Nathaniel K. Chan

Bone marrow cell cotransplantation with islets improves their vascularization and function.

Background. To test the angiogenesis-promoting effects of bone marrow cells when cotransplanted with islets. Methods. Streptozotocin-induced diabetic BALB/c mice were transplanted syngeneically under the kidney capsule: (1) 200 islets, (2) 1 to 5×106 bone marrow cells, or (3) 200 islets and 1 to 5×106 bone marrow cells. All mice were evaluated for blood glucose, serum insulin, and glucose tolerance up to postoperative day (POD) 28, and a subset was monitored for 3 months after transplantation. Histologic assessment was performed at PODs 3, 7, 14, 28, and 84 for the detection of von Willebrand factor (vWF), vascular endothelial growth factor (VEGF), insulin, cluster of differentiation-34, and pancreatic duodenal homeobox-1 (PDX-1) protein. Results. Blood glucose was the lowest and serum insulin was the highest in the islet+bone marrow group at POD 7. Blood glucose was significantly lower in the islet+bone marrow group relative to the islet only group after 63 days of transplantation (P<0.05). Significantly more new periislet vessels were detected in the islet+bone marrow group compared with the islet group (P<0.05). Vascular endothelial growth factor staining was more prominent in bone marrow than in islets (P<0.05). Pancreatic duodenal homeobox-1-positive areas were identified in bone marrow cells with an increase in staining over time. However, there were no normoglycemic mice and no insulin-positive cells in the bone marrow alone group. Conclusions. Cotransplantation of bone marrow cells with islets is associated with enhanced islet graft vascularization and function.

MRI assessment of ischemic liver after intraportal islet transplantation.

Background. There is a recent focus on embolization of the portal vein by transplanted islets as a major cause of early graft loss. The resultant ischemia causes necrosis or apoptosis of cells within the liver. Thus, noninvasive assessment of the liver receiving the islet transplant is important to evaluate the status islet grafts. Methods. This study used noninvasive magnetic resonance imaging (MRI) for assessment of the posttransplant ischemic liver. Syngeneic islets in streprozotocin-induced diabetic mice were used. MRI and morphological liver assessments were performed at 0, 2, and 28 days after transplantation. Histologic assessment of insulin, hypoxia induced factor 1-&agr;, and apoptosis were undertaken at similar time points. Results. Ischemic/necrotic regions in the liver were detected by MRI at 2 days but not at 28 days after transplantation and were confirmed histologically. Liver injury was quantified from high intensity areas on T2-weighted images. Insulin release peaked 2 days after transplantation. Conclusion. Onset and reversal of liver ischemia due to intraportal islet transplantation are detectable using T2-weighted MRI. These changes coincide with periods of maximum insulin release likely due to partial islet destruction. We propose that MRI, as a noninvasive monitor of graft-related ischemia, may be useful in assessment of liver and islet engraftment after intraportal islet transplantation in a clinical setting.

In vivo imaging demonstrates a time-line for new vessel formation in islet transplantation

Abstract:  Vascularization of transplanted islets must be maintained to provide long‐term graft function. In vivo assessment of new vessel formation in islet grafts has been poorly documented. The purpose of this study was to investigate whether neovascularization was detectable in vivo in a Feridex‐labeled murine syngeneic subcapsular islet mass using DCE MRI over 180 days. Subcapsular transplants could be visualized at post‐transplant days three, seven, 14, and 28 using T2‐weighted MRI and at post‐transplant day 180 by immunohistochemistry. Injection of the contrast agent gadolinium (Gd)‐DTPA for DCE at three, seven, and 14 days showed increased signal in the transplant area consistent with new vessel formation. Areas under contrast enhancement curves suggested peak angiogenesis at 14 days. At 180 days, there was no observable change in signal intensity after contrast injection suggesting established vascularization or islet mass reduction. Immunohistochemistry confirmed MRI and DCE findings. These data suggest that islet angiogenesis occurs early after transplantation and is likely established after one month of transplantation. This study provides an in vivo time‐line of neovascularization in subcapsular islet grafts. We anticipate that contrast extravasation captured by MRI may provide useful monitoring of graft angiogenesis if reproduced in a clinically relevant intraportal model.

Hyperbaric oxygen therapy improves early posttransplant islet function

Sakata N, Chan NK, Ostrowski RP, Chrisler J, Hayes P, Kim S, Obenaus A, Zhang JH, Hathout E. Hyperbaric oxygen therapy improves early posttransplant islet function.

Efficacy comparison between intraportal and subcapsular islet transplants in a murine diabetic model.

BACKGROUND It is important to determine the efficacy of intraportal (IP) islet transplantation in comparison with other transplant sites. In this study, we sought to determine the optimal number of islets to achieve normoglycemia following transplantation into the liver versus the kidney using a mouse model. METHODS Streptozotocin-induced diabetic mice (Balb/C) were transplanted with syngeneic islets via the IP versus renal subcapsular (SC) routes. The transplanted islet numbers were 0 to 800 (n = 3-5). We assessed the correlation between parameters and islet numbers, comparing IP versus SC groups. The parameters were: (1) percentage of normoglycemia; (2) postoperative days to normoglycemia; (3) mean blood glucose levels at various points from pretransplantation to the end of the study (postoperative day 28); (4) mean serum insulin; and (5) area under the curve of blood glucose levels after glucose injection. RESULTS Two hundred islets yielded normoglycemia in renal subcapsular grafts, while 800 islets were the minimum required for normoglycemia with IP transplantation. The transplant efficacy in SC transplantation was 2 to 5 times greater than that of IP transplantation. The days to normoglycemia were significantly different between IP versus renal SC islets (13.25 +/- 4.38 days vs 4.50 +/- 0.81 days; P = .007). CONCLUSION The efficacy of islet transplantation in murine diabetic models was significantly greater under the kidney capsule. Clinical islet transplantation could benefit from trials of alternative transplant sites.

Factors affecting islet graft embolization in the liver of diabetic mice

Background: Embolic occlusion of the portal vein due to islet transplantation is one of the major reasons for reduced survival of transplanted islets. In this study, we examined the location of islets as well as the correlation between islet and portal vein size after intraportal islet transplantation, and evaluated liver and islet pathology. Methods: BALB/c mice were intraportally transplanted with 800 islets and the liver was examined at postoperative day (POD) 0 (n=7), POD 2 (n=4) and POD 28 (n=3). Liver specimens were stained for hematoxylin and eosin (necrosis), insulin, and TUNEL (apoptosis). We evaluated distance from liver surface to islets, islet and portal vein diameter, embolic ratio (islet diameter/portal vein diameter), apoptosis/necrosis of islets and apoptosis/necrosis of the liver tissue surrounding the islet. Results: The liver was divided into peripheral and central sites. Islet and liver apoptosis/necrosis were significantly higher at peripheral sites. In regions without liver apoptosis or necrosis, portal vein diameter was significantly larger and embolic ratios were significantly lower. Conclusion: Transplanted islets and liver tissue exhibited more injury at peripheral sites, in part, due to smaller diameters of portal venules that result in more frequent emboli following islet transplantation.

Monitoring neovascularization of intraportal islet grafts by dynamic contrast enhanced magnetic resonance imaging

Fifteen thousand youths are diagnosed yearly with type 1 diabetes mellitus. Pancreatic islet transplantation has been shown clinically to provide short-term (~1 year) insulin independence. However, challenges associated with early vascularization of transplanted islet grafts and long-term islet survival remain. We utilized dynamic contrast enhanced magnetic resonance imaging (DCE MRI) to monitor neovascularization of islets transplanted into the right lobe of the liver in a syngeneic mouse model system. The left lobe received no islets and served as a control. DCE data were analyzed for temporal dynamics of contrast (gadolinium) extravasation and the results were fit to a Tofts two-compartment exchange model. We observed maximal right lobe enhancement at seven days post-transplantation. Histological examination up to 28 days was used to confirm imaging results. DCE-derived enhancement strongly correlated with immunohistochemical measures of neovascularization. To our knowledge, these results are the first to demonstrate using a FDA approved contrast agent that DCE MRI can effectively and non-invasively monitor the progression of angiogenesis in intraportal islet grafts.

Partial hepatectomy improves the outcome of intraportal islet transplantation by promoting revascularization.

Revascularization of grafts is one of the important key factors for the success of islet transplantation. After partial hepatectomy, many growth factors such as hepatocyte growth factor and vascular endothelial growth factor are increased in the remnant liver. These growth factors have properties that promote angiogenesis. This might be an optimal environment for revascularization of islets transplanted intraportally. To verify this hypothesis, syngeneic islets (330 per recipient) were transplanted into the right hepatic lobes of streptozotocin-induced diabetic Balb/c mice with (hepatectomy group) or without (control group) left liver resection. Blood glucose was monitored for 28 d after transplantation. Glucose tolerance test was performed on post-operative day (POD) 30, and histological assessments were performed on POD 7 and 30 respectively. Analysis revealed that 36.7% of the control and 90.0% of the hepatectomy mice attained normoglycemia during the observation period (*p = 0.0142). Glucose tolerance was improved in the hepatectomy group (Area under the curve of intraperitoneal glucose tolerance tests on POD 30, Control; 47,700 ± 5,890 min*mg/dl, Hepatectomy; 26,000 ± 2,060 min*mg/dl: **p = 0.00314). Revascularization of grafted islets was more pronounced in the hepatectomy group (Vessel number per islet area on POD 7, Control; 3.20 ± 0.463 × 10−4/µm2, Hepatectomy; 7.08 ± 0.513 × 10−4/µm2: **p < 0.01). In the present study, partial hepatectomy (30%) improved the outcome of intraportal islet transplantation. Revascularization of islets transplanted into the liver may have been promoted by the induction of liver regeneration.

Nerve growth factor is associated with islet graft failure following intraportal transplantation

Nerve growth factor (NGF) has recently been recognized as an angiogenic factor with an important regulatory role in pancreatic β-cell function. We previously showed that treatment of pancreatic islets with NGF improved their quality and viability. Revascularization and survival of islets transplanted under the kidney capsule were improved by NGF. However, the usefulness of NGF in intraportal islet transplantation was not previously tested. To resolve this problem, we transplanted syngeneic islets (360 islet equivalents per recipient) cultured with or without NGF into the portal vein of streptozotocin-induced diabetic BALB/c mice. Analysis revealed that 44.4% (4/9) of control and 12.5% (1/8) of NGF-treated mice attained normoglycemia (≤ 200 mg/dL) (p = 0.195). NGF-treated islets led to worse graft function (area under the curve of intraperitoneal glucose tolerance tests (IPGTT) on post-operative day (POD) 30, control; 35,800 ± 3,960 min*mg/dl, NGF-treated; 47,900 ± 3,220 min*mg/dl: *p = 0.0348). NGF treatment of islets was also associated with increased graft failure [the percentage of TdT-mediated dUTP-biotin nick-end labeling (TUNEL)-positive and necrotic transplanted islets on POD 5, control; 23.8% (5/21), NGF-treated; 52.9% (9/17): p = 0.0650] following intraportal islet transplantation. Nonviable (TUNEL-positive and necrotic) islets in both groups expressed vascular endothelial growth factor (VEGF) and hypoxia-inducible factor-1α (HIF-1α). On the other hand, viable (TUNEL-negative and not necrotic) islets in both groups did not express VEGF and HIF-1α. In the present study, pre-transplant NGF treatment was associated with impaired survival and angiogenesis of intraportal islet grafts. The effect of NGF on islet transplantation may significantly vary according to the transplant site.

A pathway to insulin independence in newborns and infants with diabetes

Permanent neonatal diabetes was previously assumed to require insulin injection or infusion for life. Recently, permanent neonatal diabetes resulting from mutations in the two protein subunits of the adenosine triphosphate-sensitive potassium channel (Kir6.2 and SUR1) has proven to be successfully treatable with high doses of sulfonylureas rather than insulin. Many patients with these mutations first develop hyperglycemia in the nursery or intensive care unit. The awareness of the neonatolgist of this entity can have dramatic effects on the long-term care and quality of life of these patients and their families. In this study, we present the experience of our center, highlighting aspects relevant to neonatal diagnosis and treatment.