Long-term survival and function of intrahepatic islet allografts in baboons treated with humanized anti-CD154.

Clinical islet cell transplantation has resulted in insulin independence in a limited number of cases. Rejection, recurrence of autoimmunity, and impairment of normal islet function by conventional immunosuppressive drugs, e.g., steroids, tacrolimus, and cyclosporin A, may all contribute to islet allograft loss. Furthermore, intraportal infusion of allogeneic islets results in the activation of intrahepatic macrophages and endothelial cells, followed by production of proinflammatory mediators that can contribute to islet primary nonfunction. We reasoned that the beneficial effects of anti-CD154 treatment on autoimmunity, alloreactivity, and proinflammatory events mediated by macrophages and endothelial cells made it an ideal agent for the prevention of islet allograft failure. In this study, a nonhuman primate model (Papio hamadryas) was used to assess the effect of humanized anti-CD154 (hu5c8) on allogeneic islet engraftment and function. Nonimmunosuppressed and tacrolimus-treated recipients were insulin independent posttransplant, but rejected their islet allografts in 8 days. Engraftment and insulin independence were achieved in seven of seven baboon recipients of anti-CD154 induction therapy administered on days -1, 3, and 10 relative to the islet transplant. Three of three baboons treated with 20 mg/kg anti-CD154 induction therapy experienced delayed rejection episodes, first detected by elevations in postprandial blood glucose levels, on postoperative day (POD) 31 for one and on POD 58 for the other two. Re-treatment with three doses of anti-CD154 resulted in reversal of rejection in all three animals and in a return to normoglycemia and insulin independence in two of three baboons. It was possible to reverse multiple episodes of rejection with this approach. A loss of functional islet mass, as detected by reduced first-phase insulin release in response to intravenous glucose tolerance testing, was observed after each episode of rejection. One of two baboons treated with 10 mg/kg induction therapy became insulin independent post-transplant but rejected the islet graft on POD 10; the other animal experienced a reversible rejection episode on POD 58 and remained insulin independent and normoglycemic until POD 264. Two additional baboon recipients of allogeneic islets and donor bone marrow (infused on PODs 5 and 11) were treated with induction therapy (PODs -1, 3, 10), followed by initiation of monthly maintenance therapy (for a period of 6 months) on POD 28. Rejection-free graft survival and insulin independence was maintained for 114 and 238 days, with preservation of functional islet mass observed in the absence of rejection. Prevention and reversal of rejection, in the absence of the deleterious effects associated with the use of conventional immunosuppressive drugs, make anti-CD154 a unique agent for further study in islet cell transplantation.

An electronic case manager for diabetes control.

OBJECTIVE: To evaluate the usage and safety of an electronic case manager (ECM) system designed to facilitate the task of glycemic control. Sustained improvement in blood glucose control is the proven treatment outcome that will reduce or eliminate the long-term complications of diabetes. RESEARCH DESIGN AND METHODS: A customized microcomputer system served as the ECM. Located at the clinic, this voice-interactive system required the remote patient to need only a touch-tone telephone. Patients accessed the system to report daily self-measured glucose levels or hypoglycemic symptoms together with associated lifestyle events. System beta-testing was in an open-case series (n = 184) in an academic diabetes center with the goal of evaluating the ECM in terms of utilization, frequency of crises, and fiscal matters. RESULTS: Of the patients, 58% (n = 107) actively used the ECM for their daily diabetes care, accumulating 788 patient-months of follow-up. Over 45,000 telephone calls were received by the ECM during the start-up year. Each call was processed instantly and automatically. Patients benefited from having 24-h access to the ECM. Prevalence of diabetes-related crises (hyperglycemia > 400 mg/dl [22 mmol/l] or hypoglycemia < 50 mg/dl [2.8 mmol/l]) decreased approximately threefold (P < 0.05), with a concomitant statistically significant decrease in HbA1c of 0.8% at 6 months (n = 45, P = 0.024) and 0.9% at 12 months (n = 30, P = 0.044). The ECM provided 24-h on-line assistance in adjusting daily insulin and/or tablet therapy, automatic generation of standardized medical reports, electronic medical-legal documentation, as well as a marked reduction in the time spent on the phone with patients. Clinic visits in managing complex diabetes were reduced approximately twofold (P < 0.0001), and the effort spent by case managers was estimated. CONCLUSIONS: Patients with diabetes who accessed the ECM system received timely, cost-effective, and reliable medical intervention. This reduced the incidence of diabetic crises and the need for frequent clinic visits. The ECM empowers case managers to provide safer and superior diabetes care.

Long-term function (6 years) of islet allografts in type 1 diabetes.

Eight type 1 diabetic patients, ages 29-41 years, with mean diabetes duration of 23 years (range 18-29 years) received islet transplants from 1 to 5 donors. Seven patients had stable kidney allografts 1-11 years before the islet transplant, and one patient had a simultaneous islet-kidney allograft. Patients' blood glucose control was poor as reflected by the mean +/- SD HbA1c of 9.1 +/- 1.7% before transplant. Of the first three patients, two (1 and 3) achieved insulin independence for 36 and 38 days, respectively. Two recipients rejected their islet grafts within 1 month (2 and 8) and therefore were excluded from analysis. The HbA1c and insulin requirement of the six remaining patients who had persistent islet function for more than 60 days was significantly reduced from 9.3 +/- 1.9 to 6.4 +/- 1.0% (P = 0.002) and from 0.75 +/- 0.15 to 0.35 +/- 0.12 U x kg(-1) x day(-1) (P < 0.001), respectively. The two patients with the longest graft survival (4 and 6) achieved a normalization or near-normalization of their HbA1c levels during 6 years in the absence of severe episodes of hypoglycemia. As demonstrated by a decline in C-peptide response during Sustacal challenge tests over a 6-year period, there was a diminution of islet allograft function over time, despite persistence of normal or near normal HbA1c. We concluded that transplantation of allogeneic islets with an islet mass comparable with whole or segmental pancreas transplants in type 1 diabetic patients can result in long-term islet allograft function; further, we concluded that, in conjunction with small dosages of exogenous insulin, a functioning islet allograft can result in near-normalization of blood glucose levels and significant improvement in HbA1c. The occurrence of severe hypoglycemic episodes observed for patients in the Diabetes Control and Complications Trial was not observed in recipients with functioning islet transplants, despite the continuous need for exogenous insulin therapy to sustain normal HbA1c over the 6-year follow-up. The significant improvement in metabolic control observed for the patients described in this study, and the potential to significantly decrease or halt the progression of diabetic complications, support the continued application of islet allotransplantation as a treatment modality for type 1 diabetic patients.

Human islet allografts in patients with type 2 diabetes undergoing liver transplantation.

BACKGROUND: Most patients with cirrhosis have insulin resistance and impaired glucose tolerance, and 20% eventually develop diabetes. Although diabetes in this setting may be reversible after orthotopic liver transplantation (OLTx), immunosuppressive agents administered after transplantation could exacerbate this disease. We report the results of the first pilot trial of islet cell transplantation (ICTx) in patients with diabetes undergoing OLTx. METHODS: Five patients with diabetes and liver cirrhosis underwent OLTx and ICTx. Donor bone marrow cells were also infused to enhance the acceptance of the graft. We identified seven patients who received only OLTx and donor bone marrow cells as historical controls. RESULTS: Preliminary results suggest that ICTx in conjunction with OLTx may improve glucose metabolism (insulin requirement, hemoglobin A1c) in patients with liver cirrhosis. However, there was virtually no change in pre- and posttransplant basal C-peptide levels in the recipients of OLTx + ICTx. CONCLUSIONS: We are planning to further evaluate the effect of OLTx with or without ICTx in a randomized prospective trial, using euglycemic insulin clamp studies.

Expression of a specific subset of CD44 variant transcripts in NOD pancreatic islets.

Adhesion of lymphocytes to the endothelial venules inside the islets of Langerhans seems to initiate the infiltration of islets in NOD mice. An overexpression of the lymphocyte surface molecule CD44 in infiltrated NOD islets compared with peripheral blood lymphocytes was recently reported. The CD44 protein family includes a variety of molecules generated by alternative RNA splicing from 10 variant exons (v1-v10). By using reverse transcriptase-polymerase chain reaction followed by Southern blotting and hybridization to exon-specific cDNA probes, we investigated the expression of CD44 isoforms in highly purified islets of Langerhans from 4- and 10-week-old NOD mice. At least six CD44 isoforms were strongly overexpressed in NOD islets at 4 and 10 weeks when compared with age-matched BALB/c islets. Controls in different tissues indicate that these variants are specifically increased in the islets from the NOD strain. Islets from the NOD-scid/scid strain also expressed these variant exons. Splenocytes from BALB/c did not express CD44 isoforms, whereas splenocytes from 4-week-old NOD mice did express CD44 variants. Treatment with inflammatory mediators induced new isoforms; however, these transcripts have a different variant exon composition from that found in NOD mice islets. These results suggest that some isoforms are expressed very early in the development of insulitis by a component of the NOD islet itself and underscore a possible role of CD44 in islet infiltration.

The influence of donor specific vertebral body derived bone marrow cell infusion on canine islet allograft survival without irradiation conditioning of the recipient.

In recent studies in rodents, it was shown, that donor specific tolerance towards islet allografts without irradiation therapy of the recipient is induced by bone marrow cell infusion in combination with temporary immunosuppression. In the present study, the effect of donor specific bone marrow cell (DBMC) infusion at the time of intrahepatic islet allotransplantation without irradiation conditioning of the recipient was investigated in the canine model, paralleling ongoing clinical trials. It was observed, that unfractionated bone marrow cells given simultaneous to islet allografts led to higher frequencies of rejection periods and decreased islet allograft survival, when administered to recipients immunosuppressed with Cyclosporine A only. In contrast, an additional short inductive treatment of the recipient with an anti-dog-T-lymphocyte monoclonal antibody (5G2) abrogated the enhanced immunogenicity of the unfractionated bone marrow preparation, prolonging islet allograft survival with no rejection episodes observed during the immunosuppressive treatment with Cyclosporine. The composition of bone marrow cells might have contributed to the higher immunogenicity, since the percentage of MHC-class II antigen bearing cells is similar to man, but significantly higher than compared to rodents. It is therefore suggested, that further studies should encompass both timing of bone marrow cell infusion, appropriate immunosuppression and strategies to functionally inactivate mature MHC-class-II positive cells prior to DBMC infusion.

Improved functional survival of human islets of Langerhans in three-dimensional matrix culture.

The current study evaluates functional survival of human islets maintained in tissue culture for up to 4 wk in suspension media (CMRL-1066 with supplements) and contrasts these results with immobilizing three-dimensional matrices (agarose or alginate). The absolute number and volume of islets retrieved from agarose is significantly higher after two and four wk of culture compared to conventional free-floating media. In vitro function of islets, assessed by insulin/DNA content, insulin secretion into the culture media over 24 h and glucose-theophylline stimulated insulin release in a dynamic perifusion system, was not significantly different between free-floating and matrix preserved islets. In vivo islet function was evaluated by the effectiveness for reversal of insulin-dependent diabetes mellitus by transplantation of the islets under the kidney capsule of nude mice. Although adequate insulin responses to glucose were seen after culture in conventional or matrix media, only agarose embedded islets were consistently able to induce normoglycemia in diabetic recipients after 14 days of culture. Additional transplantation experiments defined the threshold level required to reverse diabetes to be between 1,000 and 1,500 agarose preserved islets. Our data suggest improved engraftment of human islets after agarose culture. This culture method may be of benefit for the accumulation of functionally competent human islets, thus facilitating the implementation of clinical protocols that utilize freshly isolated islets from multiple donors without the need for cryopreservation.

A minimally invasive technique for intrathymic cell transplantation in the dog.

As an alternative to drug immunosuppression, attempts at inducing donor-specific tolerance by intrathymic (IT) inoculations to transplant recipient of donor origin alloantigenic products has proven very promising. Using fiber optic thoracoscopy, a technique for the study of this phenomena was developed for the dog. We show an approach to the dog thymus using fiber optics for injection of bone marrow (BM) cells as the tolerogen. Bone marrow was retrieved from the donor beagles and purified using an automated Ficoll-Paque gradient technique. The purified cellular suspension was injected into the thymus through a small intercostal incision with the use of an injection needle port guided by the use of a rigid fiberoptic scope. To demonstrate engraftment, supravital staining with Fluorescein Diacetate of the BM cells was performed prior to inoculation. Immunofluorescence of cryostat sections obtained at necropsy confirmed the presence of viable BM cells up to several days after transplantation. Results of this study show that the thoracoscopic approach to the thymus can be safely and effectively used for IT inoculation studies in dogs.

Molecular cloning of the canine CD44 antigen cDNA.

Molecular cloning of the dog homologue of the human CD44 was achieved using RT/PCR. A 1055 bp cDNA has a deduced amino acid sequence of 351 residues, 338 of them correspond to the mature protein. Nine conserved cysteine residues were found. The extracellular region contains a single link superfamily domain on the N-terminal part and potential post-translational modification sites as: N- and O-linked glycosylation sites and chondroitin sulfate attachment sites. Three mRNAs of 2.2, 3.8 and 4.4 kb were identified on Northern blot analysis and Western blot hybridization revealed a 85-90 kDa protein expressed in lymph node tissue.