TheK(v)1.3voltage-gatedpotassiumchannelregulatesmembranepotentialandcalciumsignalinginhumaneffectormemoryTcellsthatarekeymediatorsofautoimmunediseasessuchasmultiplesclerosis,type1diabetes,andrheumatoidarthritis.Thus,subtype-specificK(v)1.3blockershavepotentialfortreatmentofautoimmunediseases.SeveralK(v)1.3channelblockershavebeencharacterizedfromscorpionvenom,allofwhichhaveanα/βscaffoldstABIlizedby3-4intramoleculardisulfidebridges.Chemicalsynthesisiscommonlyusedforproducingthesedisulfide-richpeptidesbutthisapproachistimeconsumingandnotcosteffectiveforproductionofmutants,fusionproteins,fluorescentlytaggedtoxins,orisotopicallylabelledpeptidesforNMRstudies.RecombinantproductionofK(v)1.3blockersinthecytoplasmofE.coligenerallynecessitatesoxidativerefoldingofthepeptidesinordertoformtheirnativedisulfidearchitecture.AnalternativeapproachthatavoidstheneedforrefoldingisexpressionofpeptidesintheperiplasmofE.colibutthisoftenproduceslowyields.Thus,wedevelopedanefficientPichiapastorisexpressionsystemforproductionofK(v)1.3blockersusingmargatoxin(MgTx)andagitoxin-2(AgTx2)asprototypicexamples.ThePichiasystemenabledthesetoxinstobeobtainedinhighyield(12-18mg/L).NMRexperimentsrevealedthattherecombinanttoxinsadopttheirnativefoldwithouttheneedforrefolding,andelectrophysiologicalrecordingsdemonstratedthattheyarealmostequipotentwiththenativetoxinsinblockingK(V)1.3(IC(50)valuesof201±39pMand97±3pMforrecombinantAgTx2andMgTx,respectively).FurThermore,bothrecombinanttoxinsinhibitedT-lymphocyteproliferation.AMgTxmutantinwhichthekeypharmacophoreresidueK28wasmutatedtoalaninewasineffectiveatblockingK(V)1.3anditfailedtoinhibitT-lymphocyteproliferation.Thus,theapproachdescribedhereprovidesanefficientmethodofproducingtoxinmutantswithaviewtoengineeringK(v)1.3blockerswiththerapeuticpotential.

AnangiR., etal.(2012)RecombinantExpressionofMargatoxinandAgitoxin-2inPichiapastoris:AnEfficientMethodforproductionofKV1.3ChannelBlockers. PLoSONE.PMID:23300835

ThreenewtoxinsfromthevenomofthescorpionLeiurusquinquestriatusvar.hebraeushavebeenidentifiedonthebasisoftheirabilitytoblocktheShakerK+channel.ThesetoxinshavebeenpurifiedusingHPLCtechniquesandcharacterizedas38aminoacidpeptidesbymassspectroscopy,aminoacidanalysis,andsequencedetermination.Theirchemicalidentitywasconfirmedbyproducingfullyfunctionalsynthetictoxinsusingrecombinantmethods.ThesepeptidesarepotentinhibitorsoftheShakerK+channel(Kd<1nM)aswellasthemammalianhomologuesofShaker.TheyarerelatedtootherpreviouslydescribedK+channeltoxins,butformanewsubclasswithinthelargerfamilyofK+channelinhibitorsderivedfromscorpionvenom.Wehavenamedthesetoxinsagitoxin1,2,and3,respectively.

Garcia,M.L. etal.(1994)Purificationandcharacterizationofthreeinhibitorsofvoltage-dependentK+channelsfromLeiurusquinquestriatusvar.hebraeusvenom. Biochemistry.PMID:8204618