2023
The release of inhibition model reproduces kinetics and plasticity of neurotransmitter release in central synapses
Norman C, Krishnakumar S, Timofeeva Y, Volynski K. The release of inhibition model reproduces kinetics and plasticity of neurotransmitter release in central synapses. Communications Biology 2023, 6: 1091. PMID: 37891212, PMCID: PMC10611806, DOI: 10.1038/s42003-023-05445-2.Peer-Reviewed Original ResearchConceptsFusion clampSV exocytosisSynaptic vesiclesNeurotransmitter releaseSNARE complexSNARE proteinsSV fusionPhysiological timescalesSynaptotagmin-1Synergistic regulationMolecular biochemistryComplete assemblyPresynaptic proteinsSynaptotagmin-7Molecular architectureCalcium bindingExocytosisDual bindingProteinCentral synapsesBindingPlasticitySynaptotagminSnareVesiclesDirect determination of oligomeric organization of integral membrane proteins and lipids from intact customizable bilayer
Panda A, Giska F, Duncan A, Welch A, Brown C, McAllister R, Hariharan P, Goder J, Coleman J, Ramakrishnan S, Pincet F, Guan L, Krishnakumar S, Rothman J, Gupta K. Direct determination of oligomeric organization of integral membrane proteins and lipids from intact customizable bilayer. Nature Methods 2023, 20: 891-897. PMID: 37106230, PMCID: PMC10932606, DOI: 10.1038/s41592-023-01864-5.Peer-Reviewed Original ResearchConceptsIntegral membrane proteinsMembrane proteinsOligomeric organizationOligomeric stateNative mass spectrometry analysisFunctional oligomeric stateKey membrane componentMass spectrometry analysisNMS analysisTarget membraneLipid bindingMembrane componentsProteolipid vesiclesMembrane compositionLipid compositionSpectrometry analysisLipid membranesNeurotransmitter releaseProteinMembraneLipidsMembrane propertiesDirect determinationBilayersTransporters
2021
Symmetrical arrangement of proteins under release-ready vesicles in presynaptic terminals
Radhakrishnan A, Li X, Grushin K, Krishnakumar SS, Liu J, Rothman JE. Symmetrical arrangement of proteins under release-ready vesicles in presynaptic terminals. Proceedings Of The National Academy Of Sciences Of The United States Of America 2021, 118: e2024029118. PMID: 33468631, PMCID: PMC7865176, DOI: 10.1073/pnas.2024029118.Peer-Reviewed Original ResearchConceptsPlasma membraneSynaptic vesiclesSV fusionRelease-ready vesiclesFusion machinerySingle SNAREpinSV releaseExocytosis machineryMolecular eventsNative conditionsProtein componentsCultured hippocampal neuronsPriming reactionPresynaptic CaVesiclesFundamental processesProtein densityProtein massRelease of neurotransmittersNeurotransmitter releaseMachineryPresynaptic terminalsReleasable poolHippocampal neuronsVariable number
2020
Synaptotagmin-1 membrane binding is driven by the C2B domain and assisted cooperatively by the C2A domain
Gruget C, Bello O, Coleman J, Krishnakumar SS, Perez E, Rothman JE, Pincet F, Donaldson SH. Synaptotagmin-1 membrane binding is driven by the C2B domain and assisted cooperatively by the C2A domain. Scientific Reports 2020, 10: 18011. PMID: 33093513, PMCID: PMC7581758, DOI: 10.1038/s41598-020-74923-y.Peer-Reviewed Original ResearchSynaptotagmin 1 oligomers clamp and regulate different modes of neurotransmitter release
Tagliatti E, Bello OD, Mendonça PRF, Kotzadimitriou D, Nicholson E, Coleman J, Timofeeva Y, Rothman JE, Krishnakumar SS, Volynski KE. Synaptotagmin 1 oligomers clamp and regulate different modes of neurotransmitter release. Proceedings Of The National Academy Of Sciences Of The United States Of America 2020, 117: 3819-3827. PMID: 32015138, PMCID: PMC7035618, DOI: 10.1073/pnas.1920403117.Peer-Reviewed Original Research
2019
Structural basis for the clamping and Ca2+ activation of SNARE-mediated fusion by synaptotagmin
Grushin K, Wang J, Coleman J, Rothman JE, Sindelar CV, Krishnakumar SS. Structural basis for the clamping and Ca2+ activation of SNARE-mediated fusion by synaptotagmin. Nature Communications 2019, 10: 2413. PMID: 31160571, PMCID: PMC6546687, DOI: 10.1038/s41467-019-10391-x.Peer-Reviewed Original ResearchConceptsCryo-electron microscopy structureActivation of SNAREsDependent membrane interactionsAnionic lipid headgroupsFusion clampActivator functionSNARE bundleSNARE proteinsMicroscopy structureC2B domainStructural basisSynaptotagmin-1SNAREpinsAliphatic loopsMembrane interactionsComplete assemblyLipid headgroupsLipid membranesNeurotransmitter releaseMembraneKey determinantSynaptotagminSyt1Calcium influxPartial insertion
2018
Synergistic control of neurotransmitter release by different members of the synaptotagmin family
Volynski KE, Krishnakumar SS. Synergistic control of neurotransmitter release by different members of the synaptotagmin family. Current Opinion In Neurobiology 2018, 51: 154-162. PMID: 29886350, DOI: 10.1016/j.conb.2018.05.006.Peer-Reviewed Original ResearchRearrangements under confinement lead to increased binding energy of Synaptotagmin‐1 with anionic membranes in Mg2+ and Ca2+
Gruget C, Coleman J, Bello O, Krishnakumar SS, Perez E, Rothman JE, Pincet F, Donaldson SH. Rearrangements under confinement lead to increased binding energy of Synaptotagmin‐1 with anionic membranes in Mg2+ and Ca2+. FEBS Letters 2018, 592: 1497-1506. PMID: 29578584, DOI: 10.1002/1873-3468.13040.Peer-Reviewed Original Research
2017
Otoferlin acts as a Ca2+ sensor for vesicle fusion and vesicle pool replenishment at auditory hair cell ribbon synapses
Michalski N, Goutman JD, Auclair SM, de Monvel J, Tertrais M, Emptoz A, Parrin A, Nouaille S, Guillon M, Sachse M, Ciric D, Bahloul A, Hardelin JP, Sutton RB, Avan P, Krishnakumar SS, Rothman JE, Dulon D, Safieddine S, Petit C. Otoferlin acts as a Ca2+ sensor for vesicle fusion and vesicle pool replenishment at auditory hair cell ribbon synapses. ELife 2017, 6: e31013. PMID: 29111973, PMCID: PMC5700815, DOI: 10.7554/elife.31013.Peer-Reviewed Original ResearchConceptsVesicle fusionVesicle pool replenishmentIHC active zonesInner hair cellsPresynaptic plasma membraneSynaptic vesicle cycleMembrane capacitance measurementsRole of otoferlinAuditory brainstem response wavesTransmembrane proteinVesicle cycleSynaptic exocytosisPlasma membraneVoltage-gated CaHair cell ribbonC-domainSynaptic vesiclesOtoferlinSynaptic CaSensory cellsSynapse structureIntracellular CaNeurotransmitter releaseMutant miceRibbon synapsesTwo Disease-Causing SNAP-25B Mutations Selectively Impair SNARE C-terminal Assembly
Rebane AA, Wang B, Ma L, Qu H, Coleman J, Krishnakumar S, Rothman JE, Zhang Y. Two Disease-Causing SNAP-25B Mutations Selectively Impair SNARE C-terminal Assembly. Journal Of Molecular Biology 2017, 430: 479-490. PMID: 29056461, PMCID: PMC5805579, DOI: 10.1016/j.jmb.2017.10.012.Peer-Reviewed Original ResearchConceptsSoluble N-ethylmaleimide-sensitive factor attachment receptorSNARE assemblySynaptic exocytosisMembrane fusionSingle-molecule optical tweezersT-SNARE complexVesicle-associated SNAREsTarget plasma membraneC-terminal assemblyFour-helix bundleC-terminal regionSNARE complexPlasma membraneMolecular mechanismsZipperingMutationsNumerous diseasesAssembly energyNeurotransmitter releaseExocytosisAttachment receptorAssemblyNeurological disordersOptical tweezersComplexesKv1.1 channelopathy abolishes presynaptic spike width modulation by subthreshold somatic depolarization
Vivekananda U, Novak P, Bello OD, Korchev YE, Krishnakumar SS, Volynski KE, Kullmann DM. Kv1.1 channelopathy abolishes presynaptic spike width modulation by subthreshold somatic depolarization. Proceedings Of The National Academy Of Sciences Of The United States Of America 2017, 114: 2395-2400. PMID: 28193892, PMCID: PMC5338558, DOI: 10.1073/pnas.1608763114.Peer-Reviewed Original ResearchConceptsSomatic depolarizationPotassium channelsAction potentialsPresynaptic potassium channelsPrimary hippocampal culturesSubthreshold membrane potential fluctuationsHeterozygous mouse modelEpisodic ataxia type 1Distinct potassium channelsSubthreshold modulationAxon transectionSmall boutonsCalcium influxHippocampal culturesMouse modelSynaptic boutonsKv1.1 subunitsMembrane potential fluctuationsNeurotransmitter releaseIntact axonsType 1Genetic deletionAtaxia type 1Further prolongationPresynaptic spikes
2016
Ring-like oligomers of Synaptotagmins and related C2 domain proteins
Zanetti MN, Bello OD, Wang J, Coleman J, Cai Y, Sindelar CV, Rothman JE, Krishnakumar SS. Ring-like oligomers of Synaptotagmins and related C2 domain proteins. ELife 2016, 5: e17262. PMID: 27434670, PMCID: PMC4977156, DOI: 10.7554/elife.17262.Peer-Reviewed Original Research
2014
Calcium sensitive ring-like oligomers formed by synaptotagmin
Wang J, Bello O, Auclair SM, Wang J, Coleman J, Pincet F, Krishnakumar SS, Sindelar CV, Rothman JE. Calcium sensitive ring-like oligomers formed by synaptotagmin. Proceedings Of The National Academy Of Sciences Of The United States Of America 2014, 111: 13966-13971. PMID: 25201968, PMCID: PMC4183308, DOI: 10.1073/pnas.1415849111.Peer-Reviewed Original ResearchConceptsSynaptic vesicle protein Synaptotagmin 1Cytosolic domainSoluble N-ethylmaleimide-sensitive factorN-ethylmaleimide-sensitive factorMembrane fusion machineryReceptor complex assemblyRing-like oligomersFusion machineryC2 domainComplex assemblySynaptotagmin-1Helical reconstructionFusion proceedsNovel mechanismStructural mechanismsLipid monolayersNeurotransmitter releaseAbsence of calciumPhysiological concentrationsRing formationPresence of calciumFree calcium ionsSynaptotagminCalcium influxCircular arrangement
2013
Conformational Dynamics of Calcium-Triggered Activation of Fusion by Synaptotagmin
Krishnakumar SS, Kümmel D, Jones SJ, Radoff DT, Reinisch KM, Rothman JE. Conformational Dynamics of Calcium-Triggered Activation of Fusion by Synaptotagmin. Biophysical Journal 2013, 105: 2507-2516. PMID: 24314081, PMCID: PMC3853086, DOI: 10.1016/j.bpj.2013.10.029.Peer-Reviewed Original Research