Diabetes & Metabolism Journal

Original Articles

Repeated Gene Transfection Impairs the Engraftment of Transplanted Porcine Neonatal Pancreatic Cells: Min Koo Seo, Cheng-Lin Sun, Ji-Won Kim, Kun-Ho Yoon, Suk Kyeong Lee; Diabetes Metab J. 2011;35(1):72-79. Published online February 28, 2011; DOI: https://doi.org/10.4093/dmj.2011.35.1.72

31,522 View
29 Download
3 Crossref

Background

Previously, we reported that neonatal porcine pancreatic cells transfected with hepatocyte growth factor (HGF) gene in an Epstein-Barr virus (EBV)-based plasmid (pEBVHGF) showed improved proliferation and differentiation compared to those of the control. In this study, we examined if pancreatic cells transfected repeatedly with pEBVHGF can be successfully grafted to control blood glucose in a diabetes mouse model.

Methods

Neonatal porcine pancreatic cells were cultured as a monolayer and were transfected with pEBVHGF every other day for a total of three transfections. The transfected pancreatic cells were re-aggregated and transplanted into kidney capsules of diabetic nude mice or normal nude mice. Blood glucose level and body weight were measured every other day after transplantation. The engraftment of the transplanted cells and differentiation into beta cells were assessed using immunohistochemistry.

Results

Re-aggregation of the pancreatic cells before transplantation improved engraftment of the cells and facilitated neovascularization of the graft. Right before transplantation, pancreatic cells that were transfected with pEBVHGF and then re-aggregated showed ductal cell marker expression. However, ductal cells disappeared and the cells underwent fibrosis in a diabetes mouse model two to five weeks after transplantation; these mice also did not show controlled blood glucose levels. Furthermore, pancreatic cells transplanted into nude mice with normal blood glucose showed poor graft survival regardless of the type of transfected plasmid (pCEP4, pHGF, or pEBVHGF).

Conclusion

For clinical application of transfected neonatal porcine pancreatic cells, further studies are required to develop methods of overcoming the damage for the cells caused by repeated transfection and to re-aggregate them into islet-like structures.

Citations

Citations to this article as recorded by

Successful xenotransplantation with re‐aggregated and encapsulated neonatal pig liver cells for treatment of mice with acute liver failure
Dong‐Sik Ham, Min‐Sang Song, Heon‐Seok Park, Marie Rhee, Hae Kyung Yang, Seung‐Hwan Lee, Ji‐Won Kim, Eun‐Sun Jung, Kun‐Ho Yoon
Xenotransplantation.2015; 22(4): 249. CrossRef
Glycated Albumin Causes Pancreatic β-Cells Dysfunction Through Autophagy Dysfunction
Young Mi Song, Sun Ok Song, Young-Hye You, Kun-Ho Yoon, Eun Seok Kang, Bong Soo Cha, Hyun Chul Lee, Ji-Won Kim, Byung-Wan Lee
Endocrinology.2013; 154(8): 2626. CrossRef
Prevalence, Awareness, and Control of Hypertension among Diabetic Koreans
Hyun Hee Chung, Kyu Chang Won
Diabetes & Metabolism Journal.2011; 35(4): 337. CrossRef

The Effects of Dexamethasone on the Expansion and Transdifferentiation of Transplanted Porcine Neonatal Pancreas Cell Clusters into beta-cells in Normal Nude Mice.: Ji Hun Yang, Sun Hee Suh, Sung Yoon Jeon, Oak Kee Hong, Kun Ho Yoon; Korean Diabetes J. 2004;28(5):356-366. Published online October 1, 2004

1,598 View
29 Download

Abstract PDF: BACKGROUND
Several studies have suggested that glucocorticoid has an influence on the development and function of the -cells. Thus, we undertook this study to determine whether exposure to dexamethasone (Dx) has an influence on the expansion or transdifferentiation of transplanted porcine NPCCs. METHODS: After transplantation (Tx) of 4,000 islet equivalents (IEQs) of porcine NPCCs into normal nude mice, Dx (1mg/kg) or the control vehicle were injected daily for 10 weeks. To clarify the effects of timing and duration of the Dx, one group was treated by Dx at the first 2 weeks (n=10) and the other group was treated later 8 weeks (n=10) during the 10 weeks treatment period. Thr total graft and beta-cell masses were determined by morphometric analysis. We preformed semi-quantitative RT-PCR for evaluating the pancreas transcription factors. RESULTS: The relative volume and absolute mass of the beta-cells and the total graft were significantly decreased by 10 weeks Dx treatment. Moreover, Dx treatment at thr first 2 weeks (n=10) also significantly decreased the total graft mass and absolute mass of the beta-cells. The relative volume of the beta-cells was negatively correlated and the area of the duct cysts was positively correlated with the duration of the Dx treatment. Pancreas transcription factors including PDX1, Ngn 3, ISL1 and NKx6.1 were decreased in the graft by 2 days treatment of Dx. CONCLUSION: These results suggest that Dx treatment suppresses the expansion and transdifferentiation of transplanted pancreas precursor cells into beta-cell.

Development of Adult Porcine Islet Isolation Method for Xenotransplantation.: Sung Rae Kim, Kun Ho Yoon, Hyuk Sang Kwon, Sun Hee Suh, Seung Hyun Ko, Jung Min Lee, Soon Jib Yoo, Yoo Bae Ahn, Ki Ho Song, Hyun Shik Son, Moo Il Kang, Bong Yun Cha, Kwang Woo Lee, Ho Young Son, Sung Koo Kang; Korean Diabetes J. 2004;28(2):75-87. Published online April 1, 2004

1,911 View
32 Download

Abstract PDF: BACKGROUND
AND PURPOSE: Xenotransplantation using porcine islet cells might be an alternative to allotransplantation, which has been limited due to the lack of donors. Various researches using porcine islet cells have been performed in foreign countries; however, they have never been studies in Korea. Therefore, the purpose of this study was to explore the possibility of thise new treatment for cases of diabetes by establishing of improved islet isolation skill. METHODS: The pancreas and islets were extracted from pigs weighing around 100kg. To establish an islet isolation method, the islet yield, purity and the distribution size of the isolated islets were step wise compared in various ways, and then the superior method adopted. To determine the conveyance method after organ extraction, the conveyance method of pouring collagenase P was compared with the conveyance method of injecting Custidol. For digestion, the mechanical shaking and static incubation methods were also compared. To isolate islets from the digested pancreata, isolation methods were analyzed using 3 and 4 layers' Ficoll. The islet yield was appraised after their isolation using the optimized islet isolation method. To assess the results of the islet isolation, appraised the purity and the survival rates of cells, the insulin secretion resulting from the glucose stimulation test was examined. RESULTS: The method of injecting 4degrees C Custidol was effective for the conveyance and storage of the isolated pancreas in comparison with an injection of collagenase P(3465+/-1488 IEQ/g pancreas vs. 48+/-1.7 IEQ/g pancreas, p<0.01). The digestion method was superior to the mechanical shaking method at keeping a stable condition(3465+/-1488 IEQ/g pancreas vs. 1265+/-141.4 IEQ/g pancreas, p<0.01). Ficoll isolation using 3 layers gave the same results as using 4 layers. The average weights of the isolate Pancreatic islets was 23.8+/-3.3g. The numbers of islets per gram was 3465+/-1488.2(IEQ), with a the purity of 86.3+/-2.0%, and a survival rate of over 95%. The insulin secretion caused by glucose stimulation substantially increased in concentration from 24 to 72 hours(24hr: 5mM 3.12mU/mL --< 20mM 6.79mU/mL(2.17 fold), 72hr: 5mM 2.38mU/mL --< 9.93mU/mL(4.17fold))

3-Dimensional Long Term Culture of Monolayer Cultured Dispersed Neonatal Porcine Pancreas Cells (NPCC).: Sun Hee Suh, Kun Ho Yoon, Hyuk Sang Kwon, Ok Ki Hong, Jung Min Lee, Ki Ho Song, Soon Jib Yoo, Hyun Sik Son, Moo Il Kang, Bong Yun Cha, Kwang Woo Lee, Ho Young Son, Sung Koo Kang; Korean Diabetes J. 2002;26(5):383-395. Published online October 1, 2002

1,763 View
22 Download

Abstract PDF: BACKGROUND
We have reported porcine neonatal pancreas cell clusters (NPCCs) to be useful clinical alternative due to their growth potential and convenience. However, to apply the porcine NPCCs in human islet transplantation, there is a need to achieve in vitro maturation of porcine pancreas duct cells for the immediate cure of diabetes, and to escape hyperacute rejection. We have established a long-term 3D culture system of porcine pancreas duct cells for their in vitro induction in differentiated beta-cells. METHOD: For making NPCCs, pancreata from 1~3 days old pigs were minced, digested and cultured for 8 days. After 8 days, the cells were layered with Matrigel. After 50 days, the 3 dimensional cultures, the components of the reconstructed cell clusters were confirmed by three approaches: immunofluorescent staining, mea-surement of glucose stimulated insulin secretion and semiquantitative RT-PCR. RESULT: The monolayers of epithelial cells formed three-dimensional structures of cysts from which 50~200 micro meter diameter islet-like clusters of pancreas cells budded. The insulin and DNA contents, and the ratio of insulin/DNA, did not change significantly, even after 50 days of culturinge. The levels of insulin and galactosyl transferase mRNA showed a tendency to increase in the monolayer culture of the duct cells until day 8, after which the levels significantly decreased. However, the level of glucagon mRNA was maintained until day 50. Compared with their basal secretion at 5mM glucose, the cysts/cultivated porcine islet buds exposed to stimulatory 20mM glucose did not show difference in insulin secretion. CONCLUSION: We have shown the expansion of dispersed porcine neonatal pancreas cells in vitro, and the reconstruction of a three-dimensional structure, following Matrigel overlaying, but were unable to observe the transition of duct cells to beta cells, as observed in human duct cells. Further studies will be required to elucidate this difference.

Expression of Gal alpha1,3 Gal Antigen and Galactosyl Transferase mRNA in Porcine Neonatal Pancreatic Tissue.: Kyong Soo Park, Yoon Young Kim, Jeong Mi Kim, Yu Bae Ahn, Kun Ho Yoon, Bong Yun Cha, Ho Young Son, Hong Kyu Lee; Korean Diabetes J. 2000;24(3):323-330. Published online January 1, 2001

1,673 View
20 Download

Abstract PDF: BACKGROUND
Neonatal porcine pancreatic tissue may be a potential source of islet transplantation in patients with type 1 diabetes. Gal 1,3 Gal antigen (Gal epitope) is a xenoantigen which is responsible for hyperacute xenograft rejection. The aim of this study is to evaluate the expression of Gal epitope and galactosyl transferase mRNA in porcine neonatal pancreatic tissue. METHOD: Porcine neonatal pancreatic cell clusters (NPCCs) were isolated using collagenase and incubated in various culture condition. They were stained with Gal specific lectin for the detection of Gal epitope. Expression of 1,3 galactosyl transferase mRNA was assessed by semiquantitative RT-PCR. RESULTS: Gal epitope was expressed in both neonatal porcine pancreas and cell clusters. Most of Gal epitope expressed cells were endothelial cells and ductal epithelial cells. A small number of cells stained positive for insulin were also positive for Gal epitope. In some area of monolayer culture of porcine neonatal islet cluster, scattered insulin positive cells coexpressed the Gal epitope. The expression of 1,3 galactosyl transferase mRNA were lower in islet than other tissues. Culture using extracelluar matrix or 3D gel increased the expression of 1,3 galactosyl transferase mRNA levels. CONCLUSION: Gal epitope was expressed in ductal epithelial cells and some of beta cells of porcine neonatal pancreatic tissue. Expression of Gal epitope in porcine neonatal pancreatic cell cluster may be a problem that needs to be solved before porcine NPCCs can be used in human.

First
Prev
Page of 1
Next
Last

Search