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Microchip-based engineering of super-pancreatic islets supported by adipose-derived stem cells

Authors
Jun, YeslKang, Ah RanLee, Jae SeoPark, Soon-JungLee, Dong YunMoon, Sung-HwanLee, Sang-Hoon
Issue Date
Jun-2014
Publisher
Elsevier Science Inc.
Keywords
Co-culture; Pancreatic islets; Adipose-derived stem cells (ADSCs); Concave microwell array; Type 1 diabetes mellitus (T1DM); Islet encapsulation
Citation
Biomaterials, v.35, no.17, pp 4815 - 4826
Pages
12
Indexed
SCI
SCIE
SCOPUS
Journal Title
Biomaterials
Volume
35
Number
17
Start Page
4815
End Page
4826
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/159835
DOI
10.1016/j.biomaterials.2014.02.045
ISSN
0142-9612
1878-5905
Abstract
Type 1 diabetes mellitus (T1DM) is a chronic disorder characterized by targeted autoimmune-mediated destruction of the beta cells of Langerhans within pancreatic islets. Currently, islet transplantation is the only curative therapy; however, donor shortages and cellular damage during the isolation process critically limit the use of this approach. Here, we describe a method for creating viable and functionally potent islets for successful transplantation by co-culturing single primary islet cells with adipose-derived stem cells (ADSCs) in concave microwells. We observed that the ADSCs segregated from the islet cells, eventually yielding purified islet spheroids in the three-dimensional environment. Thereafter, the ADSC-exposed islet spheroids showed significantly different ultrastructural morphologies, higher viability, and enhanced insulin secretion compared to mono-cultured islet spheroids. This suggests that ADSCs may have a significant potential to protect islet cells from damage during culture, and may be employed to improve islet cell survival and function prior to transplantation. In vivo experiments involving xeno-transplantation of microfiber-encapsulated spheroids into a mouse model of diabetes revealed that co-culture-transplanted mice maintained their blood glucose levels longer than mono-culture-transplanted mice, and required less islet mass to reverse diabetes. This method for culturing islet spheroids could potentially help overcome the cell shortages that have limited clinical applications and could possibly be developed into a bioartificial pancreas.
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