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AMP-activated protein kinase (AMPK) is a ubiquitously expressed and highly conserved multisubstrate serine and threonine kinase. It is often referred to as an energy sensor of the cell, as cellular energy fluctuations lead to its activation. AMPK is a heterotrimeric protein complex consisting of one α-, β-, and γ-subunit. The α-subunit includes the kinase domain, while the β- and γ-subunits are regulatory in function. 

Nicolas O. Jørgensen, Rasmus Kjøbsted, Magnus R. Larsen, Jesper B. Birk, ... Jørgen F.P. Wojtaszewski

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Current Issue

Non-canonical NRF2 activation promotes a pro-diabetic shift in hepatic glucose metabolism

Pengfei Liu, Matthew Dodson, Hui Li, Cody J. Schmidlin, ... Donna D. Zhang

Objective

NRF2, a transcription factor that regulates cellular redox and metabolic homeostasis, plays a dual role in human disease. While it is well known that canonical intermittent NRF2 activation protects against diabetes-induced tissue damage, little is known regarding the effects of prolonged non-canonical NRF2 activation in diabetes. The goal of this study was to determine the role and mechanisms of prolonged NRF2 activation in arsenic diabetogenicity.

Methods

To test this, we utilized an integrated transcriptomic and metabolomic approach to assess diabetogenic changes in the livers of wild type, Nrf2−/−p62−/−, or Nrf2−/−p62−/− mice exposed to arsenic in the drinking water for 20 weeks.

Results

In contrast to canonical oxidative/electrophilic activation, prolonged non-canonical NRF2 activation via p62-mediated sequestration of KEAP1 increases carbohydrate flux through the polyol pathway, resulting in a pro-diabetic shift in glucose homeostasis. This p62- and NRF2-dependent increase in liver fructose metabolismand gluconeogenesis occurs through the upregulation of four novel NRF2 target genes, ketohexokinase (Khk), sorbitol dehydrogenase (Sord), triokinase/FMN cyclase (Tkfc), and hepatocyte nuclear factor 4 (Hnf4A).

Conclusion

We demonstrate that NRF2 and p62 are essential for arsenic-mediated insulin resistance and glucose intolerance, revealing a pro-diabetic role for prolonged NRF2 activation in arsenic diabetogenesis.

Non-canonical NRF2 activation promotes a pro-diabetic shift in hepatic glucose metabolism

Pengfei Liu, Matthew Dodson, Hui Li, Cody J. Schmidlin, ... Donna D. Zhang

Objective

NRF2, a transcription factor that regulates cellular redox and metabolic homeostasis, plays a dual role in human disease. While it is well known that canonical intermittent NRF2 activation protects against diabetes-induced tissue damage, little is known regarding the effects of prolonged non-canonical NRF2 activation in diabetes. The goal of this study was to determine the role and mechanisms of prolonged NRF2 activation in arsenic diabetogenicity.

Methods

To test this, we utilized an integrated transcriptomic and metabolomic approach to assess diabetogenic changes in the livers of wild type, Nrf2−/−p62−/−, or Nrf2−/−p62−/− mice exposed to arsenic in the drinking water for 20 weeks.

Results

In contrast to canonical oxidative/electrophilic activation, prolonged non-canonical NRF2 activation via p62-mediated sequestration of KEAP1 increases carbohydrate flux through the polyol pathway, resulting in a pro-diabetic shift in glucose homeostasis. This p62- and NRF2-dependent increase in liver fructose metabolismand gluconeogenesis occurs through the upregulation of four novel NRF2 target genes, ketohexokinase (Khk), sorbitol dehydrogenase (Sord), triokinase/FMN cyclase (Tkfc), and hepatocyte nuclear factor 4 (Hnf4A).

Conclusion

We demonstrate that NRF2 and p62 are essential for arsenic-mediated insulin resistance and glucose intolerance, revealing a pro-diabetic role for prolonged NRF2 activation in arsenic diabetogenesis.

2020 impact factor: 7.4

The 60 Second Metabolist

In this section authors briefly report on their work recently published in Molecular Metabolism.

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