TCF7L2 Regulates Late Events in Insulin Secretion From Pancreatic Islet  -Cells

ABSTRACT Techniques for the monolayer culture of pancreatic islet cells from adult rats and the responsiveness of B cells are described. Whole pancreatic tissue was enzymatically dispersed and then cultured for 30 days in tissue culture medium 199 containing 5·5 mmol glucose/l, with or without 1 mmol 2-deoxyglucose/l. In the absence of 2-deoxyglucose, the responsiveness of B cells diminished to almost zero by day 15 and islets degenerated. In contrast, addition of 2-deoxyglucose to the medium resulted in a selective degeneration of fibroblasts, yielding monolayers that consisted mostly of islet cells. In this stationary system in which monolayers of islet cells were maintained in medium with 2-deoxyglucose, insulin secretion from B cells on days 15 and 30 increased in a dose-dependent fashion in response to increasing concentrations of glucose, leucine and 2-ketoisocaproate. Similarly, when exposed to 16·7 mmol glucose/l, perifused B cells showed a biphasic pattern of insulin secretion on day 15. Addition of 10 μmol forskolin/l and 200 nmol 12-O-tetradecanoyl phorbol13-acetate/l remarkably enhanced this response. Likewise, the response to 10 mmol leucine/l or 10 mmol 2-ketoisocaproate/l was biphasic. These results suggest that these monolayer cultures retain the functional properties of the adult rat pancreas, and may be useful not only as a model for the in-vitro study of B cell function, but also for implantation. J. Endocr. (1988) 118, 173–178

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Oncogenic transformation and the reductions of insulin secretion and proliferative calcium dependence during repeated passage of pancreatic islet cells in vitro

Cancer Letters ◽

10.1016/0304-3835(81)90126-9 ◽

1981 ◽

Vol 14 (2) ◽

pp. 159-168 ◽

Cited By ~ 2

Author(s):

J.F. Whitfield ◽

A.L. Boynton ◽

G.M. Healy ◽

A.M. Sun

Keyword(s):

Insulin Secretion ◽

Pancreatic Islet ◽

Islet Cells ◽

Pancreatic Islet Cells ◽

Oncogenic Transformation ◽

Calcium Dependence ◽

Repeated Passage

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CXC chemokine ligand 12α-mediated increase in insulin secretion and survival of mouse pancreatic islets in response to oxidative stress through modulation of calcium uptake

Archives of Biological Sciences ◽

10.2298/abs170711040v ◽

2018 ◽

Vol 70 (1) ◽

pp. 191-204 ◽

Cited By ~ 1

Author(s):

Melita Vidakovic ◽

Ernesto Caballero-Garrido ◽

Mirjana Mihailovic ◽

Jelena Arambasic-Jovanovic ◽

Marija Sinadinovic ◽

...

Keyword(s):

Oxidative Stress ◽

Hydrogen Peroxide ◽

Insulin Secretion ◽

Pancreatic Islet ◽

Islet Cells ◽

Diabetes Diagnosis ◽

Pancreatic Islet Cells ◽

Pancreatic Cell ◽

Cxcr4 Signaling

We examined whether CXCL12? improves insulin secretion by influencing the Ca2+ oscillation pattern and Ca2+ influx ([Ca2+]i), thereby enhancing the viability of pancreatic islet cells in oxidative stress. The islets of Langerhans were isolated from male OF1 mice and pretreated with 40 ng/mL of CXCL12? prior to exposure to 7.5 ?M hydrogen peroxide, which served to induce oxidative stress. Incubation of islets with CXCL12? induced pancreatic ?-cell proliferation and improved the ability of ?-cells to withstand oxidative stress. Consecutive treatments of isolated islets with hydrogen peroxide caused a decline in ?-cell functioning over time, while the CXCL12? pretreatment of islets exhibited a physiological response to high glucose that was comparable to control islets. The attenuated response of islets to a high D-glucose challenge was observed as a partial to complete abolishment of [Ca2+]i. Treatments with increasing concentrations of CXCL12? decreased the number of Ca2+ oscillations that lasted longer, thus pointing to an overall increase in [Ca2+]i, which was followed by increased insulin secretion. In addition, treatment of islets with CXCL12? enhanced the transcription rate for insulin and the CXCR4 gene, pointing to the importance of CXCL12/CXCR4 signaling in the regulation of Ca2+ intake and insulin secretion in pancreatic islet cells. We propose that a potential treatment with CXCL12? could help to remove preexisting glucotoxicity and associated temporary ?-cell stunning that might be present at the time of diabetes diagnosis in vivo.

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In Vivo ZIMIR Imaging of Mouse Pancreatic Islet Cells Shows Oscillatory Insulin Secretion

Frontiers in Endocrinology ◽

10.3389/fendo.2021.613964 ◽

2021 ◽

Vol 12 ◽

Cited By ~ 1

Author(s):

Shiuhwei Chen ◽

ZhiJiang Huang ◽

Harrison Kidd ◽

Min Kim ◽

Eul Hyun Suh ◽

...

Keyword(s):

Insulin Secretion ◽

Pancreatic Islet ◽

Islet Cells ◽

Cell Mass ◽

Beta Cell Mass ◽

Pancreatic Islet Cells ◽

Systemic Delivery ◽

Β Cells ◽

Spatiotemporal Resolution

Appropriate insulin secretion is essential for maintaining euglycemia, and impairment or loss of insulin release represents a causal event leading to diabetes. There have been extensive efforts of studying insulin secretion and its regulation using a variety of biological preparations, yet it remains challenging to monitor the dynamics of insulin secretion at the cellular level in the intact pancreas of living animals, where islet cells are supplied with physiological blood circulation and oxygenation, nerve innervation, and tissue support of surrounding exocrine cells. Herein we presented our pilot efforts of ZIMIR imaging in pancreatic islet cells in a living mouse. The imaging tracked insulin/Zn2+ release of individual islet β-cells in the intact pancreas with high spatiotemporal resolution, revealing a rhythmic secretion activity that appeared to be synchronized among islet β-cells. To facilitate probe delivery to islet cells, we also developed a chemogenetic approach by expressing the HaloTag protein on the cell surface. Finally, we demonstrated the application of a fluorescent granule zinc indicator, ZIGIR, as a selective and efficient islet cell marker in living animals through systemic delivery. We expect future optimization and integration of these approaches would enable longitudinal tracking of beta cell mass and function in vivo by optical imaging.

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