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Determination of EPAC2 function using EPAC2 null Min6 sublines generated through CRISPR-Cas9 technology.

Haiyan Xu1, Yi Yang1, Yiping Chen1

  • 1Department of Early Discovery Pharmacology, Cellular Pharmacology, Merck & Co., Inc., 33 Ave. Louis Pasteur, Boston, MA 02115, USA.

Molecular and Cellular Endocrinology
|February 7, 2018
PubMed
Summary
This summary is machine-generated.

Epac2 (Exchange protein directly activated by cyclic AMP 2) is crucial for insulin secretion. Complete EPAC2 knockout in Min6 cells unexpectedly increased basal insulin but impaired glucose- and sulfonylurea-stimulated secretion, revealing novel regulatory roles.

Keywords:
CRISPR-Cas9DiabetesEPAC2Insulin secretionMin6Sulfonylureaβ cells

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Area of Science:

  • Endocrinology
  • Cell Biology
  • Molecular Biology

Background:

  • Min6 cells are a key in vitro model for studying insulin secretion.
  • Epac2 (Exchange protein directly activated by cyclic AMP 2) is implicated in pharmacologic stimuli-induced insulin secretion and is a potential sulfonylurea target.
  • Previous studies focused only on EPAC2 isoform A, leaving other isoforms unexamined.

Purpose of the Study:

  • To investigate the function of EPAC2 in Min6 cells by generating EPAC2 knockout sublines.
  • To elucidate the role of all three EPAC2 isoforms in insulin secretion regulation.

Main Methods:

  • CRISPR-Cas9 technology was used to generate EPAC2 knockout Min6 cell lines.
  • Single-cell cloning, electroporation with guide RNA, Cas9, and GFP, followed by GFP sorting, was employed.
  • Sequencing confirmed single nucleotide deletions causing frameshifts in EPAC2 exon 13.

Main Results:

  • EPAC2 null clones exhibited increased basal insulin secretion and elevated intracellular insulin content.
  • Glucose- and sulfonylurea-induced insulin secretion were impaired in EPAC2 deficient cells.
  • Potassium chloride-induced insulin secretion and sulfonylurea binding remained unaffected; cAMP levels were unchanged.

Conclusions:

  • EPAC2 plays a complex role in insulin secretion, beyond its function as a cAMP sensor.
  • EPAC2 deficiency impacts previously unrecognized genes, suggesting involvement in multiple regulatory pathways.
  • Complete EPAC2 knockout alters basal and stimulated insulin secretion in Min6 cells.