A systematic analysis of the Drosophila genome data reveals the existence of pHCl, a novel member of ligand-gated ion channel subunits. pHCl shows nearly identical similarity to glutamate-, glycine-, and histamine-gated ion channels, does however not belong to any of these ion channel types. We identified three different sites, where splicing generates multiple transcripts of the pHCl mRNA. The pHCl is expressed in Drosophila embryo, larvae, pupae, and the adult fly. In embryos, in situ hybridization detected pHCl in the neural cord and the hindgut. Functional expression of the three different splice variants of pHCl in oocytes of Xenopus laevis and Sf9 cells induces a chloride current with a linear current-voltage relationship that is inhibited by extracellular protons and activated by avermectins in a pH-dependent manner. Further, currents through pHCl channels were induced by a raise in temperature. Our data give genetic and electrophysiological evidence that pHCl is a member of a new branch of ligand-gated ion channels in invertebrates with, however, a hitherto unique combination of pharmacological and biophysical properties.Ligand-gated ion channels (LGICs) 1 mediate the fast inhibitory and excitatory responses of neuronal and muscle cells to neurotransmitters. A universal feature of the type of "Cys-loop" class of LGIC is a common topology of four membrane-spanning segments (M1-M4) and a huge N-terminal extracellular domain with a hyperconservated cysteinebridge motive (1). In vertebrates this "Cys-bridge" family of phylogenetically related genes codes for cation channels activated by acetylcholine and serotonin or for anion channels activated by GABA and glycine (1). In addition, glutamateand serotonin-gated anion channel genes are known in invertebrates (2, 3). Recently, genes for histamine-gated chloride channels and GABA-gated cation channels were identified in invertebrates (4 -7). The molecular basis of further channel types like acetylcholine-gated chloride channels in invertebrates is, however, still unknown (8). Information from the Drosophila melanogaster genome sequencing project allows identifying all members of the superfamily of ligand-gated ion channels occurring in this species by bioinformatic analysis of new homologous genes. The summarized data obtained from several published bioinformatic analyses (5,6,9,10) show that the group of ligand-gated "chloride" channels consists of 12 genes that are coding for GABA, histamine, and glutamate receptors or new, homologous ion channel types. Four members of this group cannot be directly assigned to the GABA, glutamate, or histamine branches and thus code for putative new types of ligand-gated chloride channels with yet unknown function. In a systematic expression approach of these predicted novel types of ion channels in Xenopus oocytes, it was found that none of the typical neurotransmitters activated these novel types of channels (6). Therefore, we extended the molecular biological analysis of the mRNA and found that the gene CG6112 encodes fo...
PF1022A belongs to a new class of cyclodepsipeptides with broad anthelmintic activity. Here, we describe a novel target for PF1022A. Using PF1022A ligand immunoscreening of a cDNA library constructed from the parasitic nematode Haemonchus contortus, we identified a 3539 bp cDNA encoding a novel orphan heptahelical transmembrane 110 kDa‐receptor, termed HC110‐ R, similar to the mammalian G‐protein coupled receptor latrophilin. HC110‐R is localized at plasma membranes and in intracellular vesicles of HC110‐R‐transfected HEK‐293 cells. The ligand of latrophilin, a‐latrotoxin (LTX), binds to the extracellular N‐terminal region of HC110‐ R and induces influx of external Ca2+ through Cd2+‐ and nifedipine‐blockable Ca2+ channels. PF1022A also binds to the N‐terminus of HC110‐R and acts as an antagonist to LTX signaling in HC110‐R transfected HEK‐293 cells.
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