Molecules (May 2022)

Epithelial Sodium Channel Inhibition by Amiloride Addressed with THz Spectroscopy and Molecular Modeling

  • Maria Mernea,
  • Roxana Ștefania Ulăreanu,
  • Dana Cucu,
  • Jasim Hafedh Al-Saedi,
  • Cristian-Emilian Pop,
  • Sergiu Fendrihan,
  • Giorgiana Diana Carmen Anghelescu,
  • Dan Florin Mihăilescu

DOI
https://doi.org/10.3390/molecules27103271
Journal volume & issue
Vol. 27, no. 10
p. 3271

Abstract

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THz spectroscopy is important for the study of ion channels because it directly addresses the low frequency collective motions relevant for their function. Here we used THz spectroscopy to investigate the inhibition of the epithelial sodium channel (ENaC) by its specific blocker, amiloride. Experiments were performed on A6 cells’ suspensions, which are cells overexpressing ENaC derived from Xenopus laevis kidney. THz spectra were investigated with or without amiloride. When ENaC was inhibited by amiloride, a substantial increase in THz absorption was noticed. Molecular modeling methods were used to explain the observed spectroscopic differences. THz spectra were simulated using the structural models of ENaC and ENaC—amiloride complexes built here. The agreement between the experiment and the simulations allowed us to validate the structural models and to describe the amiloride dynamics inside the channel pore. The amiloride binding site validated using THz spectroscopy agrees with previous mutagenesis studies. Altogether, our results show that THz spectroscopy can be successfully used to discriminate between native and inhibited ENaC channels and to characterize the dynamics of channels in the presence of their specific antagonist.

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