AI Article Synopsis
- Cys loop receptors (CLRs) are ligand-gated channels that open when neurotransmitters bind, but new research reveals bacterial homologues that respond to pH changes, indicating they might have diverse functions.
- A study identified an anion-selective CLR from the annelid worm Alvinella pompejana that opens specifically at low pH, not in response to known neurotransmitters.
- Two versions of the CLR, one full-length and one truncated, function differently in response to pH and ivermectin, with the full-length version exhibiting notable rebound currents and significant modulation, highlighting its potential as a unique channel in terms of stability and function.
Article Abstract
Cys loop receptors (CLRs) are commonly known as ligand-gated channels that transiently open upon binding of neurotransmitters to modify the membrane potential. However, a class of cation-selective bacterial homologues of CLRs have been found to open upon a sudden pH drop, suggesting further ligands and more functions of the homologues in prokaryotes. Here we report an anion-selective CLR from the hydrothermal vent annelid worm Alvinella pompejana that opens at low pH. A. pompejana expressed sequence tag databases were explored by us, and two full-length CLR sequences were identified, synthesized, cloned, expressed in Xenopus oocytes, and studied by two-electrode voltage clamp. One channel, named Alv-a1-pHCl, yielded functional receptors and opened upon a sudden pH drop but not by other known agonists. Sequence comparison showed that both CLR proteins share conserved characteristics with eukaryotic CLRs, such as an N-terminal helix, a cysteine loop motif, and an intracellular loop intermediate in length between the long loops of other eukaryotic CLRs and those of prokaryotic CLRs. Both full-length Alv-a1-pHCl and a truncated form, termed tAlv-a1-pHCl, lacking 37 amino-terminal residues that precede the N-terminal helix, formed functional channels in oocytes. After pH activation, tAlv-a1-pHCl showed desensitization and was not modulated by ivermectin. In contrast, pH-activated, full-length Alv-a1-pHCl showed a marked rebound current and was modulated significantly by ivermectin. A thermostability assay indicated that purified tAlv-a1-pHCl expressed in Sf9 cells denatured at a higher temperature than the nicotinic acetylcholine receptor from Torpedo californica.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4031562 | PMC |
| http://dx.doi.org/10.1074/jbc.M113.525576 | DOI Listing |
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