Madelene Palmgren scite author profile

Accumulating evidence suggests that dysregulated glycerol metabolism contributes to the pathophysiology of obesity and type 2 diabetes. Glycerol efflux from adipocytes is regulated by the aquaglyceroporin AQP7, which is translocated upon hormone stimulation. Here, we propose a molecular mechanism where the AQP7 mobility in adipocytes is dependent on perilipin 1 and protein kinase A. Biochemical analyses combined with ex vivo studies in human primary adipocytes, demonstrate that perilipin 1 binds to AQP7, and that catecholamine activated protein kinase A phosphorylates the N-terminus of AQP7, thereby reducing complex formation. Together, these findings are indicative of how glycerol release is controlled in adipocytes, and may pave the way for the future design of drugs against human metabolic pathologies.

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Quantification of the Intracellular Life Time of Water Molecules to Measure Transport Rates of Human Aquaglyceroporins

Palmgren

Hernebring

Eriksson

et al. 2017

J Membrane Biol

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Orthodox aquaporins are transmembrane channel proteins that facilitate rapid diffusion of water, while aquaglyceroporins facilitate the diffusion of small uncharged molecules such as glycerol and arsenic trioxide. Aquaglyceroporins play important roles in human physiology, in particular for glycerol metabolism and arsenic detoxification. We have developed a unique system applying the strain of the yeast Pichia pastoris, where the endogenous aquaporins/aquaglyceroporins have been removed and human aquaglyceroporins AQP3, AQP7, and AQP9 are recombinantly expressed enabling comparative permeability measurements between the expressed proteins. Using a newly established Nuclear Magnetic Resonance approach based on measurement of the intracellular life time of water, we propose that human aquaglyceroporins are poor facilitators of water and that the water transport efficiency is similar to that of passive diffusion across native cell membranes. This is distinctly different from glycerol and arsenic trioxide, where high glycerol transport efficiency was recorded.

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Yeast Aquaglyceroporins Use the Transmembrane Core to Restrict Glycerol Transport

Geijer

Ahmadpour

Palmgren

et al. 2012

Journal of Biological Chemistry

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Background: Aquaglyceroporins are transmembrane proteins that mediate flux of glycerol across cell membranes. Results: The termini and the transmembrane core of yeast aquaglyceroporin Fps1 interplay to modulate the transport activity. Conclusion: The pore properties of Fps1 are crucial for restricting channel activity. Significance: This opens up new dimensions on how the glycerol transport is regulated by aquaglyceroporins.

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The Gating Mechanism of Yeast Aquaporin Studied by Molecular Dynamics Simulations

Fischer

Kosinska-Eriksson

Aponte-Santamaría

et al. 2010

Biophysical Journal

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