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Adult Pig Islet Isolation
* These authors contributed equally
In This Article
Summary
This detailed protocol covers the methodological steps of adult pig islet isolation from the digestion phase via purification to the final functional assessment of the islets. This outline can be used as a guideline for adult pig islet isolation in research institutions.
Abstract
Type 1 diabetes mellitus (T1DM) is caused by autoimmune destruction of pancreatic β cells, which results in little or no insulin production. Islet transplantation plays an important role in the treatment of T1DM, with the improved glycometabolic control, the reduced progression of complications, the reduction of hypoglycemic episodes when compared with traditional insulin therapy. The results of phase III clinical trial also demonstrated the safety and efficacy of islet allotransplantation in T1DM. However, the shortage of pancreas donors limits its widespread use. Animals as a source of islets such as the pig offer an alternative choice. Because the architecture of the pig pancreas is different from the islets of mice or humans, the pig islet isolation procedure is still challenging. Since the translation of alternative porcine islet sources (xenogeneic) to the clinical setting for treating T1DM through cellular transplantation is of great importance, a cost-effective, standardized, and reproducible protocol for isolating porcine islets is urgently needed. This manuscript describes a simplified and cost-effective method to isolate and purify adult porcine islets based on the previous protocols that have successfully transplanted porcine islets to non-human primates. This will be a beginners guide without the use of specialized equipment such as a COBE 2991 Cell Processor.
Introduction
Type 1 diabetes mellitus (T1DM) is a serious disease in which autoimmune destruction of beta cells results in little or no insulin production1,2,3. A substantial group of patients with T1DM cannot stabilize glycemic lability with insulin therapy and experience life-threatening hypoglycemic episodes. Islet transplantation, when successful, can achieve so. Over 1,500 diabetic patients have undergone successful islet transplantation worldwide, showing lower risk yet long-term outcome success than pancreas transplantation4.
Protocol
All procedures involving animals are approved by the Institutional animal care and use committee of Shenzhen Second People's Hospital and following all national regulations. In this protocol, Duroc-Landrace-Yorkshire swine (~6-months of age) purchased from the market were used as pancreatic donors. The weight of the pancreas collected was 123.63 g ± 22.50 g. Personal protective equipment, including protective clothing, masks, gloves, and caps, is worn during the experiments.
Representative Results
The preparation of the biosafety cabinet is shown in Figure 1. Three independent operating spaces are set up. Biosafety cabinet #1 is set with kidney basins, surgical instruments, and beakers for pancreas trimming (Figure 1A). Biosafety cabinet #2 is set with a water bath, peristaltic pump, tube stand with the recirculating tube, and digestion chamber for islet digestion (Figure 1B). Biosafety cabinet #3 is set with disposable filte.......
Discussion
Islet xenotransplantation, using pigs as a source of islets, is a promising approach to overcome the shortage of human islets. Although the isolation of adult pig islets is challenging, several groups established protocols to successfully isolate islets consistently10,11. Regardless of the method, islet viability and functional properties are to be demonstrated to confirm the high quality of the products. This protocol is based on those published
Acknowledgements
We thank Professor David K. C. Cooper (Center for Transplantation Sciences, Massachusetts General Hospital) for helping us set up the whole xenotransplantation system. We thank Miss Xingling Hu (Shenzhen Second People's Hospital), Miss Xiaohe Tian (University of California, Berkeley), Mr. Bo Zhou (Boston University) for helpful discussion and suggestions. This work was supported by grants from the National Key R&D Program of China (2017YFC1103701, 2017YFC1103704), Special Funds for the Construction of High-Level Hospitals in Guangdong Province (2019), and Sanming Project of Medicine in Shenzhen (SZSM201812079).
....Materials
| Name | Company | Catalog Number | Comments |
| 0.22 µm 500 mL disposable filter | Corning | 431097 | |
| 1 L Plastic blue cap bottle | Celltrans | YKBH1 | |
| 10 mL, 25 mL disposable pipette | CORNING | 4488 | |
| 150 mm patri dish | BIOLGIX | 66-1515 | |
| 16 G angiocath | Hongda | 20193141874 | |
| Epidural catheter | Aoocn | No. 20163661148 | |
| 1x HBSS basic | GIBCO | C14175500BT | |
| 200 mL conical centrifuge bottle | Falcon | 352075 | |
| 50 mL centrifuge tube | NEST | 602052/430829 | |
| 500 mL Ricordi Chamber | Biorep | 600-MDUR-03 | |
| 500-micron mesh | Yikang | YKBE | |
| 6 well-plate | COSTAR | 3511 | |
| Anesthesia Machine | RWD | R620-S1 | |
| Anesthetics A: Lumianning (2.5–5 mg/kg) | Huamu, China | Animal Drugs GMP (2015) 070011777 | |
| Anesthetics B: Propofol (2–3 mg/kg) | Sigma Aldrich | S30930-100g | |
| Beaker (500 mL, 1000 mL) | Shuniu | SB500ml, SB1000ml | |
| Blood glucose meter | Sinocare | 2JJA0R05232 | |
| Blood glucose test strips | Sinocare | 41120 | |
| Calcein/PI cell viability assay kit | Beyotime | C2015M | |
| CMRL 1066 | Thermo Fisher scientific | 11530037 | |
| Collagenase V | Sigma Aldrich | C9263 | |
| CyQUANT cell proliferation assay kit | Molecular Probes | C7026 | |
| Digestive tract | Celltrans | YKBAO | |
| Disposable blood collection needle | FKE | 20153152149 | |
| Dithizone | Sigma Aldrich | D5130 | |
| Drapes | Xinwei | 20182640332 | |
| Flat chassis | Jinzhong | R0B010 | |
| Heparin Sodium | Chinawanbang | 99070 | |
| HEPES | GIBCO | 15630-080 | |
| Histopaque 1077 | Sigma Aldrich | 10771-100ml | 1077 Polysucrose solution |
| Histopaque 1083 | Sigma Aldrich | 10831-100ml | 1083 Polysucrose solution |
| Histopaque 1119 | Sigma Aldrich | 11191-100ml | 1119 Polysucrose solution |
| Infusion tube | BOON | 20163660440 | |
| Iodophor | LIRCON | Q/1400ALX002 | |
| Isoflurane | Rwdls | R510-22-16 | |
| No. 0-2 suture | Jinhuan | No. 20142650770 | |
| No. 22 surgical blade | Lianhui | 2011126 | |
| Penicillin/streptomycin | GIBCO | 15140-122 | |
| Peristaltic pump | LongerPump | BT300-2J | |
| Pig serum | Kangyuan | 20210601 | |
| RPMI-1640 Medium | GIBCO | C1875500BT | |
| Sampling syringe | Yikang | YKBB0 | |
| Scalpel | Jinzhong | J11030 | |
| Silicon nitride beads | Celltrans | YKBI0 | |
| Straight blood-vessel forceps | Jinzhong | J31120 | |
| Straight Sided Jar | Nalgene | 2118-0001 | |
| Tissue forceps | Jinzhong | J41010 | |
| Tissue scissors | Jinzhong | J21210 | |
| Toothed forceps | Jinzhong | JD1060 | |
| Towel forceps | Shinva | 154285 | |
| Vacutainer blood collection tube | Sanli | 20150049 | |
| Water bath | Yiheng | HWS-12 |
References
- Atkinson, M. A., Eisenbarth, G. S., Michels, A. W. Type 1 diabetes. Lancet. 383 (9911), 69-82 (2014).
- Smith, M. J., Simmons, K. M., Cambier, J. C. B cells in type 1 diabetes mellitus and diabetic kidney disease. Nature Reviews. Nephrology....
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