Maiko Yokota scite author profile

The insecticide imidacloprid and structurally related neonicotinoids act selectively on insect nicotinic acetylcholine receptors (nAChRs). To investigate the mechanism of neonicotinoid selectivity, we have examined the effects of mutations to basic amino acid residues in loop D of the nAChR acetylcholine (ACh) binding site on the interactions with imidacloprid. The receptors investigated are the recombinant chicken ␣4␤2 nAChR and Drosophila melanogaster D␣2/chicken ␤2 hybrid nAChR expressed in Xenopus laevis oocytes. Although mutations of Thr77 in loop D of the ␤2 subunit resulted in a barely detectable effect on the imidacloprid concentration-response curve for the ␣4␤2 nAChR, T77R;E79V double mutations shifted the curve dramatically to higher affinity binding of imidacloprid. Likewise, T77K;E79R and T77N;E79R double mutations in the D␣2␤2 nAChR also resulted in a shift to a higher affinity for imidacloprid, which exceeded that observed for a single mutation of Thr77 to basic residues. By contrast, these double mutations scarcely influenced the ACh concentration-response curve, suggesting selective interactions with imidacloprid of the newly introduced basic residues. Computational, homology models of the agonist binding domain of the wild-type and mutant ␣4␤2 and D␣2␤2 nAChRs with imidacloprid bound were generated based on the crystal structures of acetylcholine binding proteins of Lymnaea stagnalis and Aplysia californica. The models indicate that the nitro group of imidacloprid interacts directly with the introduced basic residues at position 77, whereas those at position 79 either prevent or permit such interactions depending on their electrostatic properties, thereby explaining the observed functional changes resulting from site-directed mutagenesis.

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Splice-Variant- and Stage-Specific RNA Editing of theDrosophilaGABA Receptor Modulates Agonist Potency

Jones¹,

Buckingham²,

Papadaki³

et al. 2009

J. Neurosci.

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The molecular diversity of many gene products functioning in the nervous system is enhanced by alternative splicing and adenosine-toinosine editing of pre-mRNA. Using RDL, a Drosophila melanogaster GABA-gated ion channel, we examined the functional impact of RNA editing at several sites along with alternative splicing of more than one exon. We show that alternative splicing and RNA editing have a combined influence on the potency of the neurotransmitter GABA, and the editing isoforms detected in vivo span the entire functional range of potencies seen for all possible edit variants expressed in Xenopus laevis oocytes. The extent of RNA editing is developmentally regulated and can also be linked to the choice of alternative exons. These results provide insights into how the rich diversity of signaling necessary for complex brain function can be achieved by relatively few genes.

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Roles of loop C and the loop B–C interval of the nicotinic receptor α subunit in its selective interactions with imidacloprid in insects

Shimomura

Yokota

Matsuda

et al. 2004

Neuroscience Letters

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Insect-vertebrate chimeric nicotinic acetylcholine receptors identify a region, loop B to the N-terminus of the Drosophila Dα2 subunit, which contributes to neonicotinoid sensitivity

Shimomura

Satoh

Yokota

et al. 2005

Neuroscience Letters

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Combinatorial mutations in loops D and F strongly influence responses of the α7 nicotinic acetylcholine receptor to imidacloprid

et al. 2003

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Maiko Yokota

Role in the Selectivity of Neonicotinoids of Insect-Specific Basic Residues in Loop D of the Nicotinic Acetylcholine Receptor Agonist Binding Site

Splice-Variant- and Stage-Specific RNA Editing of theDrosophilaGABA Receptor Modulates Agonist Potency

Roles of loop C and the loop B–C interval of the nicotinic receptor α subunit in its selective interactions with imidacloprid in insects

Insect-vertebrate chimeric nicotinic acetylcholine receptors identify a region, loop B to the N-terminus of the Drosophila Dα2 subunit, which contributes to neonicotinoid sensitivity

Combinatorial mutations in loops D and F strongly influence responses of the α7 nicotinic acetylcholine receptor to imidacloprid

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