Abstract

Metformin is the most commonly prescribed oral anti-diabetic agent worldwide. Surprisingly, about 35% of diabetic patients either lack or have a delayed response to metformin treatment, and many patients become less responsive to metformin over time. It remains unknown how metformin resistance or insensitivity occurs. Recently, we found that therapeutic metformin concentrations suppressed glucose production in primary hepatocytes through AMPK; activation of the cAMP-PKA pathway negatively regulates AMPK activity by phosphorylating AMPKα subunit at Ser-485, which in turn reduces AMPK activity. In this study, we find that metformin failed to suppress glucose production in primary hepatocytes with constitutively activated PKA and did not improve hyperglycemia in mice with hyperglucagonemia. Expression of the AMPKα1(S485A) mutant, which is unable to be phosphorylated by PKA, increased both AMPKα activation and the suppression of glucose production in primary hepatocytes treated with metformin. Intriguingly, salicylate/aspirin prevents the phosphorylation of AMPKα at Ser-485, blocks cAMP-PKA negative regulation of AMPK, and improves metformin resistance. We propose that aspirin/salicylate may augment metformin's hepatic action to suppress glucose production.

Highlights

  • Metformin is the most commonly prescribed oral anti-diabetic agent worldwide

  • The cAMP-PKA Pathway Negatively Regulates AMPK Activation—Previously, we found that pretreatment of primary hepatocytes with metformin led to greater suppression of glucose production [10]

  • Our previous study showed that low metformin concentrations (Ͻ80 ␮M), found in the portal vein after therapeutic dosage, suppress hepatic glucose production through AMPK, as evidenced by the fact that low metformin concentrations are able to suppress glucose production in primary hepatocytes and that this metformin effect is lost in primary hepatocytes with AMPK␣1/2 depletion [10]

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Summary

Introduction

Metformin is the most commonly prescribed oral anti-diabetic agent worldwide. Surprisingly, about 35% of diabetic patients either lack or have a delayed response to metformin treatment, and many patients become less responsive to metformin over time. We found that therapeutic metformin concentrations suppressed glucose production in primary hepatocytes through AMPK; activation of the cAMP-PKA pathway negatively regulates AMPK activity by phosphorylating AMPK␣ subunit at Ser-485, which in turn reduces AMPK activity.

Results
Conclusion

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