groups was significantly (P<0.01) and similarly longer than in the control and MLS plus PLS groups. Then, we transplanted islets that had been either cultured at 24 degrees C for 7 days or cryopreserved into 7-day aCD4-treated mice, to evaluate whether low temperature culture or the freezing-thawing procedure could affect survival. Neither 7-day, low temperature culture (mean survival time: 37+/-2 days) nor cryopreservation (mean survival time: 39+/-2 days) prolonged islets function further. Thus, the present study demonstrates that prolonged survival can be achieved with discordant porcine islet xenografts, and shows the greater efficacy of aCD4 treatment, which was not improved by additional immunosuppressive therapies we tested, nor by culture or cryopreservation of the islets.

Continued insulin dependence despite normal range insulin sensitivity and insulin connecting peptide levels in a kidney/islet transplant patient.

OBJECTIVE: The majority of islet transplant recipients remain insulin-requiring, although many have near-normal connecting peptide (CP) levels. Insulin resistance may be one possible cause of the continuing need for exogenous insulin in islet transplant recipients. To assess this, we have studied the insulin sensitivity index (S1) in one patient with near-normal CP levels after islet transplant who remained insulin-requiring. RESEARCH DESIGN AND METHODS: The islet transplant recipient is a 36-year-old woman with no residual CP who received a kidney transplant, followed 7 days later by an islet transplant. The islets were infused into the liver via the umbilical vein. Induction immunosuppression consisted of OKT3, prednisone, cyclosporin A, and azathioprine, with maintenance on the latter three. RESULTS: Maximum CP levels after a standardized Sustacal meal were 2.09, 1.18, 0.85, and 0.81 nmol/l at 1,6,18, and 24 months posttransplant, respectively. Insulin requirements at the same times were 0.27, 0.45, 0.49, and 0.62 U.kg(-1).d(-1), while S1 was 36.3, 53.3, and 13.2 min (-1).nmol(-1).ml at 6,18, and 24 months, respectively. This compares with S1 values of 43.3+/- 10.0 min (-1).nmol(-1).ml for normal subjects. CONCLUSIONS: This patient had near-normal S1 and CP levels, but she was unable to discontinue insulin therapy, suggesting that other factors are critical. Despite this, she maintained normal or near-normal glycated hemoglobins, indicating metabolic benefit from the islet transplant.

Insulin inhibits its own secretion from isolated, perifused human pancreatic islets.

It is still a controversial question whether insulin suppresses its own secretion. We prepared pure human islets from three pancreases by collagenase digestion and density gradient purification. Aliquots of 200 islet equivalents (IE, 150-microns sized-islets) were sequentially perifused at 37 degrees C with 3.3 mmol/l glucose (3.3G, 40 min), 16.7 mmol/l glucose (16.7G, 30 min) and again 3.3G (30 min) after 24 h, 37 degrees C culture in CMRL 1066 medium with or without the addition of either 200 or 400 microU/ml human insulin in the incubation medium (6 replicates each). Insulin secretion was assessed by C-peptide (Cp) measurement in the perifusate. Without added insulin (C) and with 200 (Ins200) or 400 (Ins400) microU/ml added insulin, basal Cp release was 0.12 +/- 0.03, 0.14 +/- 0.02 and 0.14 +/- 0.04 ng/ml, respectively. At 16.7G, the first-phase secretion peak (expressed as Cp value) was significantly lower with Ins200 (0.47 +/- 0.13 ng/ml, P < 0.02) and Ins400 (0.68 +/- 0.15 ng/ml, P < 0.05) than C (0.83 +/- 0.15 ng/ml). The second-phase secretion peak was also significantly (P < 0.05) reduced with added insulin (Ins200: 0.47 +/- 0.08 ng/ml; Ins400: 0.45 +/- 0.07 ng/ml) than in its absence (C: 0.65 +/- 0.09 ng/ml). Accordingly, total Cp secretion was lower with Ins200 (10.6 +/- 2.3 ng/ml, P = 0.03) and Ins400 (11.8 +/- 2.3 ng/ml) than with C (16.0 +/- 2.2 ng/ml).(ABSTRACT TRUNCATED AT 250 WORDS)

Protection of encapsulated human islets implanted without immunosuppression in patients with type I or type II diabetes and in nondiabetic control subjects.

Human islets were macroencapsulated in permselective hollow fiber membrane devices and successfully allotransplanted subcutaneously with > 90% viability after 2 weeks in situ. Recipients were patients with type I or type II diabetes and normal control subjects; none was immunosuppressed. Between 150 and 200 islet equivalents were implanted in each of the nine patients. No adverse patient complications were observed. Biocompatibility of devices was excellent. Insulin-positive beta-cells were confirmed in encapsulated islets recovered from the implanted devices in all patient populations including the type I diabetic patients. Glucose-stimulated insulin release could be demonstrated in vitro from recovered islets. These data demonstrate that macroencapsulated human islets can survive at the subcutaneous site and that permselective membranes can be designed to protect against both allogeneic immune responses as well as the autoimmune component of type I diabetes.