A point mutation in the ectodomain-transmembrane 2 interface eliminates the inhibitory effects of ethanol in P2X4 receptors

Maya Popova, Liana Asatryan, Olga Ostrovskaya, Letisha R. Wyatt, Kaixun Li, Ronald L. Alkana, Daryl L. Davies

Research output: Contribution to journalArticlepeer-review

13 Scopus citations


ATP-gated P2X4 receptors (P2X4R) are abundantly expressed in the CNS. However, little is known about the molecular targets for ethanol action in P2X4Rs. The current investigation tested the hypothesis that the ectodomain-transmembrane (TM) interface contains residues that are important for the action of ethanol in P2X4Rs. Wild type (WT) and mutant P2X4R were expressed in Xenopus oocytes. ATP concentration-response curves and ethanol (10-200 mM)-induced changes in ATP EC10-gated currents were determined using two-electrode voltage clamp (-70 mV). Alanine substitution at the ectodomain-TM1 interface (positions 50-61) resulted in minimal changes in ethanol response. On the other hand, alanine substitution at the ectodomain-TM2 interface (positions 321-337) identified two key residues (D331 and M336) that significantly reduced ethanol inhibition of ATP-gated currents without causing marked changes in ATP Imax, EC50, or Hill's slope. Other amino acid substitutions at positions 331 and 336 significantly altered or eliminated the modulatory effects of ethanol. Linear regression analyses revealed a significant relationship between hydropathy and polarity, but not molecular volume/molecular weight of the residues at these two positions. The results support the proposed hypothesis and represent an important step toward developing ethanol-insensitive receptors for investigating the role of P2X4Rs in mediating behavioral effects of ethanol.

Original languageEnglish (US)
Pages (from-to)307-317
Number of pages11
JournalJournal of neurochemistry
Issue number1
StatePublished - Jan 2010
Externally publishedYes


  • Alcohol
  • Ion channels
  • Purinergic P2X4 receptors
  • Sites of ethanol action
  • Two-electrode voltage clamp
  • Xenopus oocytes

ASJC Scopus subject areas

  • Biochemistry
  • Cellular and Molecular Neuroscience


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