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Multiple Effects of Echinochrome A on Selected Ion Channels Implicated in Skin Physiology.

Sung Eun KimElina Da Sol ChungElena A VasilevaNatalia P MishchenkoSergey A FedoreyevValentin A StonikHyoung Kyu KimJoo Hyun NamSung Joon Kim
Published in: Marine drugs (2023)
Echinochrome A (Ech A), a naphthoquinoid pigment from sea urchins, is known to have anti-inflammatory and analgesic effects that have been suggested to be mediated by antioxidant activity and intracellular signaling modulation. In addition to these mechanisms, the ion channels in keratinocytes, immune cells, and nociceptive neurons may be the target for the pharmacological effects. Here, using the patch clamp technique, we investigated the effects of Ech A on the Ca 2+ -permeable TRPV3, TRPV1 and Orai1 channels and the two-pore domain K + (K2P) channels (TREK/TRAAK, TASK-1, and TRESK) overexpressed in HEK 293 cells. Ech A inhibited both the TRPV3 and Orai1 currents, with IC 50 levels of 2.1 and 2.4 μM, respectively. The capsaicin-activated TRPV1 current was slightly augmented by Ech A. Ech A alone did not change the amplitude of the TREK-2 current (I TREK2 ), but pretreatments with Ech A markedly facilitated I TREK2 activation by 2-APB, arachidonic acid (AA), and acidic extracellular pH (pH e ). Similar facilitation effects of Ech A on TREK-1 and TRAAK were observed when they were stimulated with 2-APB and AA, respectively. On the contrary, Ech A did not affect the TRESK and TASK-1 currents. Interestingly, the I TREK2 maximally activated by the combined application of 2-APB and Ech A was not inhibited by norfluoxetine but was still completely inhibited by ruthenium red. The selective loss of sensitivity to norfluoxetine suggested an altered molecular conformation of TREK-2 by Ech A. We conclude that the Ech A-induced inhibition of the Ca 2+ -permeable cation channels and the facilitation of the TREK/TRAAK K2P channels may underlie the analgesic and anti-inflammatory effects of Ech A.
Keyphrases
  • anti inflammatory
  • neuropathic pain
  • spinal cord injury
  • signaling pathway
  • cell proliferation
  • cell death
  • reactive oxygen species
  • cell cycle arrest