Abstract
Nereistoxin (NTX) is a marine toxin isolated from an annelid worm that lives along the coasts of Japan. Its insecticidal properties were discovered decades ago and this stimulated the development of a variety of insecticides such as Cartap that are readily transformed into NTX. One unusual feature of NTX is that it is a small cyclic molecule that contains a disulfide bond. In spite of its size, it acts as an antagonist at insect and mammalian nicotinic acetylcholine receptors (nAChRs). The functional importance of the disulfide bond was assessed by determining the effects of inserting a methylene group between the two sulfur atoms, creating dimethylaminodithiane (DMA-DT). We also assessed the effect of methylating the NTX and DMA-DT dimethylamino groups on binding to three vertebrate nAChRs. Radioligand receptor binding experiments were carried out using washed membranes from rat brain and fish (Torpedo) electric organ; [3H]-cytisine displacement was used to assess binding to the predominantly high affinity alpha4beta2 nAChRs and [125I]-alpha-bungarotoxin displacement was used to measure binding of NTX and analogs to the alpha7 and skeletal muscle type nAChRs. While the two quaternary nitrogen analogs, relative to their respective tertiary amines, displayed lower α4β2 nAChR binding affinities, both displayed much higher affinities for the Torpedo muscle nAChR and rat alpha7 brain receptors than their respective tertiary amine forms. The binding affinities of DMA-DT for the three nAChRs were lower than those of NTX and MeNTX. An AChBP mutant lacking the C loop disulfide bond that would potentially react with the NTX disulfide bond displayed an NTX affinity very similar to the parent AChBP. Inhibition of [3H]-epibatidine binding to the AChBPs was not affected by exposure to NTX or MeNTX for up to 24 hr prior to addition of the radioligand. Thus, the disulfide bond of NTX is not required to react with the vicinal disulfide in the AChBP C loop for inhibition of [3H]-epibatidine binding. However, a reversible disulfide interchange reaction of NTX with nAChRs might still occur, especially under reducing conditions. Labeled MeNTX, because it can be readily prepared with high specific radioactivity and possesses relatively high affinity for the nAChR-rich Torpedo nAChR, would be a useful probe to detect and identify any nereistoxin adducts.
Highlights
Over 80 years ago, a neurotoxin was isolated from a large (~40 cm) annelid worm (Lu1m. bIrnitcroondeurecitsiohneteropoda) that occurs along the coasts of Japan
MeNTX had an approximately 20-fold greater affinity for this muscle receptor relative to NTX. This was the greatest increase in binding affinity observed in our analysis of the three different nicotinic acetylcholine receptors (nAChRs)
Delpech et al [13] found that increasing NTX concentrations progressively reduced the peak responses of their chimeric chicken-insect nAChRs, even at high ACh concentrations
Summary
Over 80 years ago, a neurotoxin was isolated from a large (~40 cm) annelid worm (Lu1m. bIrnitcroondeurecitsiohneteropoda) that occurs along the coasts of Japan. BIrnitcroondeurecitsiohneteropoda) that occurs along the coasts of Japan The discovery of this toxin resultedOfvroerm80uyseeaorfs tahgeo,waonremuraostoaxifnishwabsaiist.oIlattwedasfrnomotiaceladrgbey(f~i4sh0ecrmm)aannnthelaidt fwlieosrmeating the(dLueamdbrwicoonremresiswheoteuroldpoodaft)etnhabteoccocmures aplaornaglythzeedcoanstds odfieJa.pFainsh. C-loop of the nAChR α subunit that is part of the ACh binding site [6,7,8]. In addition to investigating N-methylnereistoxin (MeNTX) to assess the. 3 of 11 33 ooff 1111 importance of ionization and increased bulkiness of the amino group, we investigated tiamnpceorotfaitnowcneoizoNaftiTiooXnnizaaanntadioloinngacsnr(ed5a-isdneicdmrebeautshlekydilnabemuslsiknoionf-e1ths,3se-odafmithinieaoanmgeri(onDuoMpg,rAwo-ueDpaT,l)wsoaeniandlvs5eos-itnrigivmaetseettdihgytawltaeomd ino-1,3NtwToX NanTadXloitgahsnia(5nlo-edgi(smTM(e5t-Ahdy-iDmlaTmet)ih)nwyol-ha1mi,c3hi-ndhoita-h1vi,ea3n-ademi(tDheitMahnyAele-D(nDeTMg) raAonu-dDp5Ti-n)trsaiemnrdteetdh5y-btlreaitmmwieenteohn-y1tl,ah3m-edtiiwnthooi-a1Nn,3eT-X sulfur (dTiMthAia-nDeaT(t)To)MmwsAha-icDnhdTh)t)hawevreheiafcohmrehelatahvcyeklaethnmeeedgthirsoyuullepfnidienegsbreorutnedpdi(bnFesigetwurtreeeden2b).tehTtwehteweynowtNhereTetXwussoeudNlfutTorXaastusoelmfsussrwhether aantodmthsearntehdfeotrphereelrasecefkonrcteehleoafcdktihsteuhlpefioddtieesnubtloifanidldley(brFeoiagncudtirv(eFe2igd).uisrTuehl2fei)dy. 22..11..EEffffeeccttssooffNFNiTTrXsXt,ootnhneαα4b4βiβn22dNNineeguurproornnoaaplleRRreteciceeepsptotoofrrsNs TX and its analogs with rat brain α4β2 nAChRs were. INgTheXrathnadnMtheeNITCX50inohf inbiictoetdinAeCaht tahcistivreacteiopntoor,f uhsuinmgan thαe4sβa2mneAeCxpheRrsimexepnrtaelssceodndinitaiocnusl.tuNrTedX caenldl lMineeN(FTigXuirneh4i)b.ited ACh activation of human α4β2 nAChRs expressed in a cultured cell line (Figure 4).
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