期刊
JOURNAL OF CLINICAL ENDOCRINOLOGY & METABOLISM
卷 100, 期 10, 页码 3651-3659出版社
ENDOCRINE SOC
DOI: 10.1210/jc.2015-2632
关键词
-
资金
- National Institutes of Health [R01 DK093909, P30 DK036836]
- Juvenile Diabetes Research Foundation [1-2011-591]
- Diabetes Research and Wellness Foundation
Context: Human embryonic stem cells (hESCs) differentiated toward beta-cells and fetal human pancreatic islet cells resemble each other transcriptionally and are characterized by immaturity with a lack of glucose responsiveness, low levels of insulin content, and impaired proinsulin-to-insulin processing. However, their response to stimuli that promote functionality have not been compared. Objective: The objective of the study was to evaluate the effects of our previous strategies for functional maturation developed in rodents in these two human models of beta-cell immaturity and compare their responses. Design, Settings, Participants, and Interventions: In proof-of-principle experiments using either adenoviral-mediated overexpression of V-Maf avian musculoaponeurotic fibrosarcoma oncogene homolog A (MAFA) or the physiologically driven path via thyroid hormone (T-3) and human fetal islet-like cluster (ICC) functional maturity was evaluated. Then the effects of T-3 were evaluated upon the functional maturation of hESCs differentiated toward beta-cells. Main Outcome Measures: Functional maturation was evaluated by the following parameters: glucose responsiveness, insulin content, expression of the mature beta-cell transcription factor MAFA, and proinsulin-to-insulin processing. Results: ICCs responded positively to MAFA overexpression and T-3 treatment as assessed by two different maturation parameters: increased insulin secretion at 16.8 mM glucose and increased proinsulin-to-insulin processing. In hESCs differentiated toward beta-cells, T-3 enhanced MAFA expression, increased insulin content (probably mediated by the increased MAFA), and increased insulin secretion at 16.8 mM glucose. Conclusion: T-3 is a useful in vitro stimulus to promote human beta-cell maturation as shown in both human fetal ICCs and differentiated hESCs. The degree of maturation induced varied in the two models, possibly due to the different developmental status at the beginning of the study.
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