PLoS ONE (Jan 2011)

Altered insulin receptor signalling and β-cell cycle dynamics in type 2 diabetes mellitus.

  • Franco Folli,
  • Terumasa Okada,
  • Carla Perego,
  • Jenny Gunton,
  • Chong Wee Liew,
  • Masaru Akiyama,
  • Anna D'Amico,
  • Stefano La Rosa,
  • Claudia Placidi,
  • Roberto Lupi,
  • Piero Marchetti,
  • Giorgio Sesti,
  • Marc Hellerstein,
  • Lucia Perego,
  • Rohit N Kulkarni

DOI
https://doi.org/10.1371/journal.pone.0028050
Journal volume & issue
Vol. 6, no. 11
p. e28050

Abstract

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Insulin resistance, reduced β-cell mass, and hyperglucagonemia are consistent features in type 2 diabetes mellitus (T2DM). We used pancreas and islets from humans with T2DM to examine the regulation of insulin signaling and cell-cycle control of islet cells. We observed reduced β-cell mass and increased α-cell mass in the Type 2 diabetic pancreas. Confocal microscopy, real-time PCR and western blotting analyses revealed increased expression of PCNA and down-regulation of p27-Kip1 and altered expression of insulin receptors, insulin receptor substrate-2 and phosphorylated BAD. To investigate the mechanisms underlying these findings, we examined a mouse model of insulin resistance in β-cells--which also exhibits reduced β-cell mass, the β-cell-specific insulin receptor knockout (βIRKO). Freshly isolated islets and β-cell lines derived from βIRKO mice exhibited poor cell-cycle progression, nuclear restriction of FoxO1 and reduced expression of cell-cycle proteins favoring growth arrest. Re-expression of insulin receptors in βIRKO β-cells reversed the defects and promoted cell cycle progression and proliferation implying a role for insulin-signaling in β-cell growth. These data provide evidence that human β- and α-cells can enter the cell-cycle, but proliferation of β-cells in T2DM fails due to G1-to-S phase arrest secondary to defective insulin signaling. Activation of insulin signaling, FoxO1 and proteins in β-cell-cycle progression are attractive therapeutic targets to enhance β-cell regeneration in the treatment of T2DM.