Парамонов Александр Сергеевич

Кандидат физико-математических наук


Научный сотрудник (Группа структурной биологии ионных каналов)

Эл. почта: apar@nmr.ru

Избранные публикации

  1. Парамонов А.С., Кульбацкий Д.С., Локтюшов Е.В., Царев А.В., Долгих Д.А., Шенкарёв З.О., Кирпичников М.П., Люкманова Е.Н. (2017). Рекомбинантная продукция и исследование структуры белков человека Lypd6 и Lypd6b. Биоорг. хим. 43 (6), 620–630 [+]

    Белки человека Lypd6 и Lypd6b экспрессируются во многих тканях и имеют высокую степень гомо-
    логии аминокислотной последовательности (~ 54%). Оба белка в отличие от других белков семейства
    Ly6/uPAR имеют дополнительные протяженные N- и С-концевые аминокислотные последователь-
    ности, примыкающие к трехпетельному LU-домену, роль которых на данный момент не изучена. Из-
    вестно, что Lypd6 увеличивает амплитуду токов кальция, индуцированных никотином в нейронах
    тройничного нерва мыши. Lypd6 рыбки Danio rerio участвует в регуляции Wnt/β-катенин сигнального
    каскада, и блокирование экспрессии гена lypd6 приводит к нарушению эмбрионального развития.
    Экспрессия Lypd6b в ооцитах X. laevis повышает чувствительность никотиновых ацетилхолиновых ре-
    цепторов к ацетилхолину и увеличивает скорость их десенситизации. Молекулярные механизмы дей-
    ствия, равно как и пространственная структура Lypd6 и Lypd6b, до сих пор не изучены. В представ-
    ленной работе получены и экспрессированы гены водорастворимых аналогов трехпетельных белков
    человека Lypd6 и Lypd6b, не содержащих N-концевые последовательности (rLypd6 и rLypd6b), а также
    Lypd6 с N-концевой последовательностью – N-rLypd6. Белки получали в виде цитоплазматических
    телец включения в E. coli с последующей солюбилизацией в денатурирующих условиях и ренатураци-
    ей. С целью оптимизации выхода рекомбинантных белков был проведен поиск условий ренатурации.
    Анализ полученных препаратов N-rLypd6, rLypd6 и rLypd6b методами ЯМР-спектроскопии показал,
    что N-rLypd6, возможно, не структурирован. Получение миллиграммовых количеств изотопно-ме-
    ченных вариантов rLypd6 и rLypd6b позволило охарактеризовать вторичную структуру этих белков
    и исследовать внутримолекулярную подвижность. Установлено, что rLypd6 и rLypd6b обладают струк-
    турными элементами, характерными для трехпетельных белков семейства Ly6/uPAR с некоторыми
    уникальными особенностями, такими как наличие дополнительной дисульфидной связи в третьей
    петле и спиральных участков в первой и третьей петлях.

    ID:1924
  2. Мышкин М.Ю., Парамонов А.С., Кульбацкий Д.С., Люкманова Е.Н., Кирпичников М.П., Шенкарёв З.О. (2017). ПОДХОД “РАЗДЕЛЯЙ И ВЛАСТВУЙ” ДЛЯ СТРУКТУРНЫХ ИССЛЕДОВАНИЙ МУЛЬТИДОМЕННЫХ ИОННЫХ КАНАЛОВ НА ПРИМЕРЕ ИЗОЛИРОВАННЫХ ПОТЕНЦИАЛ-ЧУВСТВИТЕЛЬНЫХ ДОМЕНОВ КАНАЛОВ Kv2.1 И Nav1.4 ЧЕЛОВЕКА1. Биоорг. хим. 43 (6), 608–619 [+]

    Потенциал-зависимые K+- и Na+-ионные каналы вовлечены в широкий спектр физиологических
    процессов, включая возбудимость сердечных, мышечных и нервных клеток, а также секрецию гор-
    монов и нейромедиаторов. Эти каналы имеют модульную структуру и состоят из пяти мембранных
    доменов: четырех потенциал-чувствительных доменов (ПЧД) и одного порового домена. На ПЧД раз-
    личных каналов локализованы уникальные сайты связывания с лигандами, поэтому ПЧД рассматри-
    ваются в качестве перспективных фармакологических мишеней. Модульная организация ионных ка-
    налов позволяет ставить задачи по структурным ЯМР-исследованиям изолированных ПЧД отдельно
    от поры. В настоящей работе рассмотрена возможность таких исследований на примере ПЧД канала
    Kv2.1 человека и первого ПЧД канала Nav1.4 человека. Разработаны сопряженные системы бескле-
    точного синтеза на основе бактериального экстракта S30 из E. coli, позволяющие получать милли-
    граммовые количества препаратов ПЧД, включая меченые стабильными изотопами аналоги. Важным
    этапом ЯМР-исследований является подбор мембраномоделирующей среды, обеспечивающей дол-
    говременную стабильность природной структуры мембранного белка в растворе и высокое качество
    ЯМР-спектров. Скрининг различных сред показал, что домены каналов Kv2.1 и Nav1.4 нестабильны
    в средах, содержащих фосфолипиды: мицеллах короткоцепочечного липида DC7PC и липид-детер-
    гентных бицеллах на основе цвиттер-ионных или анионных насыщенных липидов (DMPC и DMPG).
    Показано, что оптимальной средой для структурных ЯМР-исследований являются смеси цвиттер-
    ионного и слабокатионного детергентов (FOS-12/LDAO). Однако, несмотря на высокое качество
    спектров, образец ПЧД канала Nav1.4 в окружении FOS-12/LDAO необратимо агрегировал в течение
    нескольких дней. Вероятно, ПЧД K+- и Na+-каналов человека не являются полностью автономными
    мембранными доменами и для их стабилизации необходимы контакты с другими доменами канала.

    ID:1925
  3. Lyukmanova E.N., Shulepko M.A., Shenkarev Z.O., Bychkov M.L., Paramonov A.S., Chugunov A.O., Kulbatskii D.S., Arvaniti M., Dolejsi E., Schaer T., Arseniev A.S., Efremov R.G., Thomsen M.S., Dolezal V., Bertrand D., Dolgikh D.A., Kirpichnikov M.P. (2016). Secreted Isoform of Human Lynx1 (SLURP-2): Spatial Structure and Pharmacology of Interactions with Different Types of Acetylcholine Receptors. Sci Rep 6, 30698 [+]

    Human-secreted Ly-6/uPAR-related protein-2 (SLURP-2) regulates the growth and differentiation of epithelial cells. Previously, the auto/paracrine activity of SLURP-2 was considered to be mediated via its interaction with the α3β2 subtype of the nicotinic acetylcholine receptors (nAChRs). Here, we describe the structure and pharmacology of a recombinant analogue of SLURP-2. Nuclear magnetic resonance spectroscopy revealed a 'three-finger' fold of SLURP-2 with a conserved β-structural core and three protruding loops. Affinity purification using cortical extracts revealed that SLURP-2 could interact with the α3, α4, α5, α7, β2, and β4 nAChR subunits, revealing its broader pharmacological profile. SLURP-2 inhibits acetylcholine-evoked currents at α4β2 and α3β2-nAChRs (IC50 ~0.17 and >3 μM, respectively) expressed in Xenopus oocytes. In contrast, at α7-nAChRs, SLURP-2 significantly enhances acetylcholine-evoked currents at concentrations <1 μM but induces inhibition at higher concentrations. SLURP-2 allosterically interacts with human M1 and M3 muscarinic acetylcholine receptors (mAChRs) that are overexpressed in CHO cells. SLURP-2 was found to promote the proliferation of human oral keratinocytes via interactions with α3β2-nAChRs, while it inhibited cell growth via α7-nAChRs. SLURP-2/mAChRs interactions are also probably involved in the control of keratinocyte growth. Computer modeling revealed possible SLURP-2 binding to the 'classical' orthosteric agonist/antagonist binding sites at α7 and α3β2-nAChRs.

    ID:1597
  4. Lyukmanova E.N., Shenkarev Z.O., Shulepko M.A., Paramonov A.S., Chugunov A.O., Janickova H., Dolejsi E., Dolezal V., Utkin Y.N., Tsetlin V.I., Arseniev A.S., Efremov R.G., Dolgikh D.A., Kirpichnikov M.P. (2015). Structural Insight into Specificity of Interactions between Nonconventional Three-finger Weak Toxin from Naja kaouthia (WTX) and Muscarinic Acetylcholine Receptors. J. Biol. Chem. 290 (39), 23616–30 [+]

    Weak toxin from Naja kaouthia (WTX) belongs to the group of nonconventional "three-finger" snake neurotoxins. It irreversibly inhibits nicotinic acetylcholine receptors and allosterically interacts with muscarinic acetylcholine receptors (mAChRs). Using site-directed mutagenesis, NMR spectroscopy, and computer modeling, we investigated the recombinant mutant WTX analogue (rWTX) which, compared with the native toxin, has an additional N-terminal methionine residue. In comparison with the wild-type toxin, rWTX demonstrated an altered pharmacological profile, decreased binding of orthosteric antagonist N-methylscopolamine to human M1- and M2-mAChRs, and increased antagonist binding to M3-mAChR. Positively charged arginine residues located in the flexible loop II were found to be crucial for rWTX interactions with all types of mAChR. Computer modeling suggested that the rWTX loop II protrudes to the M1-mAChR allosteric ligand-binding site blocking the entrance to the orthosteric site. In contrast, toxin interacts with M3-mAChR by loop II without penetration into the allosteric site. Data obtained provide new structural insight into the target-specific allosteric regulation of mAChRs by "three-finger" snake neurotoxins.

    ID:1394
  5. Berkut A.A., Peigneur S., Myshkin M.Y., Paramonov A.S., Lyukmanova E.N., Arseniev A.S., Grishin E.V., Tytgat J., Shenkarev Z.O., Vassilevski A.A. (2015). Structure of Membrane-active Toxin from Crab Spider Heriaeus melloteei Suggests Parallel Evolution of Sodium Channel Gating Modifiers in Araneomorphae and Mygalomorphae. J. Biol. Chem. 290 (1), 492–504 [+]

    We present a structural and functional study of a sodium channel activation inhibitor from crab spider venom. Hm-3 is an insecticidal peptide toxin consisting of 35 amino acid residues from the spider Heriaeus melloteei (Thomisidae). We produced Hm-3 recombinantly in Escherichia coli and determined its structure by NMR spectroscopy. Typical for spider toxins, Hm-3 was found to adopt the so-called "inhibitor cystine knot" or "knottin" fold stabilized by three disulfide bonds. Its molecule is amphiphilic with a hydrophobic ridge on the surface enriched in aromatic residues and surrounded by positive charges. Correspondingly, Hm-3 binds to both neutral and negatively charged lipid vesicles. Electrophysiological studies showed that at a concentration of 1 μm Hm-3 effectively inhibited a number of mammalian and insect sodium channels. Importantly, Hm-3 shifted the dependence of channel activation to more positive voltages. Moreover, the inhibition was voltage-dependent, and strong depolarizing prepulses attenuated Hm-3 activity. The toxin is therefore concluded to represent the first sodium channel gating modifier from an araneomorph spider and features a "membrane access" mechanism of action. Its amino acid sequence and position of the hydrophobic cluster are notably different from other known gating modifiers from spider venom, all of which are described from mygalomorph species. We hypothesize parallel evolution of inhibitor cystine knot toxins from Araneomorphae and Mygalomorphae suborders.

    ID:1138
  6. Lyukmanova E.N., Shulepko M.A., Bychkov M.L., Shenkarev Z.O., Paramonov A.S., Chugunov A.O., Arseniev A.S., Dolgikh D.A., Kirpichnikov M.P. (2014). Human SLURP-1 and SLURP-2 Proteins Acting on Nicotinic Acetylcholine Receptors Reduce Proliferation of Human Colorectal Adenocarcinoma HT-29 Cells. Acta Naturae 6 (4), 60–6 [+]

    Human secreted Ly-6/uPAR related proteins (SLURP-1 and SLURP-2) are produced by various cells, including the epithelium and immune system. These proteins act as autocrine/paracrine hormones regulating the growth and differentiation of keratinocytes and are also involved in the control of inflammation and malignant cell transformation. These effects are assumed to be mediated by the interactions of SLURP-1 and SLURP-2 with the α7 and α3β2 subtypes of nicotinic acetylcholine receptors (nAChRs), respectively. Available knowledge about the molecular mechanism underling the SLURP-1 and SLURP-2 effects is very limited. SLURP-2 remains one of the most poorly studied proteins of the Ly-6/uPAR family. In this study, we designed for the first time a bacterial system for SLURP-2 expression and a protocol for refolding of the protein from cytoplasmic inclusion bodies. Milligram quantities of recombinant SLURP-2 and its 13C-15N-labeled analog were obtained. The recombinant protein was characterized by NMR spectroscopy, and a structural model was developed. A comparative study of the SLURP-1 and SLURP-2 effects on the epithelial cell growth was conducted using human colorectal adenocarcinoma HT-29 cells, which express only α7-nAChRs. A pronounced antiproliferative effect of both proteins was observed. Incubation of cells with 1 μM SLURP-1 and 1 μM SLURP-2 during 48 h led to a reduction in the cell number down to ~ 54 and 63% relative to the control, respectively. Fluorescent microscopy did not reveal either apoptotic or necrotic cell death. An analysis of the dose-response curve revealed the concentration-dependent mode of the SLURP-1 and SLURP-2 action with EC50 ~ 0.1 and 0.2 nM, respectively. These findings suggest that the α7-nAChR is the main receptor responsible for the antiproliferative effect of SLURP proteins in epithelial cells.

    ID:1256
  7. Shenkarev Z.O., Lyukmanova E.N., Paramonov A.S., Panteleev P.V., Balandin S.V., Shulepko M.A., Mineev K.S., Ovchinnikova T.V., Kirpichnikov M.P., Arseniev A.S. (2014). Lipid-protein nanodiscs offer new perspectives for structural and functional studies of water-soluble membrane-active peptides. Acta Naturae 6 (2), 84–94 [+]

    Lipid-protein nanodiscs (LPNs) are nanoscaled fragments of a lipid bilayer stabilized in solution by the apolipoprotein or a special membrane scaffold protein (MSP). In this work, the applicability of LPN-based membrane mimetics in the investigation of water-soluble membrane-active peptides was studied. It was shown that a pore-forming antimicrobial peptide arenicin-2 from marine lugworm (charge of +6) disintegrates LPNs containing both zwitterionic phosphatidylcholine (PC) and anionic phosphatidylglycerol (PG) lipids. In contrast, the spider toxin VSTx1 (charge of +3), a modifier of Kv channel gating, effectively binds to the LPNs containing anionic lipids (POPC/DOPG, 3 : 1) and does not cause their disruption. VSTx1 has a lower affinity to LPNs containing zwitterionic lipids (POPC), and it weakly interacts with the protein component of nanodiscs, MSP (charge of -6). The neurotoxin II (NTII, charge of +4) from cobra venom, an inhibitor of the nicotinic acetylcholine receptor, shows a comparatively low affinity to LPNs containing anionic lipids (POPC/DOPG, 3 : 1 or POPC/DOPS, 4 : 1), and it does not bind to LPNs/POPC. The obtained data show that NTII interacts with the LPN/POPC/DOPS surface in several orientations, and that the exchange process among complexes with different topologies proceeds fast on the NMR timescale. Only one of the possible NTII orientations allows for the previously proposed specific interaction between the toxin and the polar head group of phosphatidylserine from the receptor environment (Lesovoy et al., Biophys. J. 2009. V. 97. № 7. P. 2089-2097). These results indicate that LPNs can be used in structural and functional studies of water-soluble membrane-active peptides (probably except pore-forming ones) and in studies of the molecular mechanisms of peptide-membrane interaction.

    ID:1106
  8. Shenkarev Z.O., Paramonov A.S., Lyukmanova E.N., Gizatullina A.K., Zhuravleva A.V., Tagaev A.A., Yakimenko Z.A., Telezhinskaya I.N., Kirpichnikov M.P., Ovchinnikova T.V., Arseniev A.S. (2013). Peptaibol antiamoebin I: spatial structure, backbone dynamics, interaction with bicelles and lipid-protein nanodiscs, and pore formation in context of barrel-stave model. Chem. Biodivers. 10 (5), 838–63 [+]

    Antiamoebin I (Aam-I) is a membrane-active peptaibol antibiotic isolated from fungal species belonging to the genera Cephalosporium, Emericellopsis, Gliocladium, and Stilbella. In comparison with other 16-amino acid-residue peptaibols, e.g., zervamicin IIB (Zrv-IIB), Aam-I possesses relatively weak biological and channel-forming activities. In MeOH solution, Aam-I demonstrates fast cooperative transitions between right-handed and left-handed helical conformation of the N-terminal (1-8) region. We studied Aam-I spatial structure and backbone dynamics in the membrane-mimicking environment (DMPC/DHPC bicelles)(1) ) by heteronuclear (1) H,(13) C,(15) N-NMR spectroscopy. Interaction with the bicelles stabilizes the Aam-I right-handed helical conformation retaining significant intramolecular mobility on the ms-μs time scale. Extensive ms-μs dynamics were also detected in the DPC and DHPC micelles and DOPG nanodiscs. In contrast, Zrv-IIB in the DPC micelles demonstrates appreciably lesser mobility on the μs-ms time scale. Titration with Mn(2+) and 16-doxylstearate paramagnetic probes revealed Aam-I binding to the bicelle surface with the N-terminus slightly immersed into hydrocarbon region. Fluctuations of the Aam-I helix between surface-bound and transmembrane (TM) state were observed in the nanodisc membranes formed from the short-chain (diC12 : 0) DLPC/DLPG lipids. All the obtained experimental data are in agreement with the barrel-stave model of TM pore formation, similarly to the mechanism proposed for Zrv-IIB and other peptaibols. The observed extensive intramolecular dynamics explains the relatively low activity of Aam-I.

    ID:978
  9. Shulepko M.A., Lyukmanova E.N., Paramonov A.S., Lobas A.A., Shenkarev Z.O., Kasheverov I.E., Dolgikh D.A., Tsetlin V.I., Arseniev A.S., Kirpichnikov M.P. (2013). Human neuromodulator SLURP-1: bacterial expression, binding to muscle-type nicotinic acetylcholine receptor, secondary structure, and conformational heterogeneity in solution. Biochemistry Mosc. 78 (2), 204–11 [+]
    ID:930
  10. Shenkarev Z.O., Lyukmanova E.N., Butenko I.O., Petrovskaya L.E., Paramonov A.S., Shulepko M.A., Nekrasova O.V., Kirpichnikov M.P., Arseniev A.S. (2013). Lipid-protein nanodiscs promote in vitro folding of transmembrane domains of multi-helical and multimeric membrane proteins. Biochim. Biophys. Acta 1828 (2), 776–84 [+]

    Production of helical integral membrane proteins (IMPs) in a folded state is a necessary prerequisite for their functional and structural studies. In many cases large-scale expression of IMPs in cell-based and cell-free systems results in misfolded proteins, which should be refolded in vitro. Here using examples of the bacteriorhodopsin ESR from Exiguobacterium sibiricum and full-length homotetrameric K(+) channel KcsA from Streptomyces lividans we found that the efficient in vitro folding of the transmembrane domains of the polytopic and multimeric IMPs could be achieved during the protein encapsulation into the reconstructed high-density lipoprotein particles, also known as lipid-protein nanodiscs. In this case the self-assembly of the IMP/nanodisc complexes from a mixture containing apolipoprotein, lipids and the partially denatured protein solubilized in a harsh detergent induces the folding of the transmembrane domains. The obtained folding yields showed significant dependence on the properties of lipids used for nanodisc formation. The largest recovery of the spectroscopically active ESR (~60%) from the sodium dodecyl sulfate (SDS) was achieved in the nanodiscs containing anionic saturated lipid 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPG) and was approximately twice lower in the zwitterionic DMPC lipid. The reassembly of tetrameric KcsA from the acid-dissociated monomer solubilized in SDS was the most efficient (~80%) in the nanodiscs containing zwitterionic unsaturated lipid 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC). The charged and saturated lipids provided lower tetramer quantities, and the lowest yield (<20%) was observed in DMPC. The overall yield of the ESR and KcsA folding was mainly restricted by the efficiency of the protein encapsulation into the nanodiscs.

    ID:802
  11. Lyukmanova E.N., Shenkarev Z.O., Khabibullina N.F., Kopeina G.S., Shulepko M.A., Paramonov A.S., Mineev K.S., Tikhonov R.V., Shingarova L.N., Petrovskaya L.E., Dolgikh D.A., Arseniev A.S., Kirpichnikov M.P. (2011). Lipid-protein nanodisks for cell-free production of integral membrane proteins in a soluble and folded state: Comparison with detergent micelles, bicelles and liposomes. Biochim. Biophys. Acta , [+]

    Production of integral membrane proteins (IMPs) in a folded state is a key prerequisite for their functional and structural studies. In cell-free (CF) expression systems membrane mimicking components could be added to the reaction mixture that promotes IMP production in a soluble form. Here lipid-protein nanodisks (LPNs) of different lipid compositions (DMPC, DMPG, POPC, POPC/DOPG) have been compared with classical membrane mimicking media such as detergent micelles, lipid/detergent bicelles and liposomes by their ability to support CF synthesis of IMPs in a folded and soluble state. Three model membrane proteins of different topology were used: homodimeric transmembrane (TM) domain of human receptor tyrosine kinase ErbB3 (TM-ErbB3, 1TM); voltage-sensing domain of K(+) channel KvAP (VSD, 4TM); and bacteriorhodopsin from Exiguobacterium sibiricum (ESR, 7TM). Structural and/or functional properties of the synthesized proteins were analyzed. LPNs significantly enhanced synthesis of the IMPs in a soluble form regardless of the lipid composition. A partial disintegration of LPNs composed of unsaturated lipids was observed upon co-translational IMP incorporation. Contrary to detergents the nanodisks resulted in the synthesis of ~80% active ESR and promoted correct folding of the TM-ErbB3. None of the tested membrane mimetics supported CF synthesis of correctly folded VSD, and the protocol of the domain refolding was developed. The use of LPNs appears to be the most promising approach to CF production of IMPs in a folded state. NMR analysis of (15)N-Ile-TM-ErbB3 co-translationally incorporated into LPNs shows the great prospects of this membrane mimetics for structural studies of IMPs produced by CF systems.

    ID:541
  12. Shenkarev Z.O., Balandin S.V., Trunov K.I., Paramonov A.S., Sukhanov S.V., Barsukov L.I., Arseniev A.S., Ovchinnikova T.V. (2011). Molecular mechanism of action of β-hairpin antimicrobial peptide arenicin: oligomeric structure in dodecylphosphocholine micelles and pore formation in planar lipid bilayers. Biochemistry 50 (28), 6255–65 [+]

    The membrane-active, cationic, β-hairpin peptide, arenicin, isolated from marine polychaeta Arenicola marina exhibits a broad spectrum of antimicrobial activity. The peptide in aqueous solution adopts the significantly twisted β-hairpin conformation without pronounced amphipathicity. To assess the mechanism of arenicin action, the spatial structure and backbone dynamics of the peptide in membrane-mimicking media and its pore-forming activity in planar lipid bilayers were studied. The spatial structure of the asymmetric arenicin dimer stabilized by parallel association of N-terminal strands of two β-hairpins was determined using triple-resonance nuclear magnetic resonance (NMR) spectroscopy in dodecylphosphocholine (DPC) micelles. Interaction of arenicin with micelles and its oligomerization significantly decreased the right-handed twist of the β-hairpin, increased its amphipathicity, and led to stabilization of the peptide backbone on a picosecond to nanosecond time scale. Relaxation enhancement induced by water-soluble (Mn(2+)) and lipid-soluble (16-doxylstearate) paramagnetic probes pointed to the dimer transmembrane arrangement. Qualitative NMR and circular dichroism study of arenicin-2 in mixed DPC/1,2-dioleoyl-sn-glycero-3-phosphoglycerol bicelles, sodium dodecyl sulfate micelles, and lipid vesicles confirmed that a similar dimeric assembly of the peptide was retained in membrane-mimicking systems containing negatively charged lipids and detergents. Arenicin-induced conductance was dependent on the lipid composition of the membrane. Arenicin low-conductivity pores were detected in the phosphatidylethanolamine-containing lipid mixture, whereas the high-conductivity pores were observed in an exclusively anionic lipid system. The measured conductivity levels agreed with the model in which arenicin antimicrobial activity was mediated by the formation of toroidal pores assembled of two, three, or four β-structural peptide dimers and lipid molecules. The structural transitions involved in arenicin membrane-disruptive action are discussed.

    ID:535
  13. Shenkarev Z.O., Paramonov A.S., Lyukmanova E.N., Shingarova L.N., Yakimov S.A., Dubinnyi M.A., Chupin V.V., Kirpichnikov M.P., Blommers M.J., Arseniev A.S. (2010). NMR structural and dynamical investigation of the isolated voltage-sensing domain of the potassium channel KvAP: implications for voltage gating. J. Am. Chem. Soc. 132 (16), 5630–7 [+]

    The structure and dynamics of the isolated voltage-sensing domain (VSD) of the archaeal potassium channel KvAP was studied by high-resolution NMR. The almost complete backbone resonance assignment and partial side-chain assignment of the (2)H,(13)C,(15)N-labeled VSD were obtained for the protein domain solubilized in DPC/LDAO (2:1) mixed micelles. Secondary and tertiary structures of the VSD were characterized using secondary chemical shifts and NOE contacts. These data indicate that the spatial structure of the VSD solubilized in micelles corresponds to the structure of the domain in an open state of the channel. NOE contacts and secondary chemical shifts of amide protons indicate the presence of tightly bound water molecule as well as hydrogen bond formation involving an interhelical salt bridge (Asp62-R133) that stabilizes the overall structure of the domain. The backbone dynamics of the VSD was studied using (15)N relaxation measurements. The loop regions S1-S2 and S2-S3 were found mobile, while the S3-S4 loop (voltage-sensor paddle) was found stable at the ps-ns time scale. The moieties of S1, S2, S3, and S4 helices sharing interhelical contacts (at the level of the Asp62-R133 salt bridge) were observed in conformational exchange on the micros-ms time scale. Similar exchange-induced broadening of characteristic resonances was observed for the VSD solubilized in the membrane of lipid-protein nanodiscs composed of DMPC, DMPG, and POPC/DOPG lipids. Apparently, the observed interhelical motions represent an inherent property of the VSD of the KvAP channel and can play an important role in the voltage gating.

    ID:350
  14. Shenkarev Z.O., Lyukmanova E.N., Paramonov A.S., Shingarova L.N., Chupin V.V., Kirpichnikov M.P., Blommers M.J., Arseniev A.S. (2010). Lipid-protein nanodiscs as reference medium in detergent screening for high-resolution NMR studies of integral membrane proteins. J. Am. Chem. Soc. 132 (16), 5628–9 [+]

    The choice of a suitable detergent-based membrane mimetic is of crucial importance for high-resolution NMR studies of membrane proteins. The present report describes a new approach of detergent screening. It is based on the comparison of 2D (1)H,(15)N-correlation spectra of a protein in a membrane-bilayer "reference" medium and in "trial" detergent-based environments. The proposed "reference" medium is the lipid-protein nanodisc (LPN) representing nanoscale phospholipid bilayers wrapped around by apolipoprotein A-1. The set of zwitterionic (DPC, DMPC/DHPC), anionic (SDS, LMPG, LPPG), and weakly cationic (LDAO) detergent-based media was screened for their ability to represent the native structure of the isolated voltage-sensing domain (VSD) of the archaeal potassium channel KvAP. The VSD/LPN complexes composed of saturated zwitterionic (DMPC), anionic (DMPG), or a mixture of unsaturated differently charged (POPC/DOPG, 3:1) lipids were used as reference. All assayed detergent media demonstrate similar CD spectra of the domain with a high level (approximately 60%) of overall helicity but different 2D NMR spectra. Using the reference spectrum of the VSD in LPN, we were able to choose the detergent composition in which the membrane-like structure of the VSD is preserved.

    ID:351
  15. Lyukmanova E.N., Shulepko M.A., Tikhonov R.V., Shenkarev Z.O., Paramonov A.S., Wulfson A.N., Kasheverov I.E., Ustich T.L., Utkin Y.N., Arseniev A.S., Tsetlin V.I., Dolgikh D.A., Kirpichnikov M.P. (2009). Bacterial production and refolding from inclusion bodies of a "weak" toxin, a disulfide rich protein. Biochemistry Mosc. 74 (10), 1142–9 [+]

    The gene for the "weak" toxin of Naja kaouthia venom was expressed in Escherichia coli. "Weak" toxin is a specific inhibitor of nicotine acetylcholine receptor, but mechanisms of interaction of similar neurotoxins with receptors are still unknown. Systems previously elaborated for neurotoxin II from venom of the cobra Naja oxiana were tested for bacterial production of "weak" toxin from N. kaouthia venom. Constructs were designed for cytoplasmic production of N. kaouthia "weak" toxin in the form of a fused polypeptide chain with thioredoxin and for secretion with the leader peptide STII. However, it became possible to obtain "weak" toxin in milligram amounts only within cytoplasmic inclusion bodies. Different approaches for refolding of the toxin were tested, and conditions for optimization of the yield of the target protein during refolding were investigated. The resulting protein was characterized by mass spectrometry and CD and NMR spectroscopy. Experiments on competitive inhibition of (125)I-labeled alpha-bungarotoxin binding to the Torpedo californica electric organ membranes containing the muscle-type nicotine acetylcholine receptor (alpha1(2)beta1gammadelta) showed the presence of biological activity of the recombinant "weak" toxin close to the activity of the natural toxin (IC(50) = 4.3 +/- 0.3 and 3.0 +/- 0.5 microM, respectively). The interaction of the recombinant toxin with alpha7 type human neuronal acetylcholine receptor transfected in the GH(4)C(1) cell line also showed the presence of activity close to that of the natural toxin (IC(50) 31 +/- 5.0 and 14.8 +/- 1.3 microM, respectively). The developed bacterial system for production of N. kaouthia venom "weak" toxin was used to obtain (15)N-labeled analog of the neurotoxin.

    ID:352
  16. Astakhova I.V., Malakhov A.D., Stepanova I.A., Ustinov A.V., Bondarev S.L., Paramonov A.S., Korshun V.A. (2009). 1-Phenylethynylpyrene (1-PEPy) as refined excimer forming alternative to pyrene: case of DNA major groove excimer. Bioconjug. Chem. 18 (6), 1972–80 [+]

    1-Phenylethynylpyrene fluorochrome was studied as meta- and para-derivatives of arabino-uridine-2'-carbamates in ss and dsDNA. 1-PEPy showed red-shifted emission and increased fluorescence quantum yield compared to pyrene. Although 1-PEPy has very short excited lifetime (<2.5 ns), it is able to form inter- and intrastrand excimers on DNA, probably resulting from spatial preorganization of two dye molecules.

    ID:660
  17. Ovchinnikova T.V., Shenkarev Z.O., Balandin S.V., Nadezhdin K.D., Paramonov A.S., Kokryakov V.N., Arseniev A.S. (2008). Molecular insight into mechanism of antimicrobial action of the beta-hairpin peptide arenicin: specific oligomerization in detergent micelles. Biopolymers 89 (5), 455–64 [+]

    Arenicins are 21-residue cationic antimicrobial peptides isolated from marine polychaeta Arenicola marina. The peptides exhibit potent broad-spectrum antimicrobial activity. In water solution arenicin-2 adopts a beta-hairpin conformation, stabilized by one disulfide and nine hydrogen bonds. To determine the propensity for the peptide oligomerization in membrane mimetic systems, the recombinant arenicin-2 was overexpressed as a fused form in Escherichia coli. The arenicin-2 oligomerization and intermolecular packing in membrane mimicking environment were investigated using high-resolution NMR spectroscopy. The present studies show that arenicin-2 preserves a beta-hairpin structure and forms asymmetric dimers upon incorporation into the dodecylphosphocholine micelle. Two monomers of arenicin-2 are aligned parallel to each other by the N-terminal strands of the beta-hairpin (CN upward arrow upward arrowNC type of association). Polyacrylamide gel electrophoresis analysis indicated that in environment of anionic SDS micelles the arenicin-2 might undergo further oligomerization and form tetramers. Our results afford further molecular insight into possible mechanism of antimicrobial action of arenicins.

    ID:414
  18. Lyukmanova E.N., Shenkarev Z.O., Paramonov A.S., Sobol A.G., Ovchinnikova T.V., Chupin V.V., Kirpichnikov M.P., Blommers M.J., Arseniev A.S. (2008). Lipid-protein nanoscale bilayers: a versatile medium for NMR investigations of membrane proteins and membrane-active peptides. J. Am. Chem. Soc. 130 (7), 2140–1 ID:356
  19. Shenkarev Z.O., Paramonov A.S., Nadezhdin K.D., Bocharov E.V., Kudelina I.A., Skladnev D.A., Tagaev A.A., Yakimenko Z.A., Ovchinnikova T.V., Arseniev A.S. (2007). Antiamoebin I in methanol solution: rapid exchange between right-handed and left-handed 3(10)-helical conformations. Chem. Biodivers. 4 (6), 1219–42 [+]

    Antiamoebin I (Aam-I) is a membrane-active peptaibol antibiotic isolated from fungal species belonging to the genera Cephalosporium, Emericellopsis, Gliocladium, and Stilbella. Antiamoebin I has the amino acid sequence: Ac-Phe(1)-Aib-Aib-Aib-Iva-Gly-Leu-Aib(8)-Aib-Hyp-Gln-Iva-Hyp-Aib-Pro-Phl(16). By using the uniformly (13)C,(15)N-labeled sample of Aam-I, the set of conformationally dependent J couplings and (3h)J(NC) couplings through H-bonds were measured. Analysis of these data along with the data on magnetic nonequivalence of the (13)C(beta) nuclei (Deltadelta((13)C(beta))) in Aib and Iva residues allowed us to draw the univocal conclusion that the N-terminal part (Phe(1)-Gly(6)) of Aam-I in MeOH solution is in fast exchange between the right-handed and left-handed 3(10)-helical conformations, with an approximately equal population of both states. An additional conformational exchange process was found at the Aib(8) residue. The (15)N-NMR-relaxation and CD-spectroscopy measurements confirmed these findings. Molecular modeling and Monte Carlo simulations revealed that both exchange processes are correlated and coupled with significant hinge-bending motions around the Aib(8) residue. Our results explain relatively low activity of Aam-I with respect to other 15-amino acid residue peptaibols (for example, zervamicin) in functional and biological tests. The high dynamic 'propensity' possibly prevents both initial binding of the antiamoebin to the membrane and subsequent formation of stable ionic channels according to the barrel-stave mechanism.

    ID:418
  20. Shenkarev Z.O., Paramonov A.S., Balashova T.A., Yakimenko Z.A., Baru M.B., Mustaeva L.G., Raap J., Ovchinnikova T.V., Arseniev A.S. (2004). High stability of the hinge region in the membrane-active peptide helix of zervamicin: paramagnetic relaxation enhancement studies. Biochem. Biophys. Res. Commun. 325 (3), 1099–105 [+]

    Zervamicin IIB is a 16 amino acid peptaibol that forms voltage dependent ion channels with multilevel conductance states in planar lipid bilayers and vesicular systems. Stability of the hinge region and intermolecular interactions were investigated in the N- and C-terminally spin-labelled peptide analogues. Intermolecular and intramolecular paramagnetic enhancement indicates that zervamicin behaves as a rigid helical rod in methanol solution. There are no high amplitude hinge-bending motions, and the peptaibol is monomeric up to concentration 1.5 mM. Stability of the hinge region illustrates the helix stabilising propensity of the Pro residue in membrane mimic environments and implies absence of significant conformational rearrangement due to voltage peptaibol activation.

    ID:425