[Immunization witha synthetic fragment 155-164 of neurotrophin receptor p75 prevents memory loss and decreases beta-amyloid level in mice with experimentally induced Alzheimer's disease].

Neurotoxic beta-amyloid peptide plays an important role in the pathology of Alzheimer's disease. In aggregated form it binds to several proteins on the surface of the brain cells leading to their death. p75 receptor in- volved in supporting of cell balance is one of the targets for toxic beta-amyloid. We proposed that induction of antibodies against potential binding sites of p75 with beta-amyloid can be a promising approach towards new drug development for Alzheimer's disease therapy. Four potentially immunoactive fragments of p75 were chosen and chemically synthesized. Investigation of immunoprotective effect of the peptide fragments carried out in mice with experimentally induced form of Alzheimer's disease helped to reveal two fragments effectively preserving murine memory from impairment. Results obtained by ELISA biochemical analysis showed that only immunization with fragment p75 155-164 led to significant decrease in beta-amyloid level in the brain of the experimental mice. Thus, immunization with both fragments of p75 receptor is believed to be an effective tool for the development of new drugs against Alzheimer's disease.

[Bacterial synthesis, purification, and solubilization of transmembrane segments of ErbB family members].

A family of epidermal growth factor receptors, ErbB, represents an important class of receptor tyrosine kinases, playing a leading role in cellular growth, development and differentiation. Transmembrane domains of these receptors transduce biochemical signals across plasma membrane via lateral homo- and heterodimerization. Relatively small size of complexes of ErbB transmembrane domains with detergents or lipids allows one to study their detailed spatial structure using three-dimensional heteronuclear high-resolution NMR spectroscopy. Here, we describe the effective expression system and purification procedure for preparative-scale production of transmembrane peptides from four representatives of ErbB family, ErbB1, ErbB2, ErbB3, ErbB4, for structural studies. The recombinant peptides were produced in Escherichia coli BL21(DE3)pLysS as C-terminal extensions of thioredoxin A. The fusion protein cleavage was accomplished with the light subunit of human enterokinase. Several (10-30) milligrams of purified isotope-labeled transmembrane peptides were isolated with the use of a simple and convenient procedure, which consists of consecutive steps of immobilized metal affinity chromatography and cation-exchange chromatography. The purified peptides were reconstituted in lipid/detergent environment (micelles or bicelles) and characterized using dynamic light scattering, CD and NMR spectroscopy. The data obtained indicate that the purified ErbB transmembrane peptides are suitable for structural and dynamic studies of their homo- and heterodimer complexes using high resolution NMR spectroscopy.

[The development and optimization of coupled cell-free expression system for production of the transmembrane domain of the receptor tyrosine kinase ErbB3].

The cell-free expression system based on bacterial extract S30 from E. coli for production of the transmembrane domain of human receptor tyrosine kinase ErbB3 (residues 632-675) was developed. The synthesis of the domain in the soluble form in the presence of detergents and in the form of the translation mixture precipitate was studied. The protocols of purification of the recombinant domain obtained by both methods were developed. The final yield of target protein in optimal conditions was 1.8-2.0 mg per 1 ml of translation mixture.

[Expression and purification of a recombinant transmembrane domain amyloid precursor protein associated with Alzheimer's disease].

More than half of the mutations of the amyloid precursor protein (APP) discovered in familiar forms of Alzheimer's disease are located in the transmembrane domain. The pathogenic mutations presumably affect the lateral dimerization of the APP transmembrane domain in the membrane and change the dimer conformation and/or stability. Thus, the mutations cause an alternative APP digestion pattern in the membrane and neurotoxic amyloid beta-peptide generation. For the detailed study of the specific protein-protein and protein-lipid interactions of the APP transmembrane domain, an E. coli recombinant expression construct was made. The recombinant protein contains an APP transmembrane domain (APPtm(686-726)) with adjacent extramembrane N and C ends. Here, we report the method of isotope-labeled APPtm expression and purification in quantities necessary for a heteronuclear NMR spectroscopy structure and dynamics study. On the basis of the (1)H-(15)N-HSQC spectra, we developed APPtm(686-726) solubilization conditions in the membrane-emulated milieu detergent micelles and lipid bicelles.

[2D [1H,13C] NMR study of carbon fluxes during glucose utilization by Escherichia coli MG1655].

Carbon fluxes through main pathways of glucose utilization in Escherichia coli cells--glycolysis, pentose phosphate pathway (PPP), and Enther-Doudoroff pathway (EDP)--were studied. Their ratios were analyzed in E. coli strains MG1655, MG1655(edd-eda), MG1655(zwf, edd-eda), and MG1655(pgi, edd-eda). It was shown that the carbon flux through glycolysis was the main route of glucose utilization, averaging ca. 80%. Inactivation of EDP did not affect growth parameters. Nevertheless, it altered carbon fluxes through the tricarboxylic acid cycles and energy metabolism in the cell. Inactivation of PPP decreased growth rate to a lesser degree than glycolysis inactivation.

[Synthetic analogues of antimicrobial peptides from the venom of the Central Asian spider Lachesana tarabaevi].

Analogues of latarcins Ltc1 and Ltc3b, antimicrobial peptides from the venom of the Central Asian spider Lachesana tarabaevi capable of formation of amphiphilic structures in membranes without involvement of disulfide bonds, were synthesized. The amino acid sequences of the analogues correspond to immature forms of these peptides, each of them containing an additional C-terminal amino acid residue. It is concluded from the study of the biological activity of the synthesized peptides that the posttranslational C-terminal amidation of Ltc3b is a functionally important modification that ensures a high activity of the mature peptide. The lipid composition was shown to affect the interaction of synthesized peptides with artificial membranes. The analogue of Ltc3b manifested the highest activity on cholesterol-containing membranes. The mechanism of action of the studied antimicrobial peptides on membranes is discussed.

[Residual dipolar couplings and molecular dynamic calculations as a source for refinement of protein spatial structures].

The precision of techniques and factors affecting the interpretation of residual dipolar couplings (RDCs) in analysis of spatial structures of partially aligned proteins are discussed. Experimental RDC values were obtained for pairs of 1H-15N nuclei of the protein barstar partially aligned in a liquid crystalline matrix of bicelles composed of dimiristoylphosphatidylcholine and dihexanoylphosphatidylcholine. The observed couplings agree well with the spatial structures of barstar determined earlier by X-ray and NMR methods. However, the differences between the experimental and calculated RDCs that were calculated on the basis of the known spatial structures of barstar, exceed the experimental errors three- to fourfold. These discrepancies can be explained by differences in the protein structures in solution and in crystal, a limited precision of the X-ray analysis, and the intramolecular mobility of the protein molecule. A comparison of the results of modeling of the molecular dynamics of barstar in solution, crystal structures, and the experimental RDCs showed that the methods of molecular dynamics provide for a reasonable description of the character and amplitudes of internal motions and they should be considered for the correct determination of protein spatial structures from NMR spectroscopic data.

[Identification and structural analysis of a glycophospholipid component from the venom of ant Paraponera clavata].

The venom of South American ant Paraponera clavata and its low-molecular-mass fraction were shown to possess insectotoxic and pore-forming activities. A number of glycophospholipid components were isolated from this ant venom by means of gel filtration and reversed-phase chromatography. Some of the compounds cause conductivity fluctuations in lipid bilayer membranes within the ranges 3-25 pS and 200-400 pS at concentrations of 10(-6) to 10(-7) M. N-Acetylglucosamine, a fatty acid, and phosphoric acid residues were found in their structures. A full structure, 3-myristoyl-2-acetamido-2-deoxy-alpha-D-glucopyranosyl phosphate, was elucidated for one of the compounds by the use of 1H, 13C, and 31P NMR spectroscopy and mass spectrometry.

[I87E mutation prevents barstar dimerization]. / Mutatsiia I87E prepiatstvuet dimerizatsii barstara.

The C40,82A;I87E mutant of barstar, an intracellular inhibitor of the ribonuclease barnase from Bacillus amyloliquefaciens, was obtained, and its physicochemical properties were studied. It was produced as a fusion protein with thioredoxin and then cleaved from this by EKmax enterokinase. The mutant was shown by NMR to retain the spatial structure of the wild-type protein but, in contrast to barstar, does not form the homodimers characteristic of barstar in aqueous solution. The mutant protein binds barnase with the dissociation constant (6.6 +/- 1.1) x 10(-11) M and exhibits other physicochemical properties similar to those of the wild-type barstar. This allows the use of C40,82A;I87E mutant instead of wild-type barstar in investigations where the protein dimerization is undesirable. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2004, vol. 30, no. 6; see also http://www.maik.ru.

[New water-soluble analog of the fusion peptide of influenza virus hemagglutinin: synthesis and properties]. / Novyi vodorastvorimyi analog peptida sliianiia iz gemaggliutinina virusa gripa: sintez i svoistva.

A water-soluble analogue F32 of the fusion peptide from the influenza virus hemagglutinin was synthesized. It consisted of 32 aa residues and retained the ability to interact with lipid membranes; its N-terminal sequence 1-24 coincided with that of the fusion protein from hemagglutinin (strain A/PR/8/34), whereas residues 25-32 (GGGKKKKK) provided its solubility in water. The peptide induced the conductivity fluctuations in planar bilayer lipid membranes characteristic of active fusion peptides. Conditions were found using CD spectroscopy under which the structure of F32 inside detergent micelles, where it can be studied by high-resolution 1H NMR spectroscopy, is close to the structure of the peptide during its interaction with phospholipid liposomes. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2004, vol. 30, no. 2; see also http://www.maik.ru.

[Expression of neurotoxin II from Naja oxiana cobra venom in Escherichia coli in a hybrid form with thioredoxin]. / Ekspressiruiushchaia konstruktsiia dlia narobotki v Escherichia coli neirotoksina i iz iada kobry Naja oxiana v vide gibrida s tioredoksinom.

Neurotoxin II from the venom of cobra Naja oxiana is a short type alpha-neurotoxin, which competitively inhibits nicotinic acetylcholine receptor. The toxin gene was expressed as a construct fused with the thioredoxin gene and the linker encoding the enteropeptidase recognition site and a Met residue between the genes. The fusion protein was mainly cleaved by cyanogen bromide, since enteropeptidase was less effective. The yield of neurotoxin II was 6 mg/l of the bacterial culture. The resulting recombinant protein was identified with native neurotoxin II by its N-terminal analysis, mass spectrometry, and NMR spectroscopy. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2004, vol. 30, no. 1; see also http://www.maik.ru.

[Interaction of cardiotoxin A5 with a membrane: role of conformational heterogeneity and hydrophilic properties]. / Vzaimodeistvie kardiotoksina A4 s membranoi: rol' konformatsionnoi geterogennosti i gidrofobnykh svoistv.

The hypothesis that local conformational differences of snake venom cardiotoxins (cytotoxins, CTs) may play a significant role in their interaction with membrane was tested by molecular modeling of the behavior of the CT A5 from the venom of Naja atra in water and at the water-membrane interface. Two models of the CT A5 spatial structure are known: the first was obtained by X-ray analysis and the second, by NMR studies in solution. A molecular dynamics (MD) analysis demonstrated that loop II of the toxin has a fixed omega-like shape in water, which does not depend on its initial structure. Interaction of the experimentally derived (X-ray and NMR) conformations and MD-simulated conformations of CT A5 with the lipid bilayer was studied by the Monte Carlo method using the previously developed model of the implicit membrane. The following was found: (1) Unlike the previously studied CT2 from the venom of cobra Naja oxiana, CT A5 has only loops I and II bound to the membrane, with the involvement of a lesser number of hydrophobic residues. (2) A long hydrophobic area is formed on the surface of CT A5 due to the omega-like shape of loop II and the arrangement of loop I in proximity to loop II. This hydrophobic area favors the toxin embedding into the lipid bilayer. (3) The toxin retains its conformation upon interaction with the membrane. (4). The CT A5 molecule has close values of the potential energy in the membrane and in an aqueous environment, which suggests a dynamic character of the binding. The results of the molecular modeling indicate a definite configuration of loops I and II and, consequently, a specific character of distribution of polar and apolar properties on the toxin surface, which turns out to be the most energetically favorable. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2003, vol. 29, no. 6; see also http://www.maik.ru.

[Isolation, biological properties, and spatial structure of an antibiotic loloatin A]. / Vydelenie, biologicheskie svoistva i prostranstvennaia struktura antibiotika loloatina A.

Peptide antibiotic with cyanolytic activity was isolated from the IGM52 strain of the Brevibacillus laterosporus Gram-positive spore-forming bacteria. By 1H NMR spectroscopy, this antibiotic was identified as loloatin A, a cyclic decapeptide cyclo(-Asn-Asp-Tyr-Val-Orn-Leu-DTyr-Pro-Phe-DPhe-). The spatial structure of loloatin A in solution was determined. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2002, vol. 28, no. 4; see also http://www.maik.ru.

[ESR study of the interaction of cytotoxin II with model membranes]. / Izuchenie metodom EPR vzaimodeistviia tsitoksina II s model'nymi membranami.

Cytotoxin II from the venom of the Central-Asian cobra Naja oxiana spin-labeled at Lys35 (SLCT II) was studied by ESR spectroscopy in aqueous solution and upon interaction with phospholipid vesicles from egg phosphatidylcholine or its mixture with dimyristoylphosphatidylglycerol (molar ratio 9:1). The distribution of SLCT II between the aqueous and lipid phases depended on the toxin and lipid concentrations and on the solution ionic strength. It was analyzed using the modified Gouy-Chapman equation that takes into account different charges of the cytotoxin in solution and in membrane. The analysis revealed two states of the cytotoxin-lipid complex. The first state corresponds to monomeric SLCT II hydrophobically interacting with the lipid membrane [a binding constant of (8 +/- 3) x 10(3) M-1] and carrying the charge of 4.4 +/- 0.3. On the basis of these parameters and the spatial structure of cytotoxin II in dodecylphosphocholine micelles, we concluded that the cytotoxin is mainly incorporated into the region of polar groups of the lipid bilayer. The second state of SLCT II is realized at high cytotoxin concentrations in the membrane and corresponds to the formation of toxin-lipid complexes that destruct the membrane bilayer structure.

[Structure and conformational heterogeneity of the weak toxin from the cobra Naja kaouthia venom]. / Struktura i konformatsionnaia geterogennost' slabogo toksina iz iada kobry Naja kaouthia.

Resonances in the two-dimensional 1H NMR spectra of a weak toxin (WTX) from the venom of cobra Naja kaouthia for all 65 amino acid residues were assigned. The amino acid sequence of WTX, determined by the sequentional assignment of spin systems, was found to be similar to that of the CM-9a toxin from the N. kaouthia venom. Unlike CM-9a, WTX contains an additional Trp36 residue; Lys50 and Tyr52 are interchanged; and there is a Thr residue in place of Arg2. For some residues of WTX, the presence of two components of approximately equal intensities in the spectra was shown, which is explained by the conformational heterogeneity of the polypeptide owing to the cis-trans isomerization of the peptide bond Arg32-Pro33. The data (contacts of the nuclear Overhauser effect, constants of spin-spin coupling of protons, and rates of exchange of amide protons by deuterium of the solvent) made it possible to determine the secondary structure of two forms of WTX, which is characterized by the presence of two antiparallel beta-sheets, one of which consists of two strands (regions 1-5 and 13-17) and the other, of three strands (regions 23-28, 38-43, and 55-59).

[Study of solid-phase catalytic isotopic exchange of hydrogen in alpha-conotoxin G1 under the effect of spillover-tritium]. / Issledovanie tverdofaznogo kataliticheskogo izotopnogo obmena vodoroda v konotoksine G1 pod deistviem spillover-tritiia.

Tritium-labeled alpha-conotoxin G1 with a molar radioactivity of 35 Ci/mmol and full biological activity (according to the binding to nicotinic acetylcholine receptor) was obtained by the high-temperature solid-state catalytic isotope exchange (HSCIE). The tritium distribution in the molecule of alpha-conotoxin G1 was revealed by 3H NMR spectroscopy. Tritium was found in all amino acid residues except for the Asn4-Pro5-Ala6 fragment. The data on the comparative reactivity of C-H bonds, the ab initio quantum-chemical calculation of the hydrogen exchange reaction, and the information on the spatial structures of alpha-conotoxin G1 in solution and in crystal state allowed us to establish that the reactivity of H atoms may be increased by their interaction with the electron donor O and N atoms at the transition state of the HSCIE reaction. A decrease in the rate of the HSCIE reaction could be caused by both a poor spatial accessibility of C-H bonds and a limited mobility of the peptide fragment containing these bonds.

[Modeling of peptides and proteins in membrane environment. I. A solvation model mimicking a lipid bilayer]. / Modelirovanie peptidov i belkov v membrannom okruzhenii. I.Model' sol'vatatsii, imitiruiushchaia lipidny'i bisloi.

A theoretical solvation model of peptides and proteins that mimics the heterogeneous membrane-water system was proposed. Our approach is based on the combined use of atomic parameters of solvation for water and hydrocarbons, which approximates the hydrated polar groups and acyl chains of lipids, respectively. This model was tested in simulations of several peptides: a nonpolar 20-mer polyleucine, a hydrophobic peptide with terminal polar groups, and a strongly amphiphilic peptide. The conformational space of the peptides in the presence of the membrane was studied by the Monte Carlo method. Unlike a polar solvent and vacuum, the membrane-like environment was shown to stabilize the alpha-helical conformation: low-energy structures have a helicity index of 100% in all cases. At the same time, the energetically most favorable orientations of the peptides relative to the membrane depend on their hydrophobic properties: nonpolar polyleucine is entirely immersed in the bilayer and the hydrophobic peptide with polar groups at the termini adopts a transbilayer orientation, whereas the amphiphilic peptide lies at the interface parallel to the membrane plane. The results of the simulations agree well with the available experimental data for these systems. In the following communications of this series, we plan to describe applications of the solvation model to membrane-bound proteins and peptides with biologically important functional activities.

[Modeling of peptides and proteins in a membrane environment.II. Structural and energetic aspects of Glycophorin A in a lipid bilayer]. / Modelirovanie peptidov i belkov v membrannom okruzhenii. II.Struktur nye i énergeticheskie aspekty glikoforina A v bisloe.

The conformational space of a hydrophobic peptide fragment of glycophorin A in a lipid membrane was studied with the Monte Carlo method using the solvation model described in the first communication of this series. The simulation was performed for various starting orientations of the peptide relative to the membrane bilayer: outside, inside, partially immersed, and transbilayer. We showed that the membrane substantially stabilizes the alpha-helical conformation of the central hydrophobic part of the glycophorin A molecule, which for the most part is immersed in the apolar core of the bilayer. For various conformational states, energy values were calculated and the orientations of the peptide relative to the membrane were characterized. Depending on the thickness of the bilayer, either an entirely alpha-helical conformation in transbilayer orientation or a conformation with a kink in the central part of the helix with the N- and C-termini exposed on one side of the membrane corresponds to the minimal-energy structure. The transmembrane orientation of glycophorin A is energetically advantageous when the membrane thickness is close to the length of its hydrophobic helical portion, which is consistent with the effect of "hydrophobic match" observed experimentally. The prospects for further refinement of the model are discussed.