Development of a conditionally immortalized human pancreatic β cell line
Raphaël Scharfmann, … , Paul Czernichow, Philippe Ravassard
Raphaël Scharfmann, … , Paul Czernichow, Philippe Ravassard
Published March 25, 2014
Citation Information: J Clin Invest. 2014;124(5):2087-2098. https://doi.org/10.1172/JCI72674.
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Technical Advance Endocrinology

Development of a conditionally immortalized human pancreatic β cell line

Abstract

Diabetic patients exhibit a reduction in β cells, which secrete insulin to help regulate glucose homeostasis; however, little is known about the factors that regulate proliferation of these cells in human pancreas. Access to primary human β cells is limited and a challenge for both functional studies and drug discovery progress. We previously reported the generation of a human β cell line (EndoC-βH1) that was generated from human fetal pancreas by targeted oncogenesis followed by in vivo cell differentiation in mice. EndoC-βH1 cells display many functional properties of adult β cells, including expression of β cell markers and insulin secretion following glucose stimulation; however, unlike primary β cells, EndoC-βH1 cells continuously proliferate. Here, we devised a strategy to generate conditionally immortalized human β cell lines based on Cre-mediated excision of the immortalizing transgenes. The resulting cell line (EndoC-βH2) could be massively amplified in vitro. After expansion, transgenes were efficiently excised upon Cre expression, leading to an arrest of cell proliferation and pronounced enhancement of β cell–specific features such as insulin expression, content, and secretion. Our data indicate that excised EndoC-βH2 cells are highly representative of human β cells and should be a valuable tool for further analysis of human β cells.

Authors

Raphaël Scharfmann, Severine Pechberty, Yasmine Hazhouz, Manon von Bülow, Emilie Bricout-Neveu, Maud Grenier-Godard, Fanny Guez, Latif Rachdi, Matthias Lohmann, Paul Czernichow, Philippe Ravassard

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Figure 2

Excision of immortalizing transgenes blocks proliferation.

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Excision of immortalizing transgenes blocks proliferation. EndoC-βH2 cel...
EndoC-βH2 cells were transduced with either Cre- or GFP-expressing lentiviral vectors and analyzed 21 days later. (A) SV40 LT and hTERT expression were analyzed by RT-QPCR. Results are presented normalized to cyclophilin and relative to control nontransduced EndoC-βH2 cells. Results are shown as mean ± SD of 3 independent RNA preparations. The experiment was replicated 2 times. (B) Immunofluorescence analysis of SV40 LT (green) and insulin (red) in nonexcised cells (–CRE) and excised EndoC-βH2 cells (+CRE). Nuclei were stained with Hoechst 33342 fluorescent stain (blue). The settings of confocal images were used to obtain an unsaturated insulin signal for excised EndoC-βH2 cells. The same settings were used to generate the insulin image for nonexcised EndoC-βH2 cells. Scale bars: 50 μm. (C) Ki67 expression was analyzed by RT-QPCR. Results are presented normalized to cyclophilin and relative to control nontransduced EndoC-βH2 cells. Results are shown as mean ± SD of 3 independent RNA preparations. (D). BrdU incorporation by nonexcised and excised EndoC-βH2 cells following a 1-hour BrdU pulse. Results are presented as a mean percentage ± SD.