Encapsulation of Porcine Islets Permits Extended Culture Time and Insulin Independence in Spontaneously Diabetic BB Rats

Autor: Lawrence S. Gazda, Horatiu V. Vinerean, Melissa A. Laramore, Carolyn H. Diehl, Richard D. Hall, Albert L. Rubin, Barry H. Smith
Jazyk: angličtina
Rok vydání: 2007
Předmět:
Zdroj: Cell Transplantation, Vol 16 (2007)
Druh dokumentu: article
ISSN: 0963-6897
1555-3892
00000000
DOI: 10.3727/000000007783465028
Popis: The ability to culture porcine islets for extended times allows for both their functional assessment and the assurance of their microbiological safety prior to transplantation. We have previously shown that agarose-encapsulated porcine islets can be cultured for at least 24 weeks. In the current study, porcine islet agarose macrobeads cultured for up to 67 weeks were assessed for their ability to restore normoglycemia, respond to an intraperitoneal glucose challenge, maintain spontaneously diabetic BB rats free of insulin therapy for more than 6 months, and for their biocompatibility. Porcine islets were encapsulated in agarose macrobeads and subjected to weekly static perifusion assays for the assessment of insulin production. After in vitro culture for either 9, 40, or 67 weeks, 56–60 macrobeads were transplanted to each spontaneously diabetic BB rat. Transplanted rats were monitored daily for blood glucose levels. Glucose tolerance tests and assessments for porcine C-peptide were conducted at various intervals throughout the study. Normoglycemia (100–200 mg/dl) was initially restored in all islet transplanted rats. Moderate hyperglycemia (200–400 mg/dl) developed at around 30 days posttransplantation and continued throughout the study period of 201–202 days. Importantly, all rats that received encapsulated porcine islets continued to gain weight and were free of exogenous insulin therapy for the entire study. Porcine C-peptide (0.2–0.9 ng/ml) was detected in the serum of islet recipients throughout the study period. No differences were detected between recipient animals receiving islet macrobeads of various ages. These results demonstrate that the encapsulation of porcine islets in agarose macrobeads allows for extended culture periods and is an appropriate strategy for functional and microbiological assessment prior to clinical use.
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