Analysis of human serum by liquid chromatography-mass spectrometry: improved sample preparation and data analysis.

Discovery of biomarkers is a fast developing field in proteomics research. Liquid chromatography coupled on line to mass spectrometry (LC-MS) has become a powerful method for the sensitive detection, quantification and identification of proteins and peptides in biological fluids like serum. However, the presence of highly abundant proteins often masks those of lower abundance and thus generally prevents their detection and identification in proteomics studies. To perform future comparative analyses of samples from a serum bank of cervical cancer patients in a longitudinal and cross-sectional manner, methodology based on the depletion of high-abundance proteins followed by tryptic digestion and LC-MS has been developed. Two sample preparation methods were tested in terms of their efficiency to deplete high-abundance serum proteins and how they affect the repeatability of the LC-MS data sets. The first method comprised depletion of human serum albumin (HSA) on a dye ligand chromatographic and immunoglobulin G (IgG) on an immobilized Protein A support followed by tryptic digestion, fractionation by cation-exchange chromatography, trapping on a C18 column and reversed-phase LC-MS. The second method included depletion of the six most abundant serum proteins based on multiple immunoaffinity chromatography followed by tryptic digestion, trapping on a C18 column and reversed-phase LC-MS. Repeatability of the overall procedures was evaluated in terms of retention time and peak area for a selected number of endogenous peptides showing that the second method, besides being less time consuming, gave more repeatable results (retention time: <0.1% RSD; peak area: <30% RSD). Application of an LC-MS component detection algorithm followed by principal component analysis (PCA) enabled discrimination of serum samples that were spiked with horse heart cytochrome C from non-spiked serum and the detection of a concentration trend, which correlated to the amount of spiked horse heart cytochrome C to a level of 5 pmol cytochrome C in 2 microl original serum.

[A comparison analysis of the use of intravenous ß-interferon-1a 30 mcg and subcutaneous ß-interferon-1a 44 mcg in routine clinical practice of treatment in patients with multiple sclerosis]. / Sravnitel'nyi analiz rezul'tatov primeneniya v povsednevnoi klinicheskoi praktike dlya lecheniya rasseyannogo skleroza preparatov ß-interferon-1a 30 mkg dlya vnutrimyshechnogo vvedeniya i ß-interferon-1a 44 mkg dlya podkozhnykh in''ektsii.

OBJECTIVE: to compare the results of treatment of multiple sclerosis (MS) with genfaxon, cinnovex and rebif. MATERIAL AND METHODS: The drugs were used in the treatment of 80 patients of the Moscow West administrative okrug during 2014-2015. Thirty patients were treated with genfaxon, 20 with cinnoVex and 30 with the original drug rebif. RESULTS AND CONCLUSION: Twenty-five percent of patients treated with cinnoVex were withdrawn from the study due to the non-efficacy (mean frequency of relapses was the same before and after treatment). A significant decrease of relapses was noted in patients treated with genfaxon. The high frequency of side-effects was the major problem in the treatment withgenfaxon. Due to this reason, some patients stopped treatment.A significant decrease of relapses was noted in patients treated with rebif though aversive effects were frequent during the first year of treatment. The effects of biosimilars found in this study are in line with earlier reports. Therefore, the increase of the quality of interferon-beta-1a biosimilars used for MS treatment is needed.

Structure of membrane-bound annexin A5 trimers: a hybrid cryo-EM - X-ray crystallography study.

Annexins constitute a family of phospholipid- and Ca(2+)-binding proteins involved in a variety of membrane-related processes. The property of several annexins, including annexin A5, to self-organize at the surface of lipid membranes into 2D ordered arrays has been proposed to be functionally relevant in cellular contexts. To further address this question, we investigated the high-resolution structure of annexin A5 trimers in membrane-bound 2D crystals by cryo-electron microscopy (Cryo-EM). A new 2D crystal form was discovered, with p32(1) symmetry, which is significantly better ordered than the 2D crystals reported before. A 2D projection map was obtained at 6.5 A resolution, revealing protein densities within each of the four domains characteristic of annexins. A quantitative comparison was performed between this structure and models generated from the structure of the soluble form of annexin A5 in pseudo-R3 3D crystals. This analysis indicated that both structures are essentially identical, except for small local changes attributed to membrane binding. As a consequence, and contrary to the common view, annexin A5 molecules maintain their bent shape and do not flatten upon membrane binding, which implies either that the four putative Ca(2+) and membrane-binding loops present different types of interaction with the membrane surface, or that the membrane surface is locally perturbed. We propose that the trimerization of annexin A5 molecules is the relevant structural change occurring upon membrane binding. The evidence that 2D arrays of annexin A5 trimers are responsible for its in vitro property of blood coagulation inhibition supports this conclusion.

Sample preparation of human serum for the analysis of tumor markers. Comparison of different approaches for albumin and gamma-globulin depletion.

LC-MS is a powerful method for the sensitive detection of proteins and peptides in biological fluids. However, the presence of highly abundant proteins often masks those of lower abundance and thus generally prevents their detection and identification in proteomic studies. In human serum the most abundant proteins are albumin and gamma-globulins. We tested several approaches to specifically reduce the level of these proteins based on either specific antibodies, dye ligands (for albumin) and protein A or G (for gamma-globulins). The resulting, depleted serum was analyzed by sodium dodecylsulfate-polyacrylamide gel electrophoresis and LC-MS for the residual presence of these abundant proteins as well as for other serum proteins that should remain after depletion. To test the applicability of this method to real-life samples, depleted serum of a cervical cancer patient was analyzed for the presence of a specific tumor marker protein SCCA1 (squamous cell carcinoma antigen 1; P29508), which is present at ng/ml concentrations. The results demonstrate that SCCA1 can be detected by LC-MS in patient serum following depletion of albumin and gamma-globulins thus opening the possibility of screening patient sera for other, so far unknown, tumor markers.

Growth and enzymological characteristics of a pink-pigmented facultative methylotroph Methylobacterium sp. MB1.

Growth characteristics of batch and continuous cultures of the pink facultative methylotroph Methylobacterium sp. MB1 were determined. The response of a chemostat culture to a pulse increase of methanol concentration was studied. Malate, succinate and oxaloacetate additions to the methanol-supplemented medium decreased batch culture growth inhibition by methanol. The carotenoid content in cells grown in a chemostat decreased with increasing growth rate. The key enzyme activities of C1-metabolism were measured in a chemostat culture at different dilution rates.

[Classification of methylotrophic bacteria according to 5S ribosomal RNA sequencing]. / Klassifikatsiia metilotrofnykh bakterii po posledovatel'nostiam 5S ribosomnoi RNK.

5S ribosomal RNA sequences of 33 strains of methylotrophic bacteria were determined. Tentative phylogenetic tree was constructed using the maximum topological similarity principle. Strains under study can be divided into 7 separate branches consistently with the current classification of methylotrophic bacteria. More extensive tree was also built to show the position of methylotrophic bacteria with respect to non-methylotrophic ones. One can conclude that the in contrast to obligate methane-oxidizing bacteria, facultative methylotrophic bacteria do not comprise phylogenetically separate domain on the tree.

[Formation of a methylotrophic denitrifying biocenosis in a system of sewage treatment for nitrates]. / Formirovanie metilotrofnogo denitrifitsiruiushchego soobshchestva v sisteme ochistki stochnykh vod ot nitratov.

A methylotrophic denitrifying bioenosis composed of hyphomicrobes and paracocci was isolated from the active ooze in a system of sewage purification from nitrates. The morphological and physiological characteristics of the isolated Hyphomicrobium sp. Z-115 and Paracoccus denitrificans Z-100 and Z-121 strains differed from those of the type strains, which made it difficult to identify them and to isolate them as a pure culture. This should be taken into account while determining the agents operating in such purification systems. The rate of growth, the rate of nitrate reduction and the activity of enzymes involved in methanol assimilation are higher in the anabolic syntrophic bicenosis than in its components in pure culture. A combined culture composed of the collection Hyphomicrobium and Paracoccus strains was neither effective nor stable under the conditions of anaerobic growth with nitrate and methanol. Therefore, the natural biocenosis af the purification system cannot be substituted by an artificial one composed of the collection cultures.

[Enzymes of ammonia assimilation in bacteria with different C1-metabolic pathways]. / Fermenty assimiliatsii ammoniia u bakterii s razlichnymi putiami C1-metabolizma.

The object of this work was to study enzymes involved in ammonium assimilation by 15 bacterial strains of different taxonomy. The bacteria utilizing methanol and methylated amines as the sources of carbon and energy have one of the three cyclic pathways of C1-metabolism: the serine pathway, the hexulose phosphate pathway or the ribulose diphosphate pathway. The bacteria were found to differ in the enzymes for ammonium assimilation according to the pathways of primary C1-metabolism. The bacteria with the serine cycle were characterized by the reductive amination of pyruvate and the operation of the glutamate cycle (glutamine synthetases and glutamate synthases). The reductive amination of alpha-ketoglutarate is the principal pathway of ammonium nitrogen assimilation in the bacteria with the hexulose phosphate cycle. The bacteria using reduced C1-substrates autotrophically, i.e. via the ribulose diphosphate pathway, have the enzymes of the glutamate cycle, but are characterized by low activities, if any, of amino acid dehydrogenases.

[Analysis of DNA-DNA homologies in obligate methylotrophic bacteria]. / Analiz DNK-DNK gomologii u obligatno-metilotrofnykh bakterii.

The genotypic affinity of 19 bacterial strains obligately dependent on methanol or methylamine as carbon and energy sources was studied by techniques of molecular DNA hybridization. The high homology level (35-88%) between motile strain Methylophilus methanolovorus V-1447D and nonmotile strain Methylobacillus sp. VSB-792 as well as other motile strains (Pseudomonas methanolica ATCC 21704, Methylomonas methanolica NRRL 5458, Pseudomonas sp. W6, strain A3) indicates that all of them belong to one genus. Rather high level of homology (62-63%) was found between Methylobacillus glycogenes ATCC 29475 and Pseudomonas insueta ATCC 21276 and strain G-10. The motile strain Methylophilus methylotrophus NCIB 10515 has a low homology (below 20%) to other of the studied obligate methylobacteria. Therefore, at least two genetically different genera of obligate methylobacteria can be distinguished, namely Methylophilus and Methylobacillus, the latter being represented by both motile and nonmotile forms.

Surface topography of the p3 and p6 annexin V crystal forms determined by atomic force microscopy.

Annexin V is a member of a family of structurally homologous proteins sharing the ability to bind to negatively charged phospholipid membranes in a Ca(2+)-dependent manner. The structure of the soluble form of annexin V has been solved by X-ray crystallography, while electron crystallography of two-dimensional (2D) crystals has been used to reveal the structure of its membrane-bound form. Two 2D crystal forms of annexin V have been reported to date, with either p6 or p3 symmetry. Atomic force microscopy has previously been used to investigate the growth and the topography of the p6 crystal form on supported phospholipid bilayers (Reviakine et al., 1998). The surface structure of the second crystal form, p3, is presented in this study, along with an improved topographic map of the p6 crystal form. The observed topography is correlated with the structure determined by X-ray crystallography.

Tetrazolium-dye-linked alcohol dehydrogenase of the methylotrophic actinomycete Amycolatopsis methanolica is a three-component complex.

Tetrazolium-dye-linked alcohol dehydrogenase (TD-ADH) of Amycolatopsis methanolica could be resolved into three protein components, which have been purified. Each of the components has the ability to reconstitute TD-ADH activity when combined with the other two. Component 1 is identical to the previously characterized methanol:N,N'-dimethyl-4-nitrosoaniline oxidoreductase (MNO), a decameric protein with 50-kDa subunits, each carrying a tightly bound NADPH. Component 2 is a high molecular mass (> 640 kDa) protein with subunits of 44 kDa and 72 kDa, and which possesses a low tetrazolium-dye-linked NADH dehydrogenase activity. The protein contains a yellow chromophore of unknown identity. Component 3 is a low molecular mass (15 kDa) protein containing a 5'-deazaflavin and at least one other low-molecular-mass compound with properties similar, but not identical, to those of nicotinamide coenzymes. The results suggest that alcohol oxidation by the TD-ADH complex is carried out by component 1 (MNO), after which transfer of the reducing equivalents (mediated by component 3) occurs to component 2, which (in vitro) is linked to the tetrazolium dye. Fractionation of A. methanolica extracts showed that most of the 5'-deazaflavin was present in component 3. Other gram-positive bacteria having a TD-ADH complex also produced 5'-deazaflavin. It is concluded that oxidation of primary aliphatic alcohols by A. methanolica, and probably also by other gram-positive bacteria containing MNO or TD-ADH, proceeds via TD-ADH. The likeliness of 5'-deazaflavin participation in this process is discussed.

Properties of an NAD(H)-containing methanol dehydrogenase and its activator protein from Bacillus methanolicus.

Oxidation of C1-C4 primary alcohols in thermotolerant Bacillus methanolicus strains is catalyzed by an NAD-dependent methanol dehydrogenase (MDH), composed of ten identical 43,000-Mr subunits. Each MDH subunit contains a tightly, but non-covalently, bound NAD(H) molecule, in addition to 1 Zn2+ and 1-2 Mg2+ ions. The NAD(H) cofactor is oxidized and reduced by formaldehyde and methanol, respectively, while it remains bound to the enzyme. Incubation of MDH with methanol and exogenous NAD (coenzyme) results in reduction of this NAD coenzyme. Both NAD species are not exchanged during catalysis. NAD thus plays two different and important roles in the MDH-catalyzed reaction, with the bound NAD cofactor acting as primary electron acceptor and the NAD coenzyme being responsible for reoxidation of the reduced cofactor. MDH obeys a ping-pong type reaction mechanism, which is consistent with such a temporary parking of reducing equivalents at the MDH-bound cofactor. Spectral studies show that, in the presence of exogenous NAD and Mg2+ ions, MDH interacts with a previously identified 50,000-Mr activator protein. The activator protein appears to facilitate the oxidation of the reduced NADH cofactor of MDH, which results in a strongly increased turnover rate of MDH.

Bacillus methanolicus sp. nov., a new species of thermotolerant, methanol-utilizing, endospore-forming bacteria.

The generic position of 14 strains of gram-positive bacteria able to use methanol as a growth substrate was determined. All are obligately aerobic, thermotolerant organisms that are able to grow at temperatures of 35 to 60 degrees C. Nine of the strains produce oval spores at a subterminal-to-central position in slightly swollen rod-shaped cells. DNA-DNA hybridization studies, 5S rRNA sequence analysis, and physiological characteristics revealed that all 14 strains cluster as a well-defined group and form a distinct new genospecies. Analysis of the 16S and 5S rRNA sequences indicated that this new species is distinct from Bacillus brevis but closely related to B. firmus and B. azotoformans. The name proposed for this new species is B. methanolicus. The type strain, PB1, has been deposited in the National Collection of Industrial and Marine Bacteria as NCIMB 13113.

Taxonomic studies on methylotrophic bacteria by 5S ribosomal RNA sequencing.

Nucleotide sequences of 5S ribosomal RNA (rRNA) isolated from 19 strains of Gram-negative methylotrophic bacteria were determined. Comparison of these sequences allowed construction of a tentative phylogenetic tree and showed that the bacteria analysed belong to the Proteobacteria and fell into several clusters, including obligate methanotrophs, obligate methylotrophs and several groups of facultative methylotrophs. Taxonomic relations between methylotrophic and non-methylotrophic bacteria are discussed, and the polyphyletic nature of methylotrophy as a taxonomic feature is highlighted.

Electron microscopic analysis and structural characterization of novel NADP(H)-containing methanol: N,N'-dimethyl-4-nitrosoaniline oxidoreductases from the gram-positive methylotrophic bacteria Amycolatopsis methanolica and Mycobacterium gastri MB19.

The quaternary protein structure of two methanol:N,N'-dimethyl-4-nitrosoaniline (NDMA) oxidoreductases purified from Amycolatopsis methanolica and Mycobacterium gastri MB19 was analyzed by electron microscopy and image processing. The enzymes are decameric proteins (displaying fivefold symmetry) with estimated molecular masses of 490 to 500 kDa based on their subunit molecular masses of 49 to 50 kDa. Both methanol:NDMA oxidoreductases possess a tightly but noncovalently bound NADP(H) cofactor at an NADPH-to-subunit molar ratio of 0.7. These cofactors are redox active toward alcohol and aldehyde substrates. Both enzymes contain significant amounts of Zn2+ and Mg2+ ions. The primary amino acid sequences of the A. methanolica and M. gastri MB19 methanol:NDMA oxidoreductases share a high degree of identity, as indicated by N-terminal sequence analysis (63% identity among the first 27 N-terminal amino acids), internal peptide sequence analysis, and overall amino acid composition. The amino acid sequence analysis also revealed significant similarity to a decameric methanol dehydrogenase of Bacillus methanolicus C1.