Stichoposide C and Rhizochalin as Potential Aquaglyceroporin Modulators
Ji Woo Im, Ju Hyun Lim, Valentin A. Stonik, Jong-Young Kwak, Songwan Jin, Minkook Son, Hae-Rahn Bae

TL;DR
This study identifies two natural compounds that can modulate aquaglyceroporins, which are membrane proteins that transport glycerol and water, suggesting potential for new therapeutic applications.
Contribution
The study discovers stichoposide C and rhizochalin as novel modulators of aquaglyceroporins with potential for drug development.
Findings
Stichoposide C increased glycerol permeability in mouse erythrocyte membranes.
Rhizochalin decreased glycerol permeability at nanomolar concentrations.
The peracetyl aglycon of rhizochalin was the most potent inhibitor of glycerol transport among tested derivatives.
Abstract
Aquaporins (AQPs) are a family of integral membrane proteins that selectively transport water and glycerol across the cell membrane. Because AQPs are involved in a wide range of physiological functions and pathophysiological conditions, AQP-based therapeutics may have the broad potential for clinical utility, including for disorders of water and energy balance. However, AQP modulators have not yet been developed as suitable candidates for clinical applications. In this study, to identify potential modulators of AQPs, we screened 31 natural products by measuring the water and glycerol permeability of mouse erythrocyte membranes using a stopped-flow light scattering method. None of the tested natural compounds substantially affected the osmotic water permeability. However, several compounds considerably affected the glycerol permeability. Stichoposide C increased the glycerol permeability…
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Taxonomy
TopicsIon Transport and Channel Regulation · Sphingolipid Metabolism and Signaling · Neonatal Respiratory Health Research
