Diabetes affects 25.8 million individuals in the USA and at least 387 million individuals worldwide. Type 2 diabetes (T2D) accounts for more than 90% of diabetes cases. Metformin has been used to treat T2D since the 1950s, and now over 150 million people worldwide take this medication. In 2012, in guidelines for the treatment of T2D, the American Diabetes Association and the European Association for the Study of Diabetes jointly recommended metformin as the initial drug to prescribe to T2D. Yet how metformin acts remains only partially understood and controversial. We find that low metformin concentrations typically found in the portal vein suppress glucose production in primary hepatocytes through the activation of AMPK. However, it remains unclear which isoform of the AMPK? subunits is critical for the suppression of glucose production in hepatocytes by metformin, and metformin binding sites on AMPK subunits have not been characterized yet. Using liver-specific AMPK?1, AMPK?2, and combined AMPK?1/2 knockout mice and mutations of AMPK subunits, we will address these questions in Aim 1. Over one-third of diabetic patients exhibit various degrees of metformin resistance. We find that activation of the cAMP-PKA pathway, a hallmark of patients with diabetes mellitus, directly antagonizes AMPK activation by phosphorylating AMPK? at S485, which in turn reduces AMPK enzymatic activity. This could result in metformin resistance. We propose to study the mechanism leading to metformin resistance in Aim 2, which has important clinical implications for metformin usage in diabetic patients. Salicylate, a commonly used agent, is known to activate AMPK. We will test salicylate's effect on the improvement of metformin efficacy in the suppression of glucose production in Aim 3. We believe this work will provide new evidence for understanding the mechanism of metformin's action and new therapeutic guidelines for the use of metformin to treat T2D.

Public Health Relevance

Metformin is the most widely prescribed oral anti-diabetic agent for treatment of type 2 diabetes. However, 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. This proposal seeks to uncover the mechanism underlying the development of metformin resistance, and provides a target for therapeutic interventions in metabolic disorders.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK107641-05
Application #
9830051
Study Section
Cellular Aspects of Diabetes and Obesity Study Section (CADO)
Program Officer
Silva, Corinne M
Project Start
2015-12-01
Project End
2020-11-30
Budget Start
2019-12-01
Budget End
2020-11-30
Support Year
5
Fiscal Year
2020
Total Cost
Indirect Cost
Name
Johns Hopkins University
Department
Pediatrics
Type
Schools of Medicine
DUNS #
001910777
City
Baltimore
State
MD
Country
United States
Zip Code
21205
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